{"id":20703,"date":"2020-06-19T15:34:40","date_gmt":"2020-06-19T13:34:40","guid":{"rendered":"https:\/\/www.dwl.de\/?page_id=20703"},"modified":"2023-05-24T16:09:45","modified_gmt":"2023-05-24T14:09:45","slug":"literature","status":"publish","type":"page","link":"https:\/\/www.dwl.de\/en\/literature\/","title":{"rendered":"Literature"},"content":{"rendered":"<div class=\"wpb-content-wrapper\"><p>[vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; css=&#8221;.vc_custom_1587642648935{padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px !important;padding-left: 2px !important;}&#8221; z_index=&#8221;&#8221;][vc_column][vc_column_text]<\/p>\n<h1 style=\"text-align: left;\">Literature<\/h1>\n<p>[\/vc_column_text][vc_separator type=&#8221;small&#8221; position=&#8221;left&#8221; up=&#8221;24&#8243; down=&#8221;40&#8243;][\/vc_column][\/vc_row][vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; css=&#8221;.vc_custom_1587642648935{padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px !important;padding-left: 2px !important;}&#8221; z_index=&#8221;&#8221;][vc_column width=&#8221;1\/2&#8243;][vc_column_text]<a href=\"https:\/\/www.dwl.de\/en\/products\/dwl-doppler\/\">DWL Doppler sonography<\/a>\u00a0has achieved record numbers of scientific reference publications in a wide range of applications. Abstracts and papers published on the most relevant studies on the use of Doppler sonography \u2013 in particular <a href=\"https:\/\/www.dwl.de\/en\/products\/dwl-doppler\/\">Transcranial Doppler Sonography (TCD)<\/a> \u2013 can be found here. Our further recommended literature on the use of Doppler devices can be found in the book list.[\/vc_column_text][vc_empty_space height=&#8221;10px&#8221;][\/vc_column][vc_column width=&#8221;1\/2&#8243;][vc_column_text]<\/p>\n<h3>Book Recommendation<\/h3>\n<p>[\/vc_column_text][qode_elements_holder number_of_columns=&#8221;two_columns&#8221; columns_proportion=&#8221;25_75&#8243;][qode_elements_holder_item vertical_alignment=&#8221;top&#8221; advanced_animations=&#8221;no&#8221; item_padding=&#8221;20px 0px 0px 0px&#8221;][vc_single_image image=&#8221;22506&#8243; onclick=&#8221;custom_link&#8221; img_link_target=&#8221;_blank&#8221; qode_css_animation=&#8221;&#8221;][\/qode_elements_holder_item][qode_elements_holder_item vertical_alignment=&#8221;top&#8221; advanced_animations=&#8221;no&#8221; item_padding=&#8221;20px 0px 0px 0px&#8221;][vc_column_text]<strong>Neurosonology in critical care:<\/strong><br \/>\n<strong>Monitoring the Neurological Impact of the Critical Pathology<\/strong><br \/>\nISBN-10: \u200e 3030814181<br \/>\nISBN-13: \u200e 978-3030814182[\/vc_column_text][\/qode_elements_holder_item][\/qode_elements_holder][qode_elements_holder number_of_columns=&#8221;two_columns&#8221; columns_proportion=&#8221;25_75&#8243;][qode_elements_holder_item vertical_alignment=&#8221;top&#8221; advanced_animations=&#8221;no&#8221; item_padding=&#8221;20px 0px 0px 0px&#8221;][vc_single_image image=&#8221;22941&#8243; onclick=&#8221;custom_link&#8221; img_link_target=&#8221;_blank&#8221; qode_css_animation=&#8221;&#8221;][\/qode_elements_holder_item][qode_elements_holder_item vertical_alignment=&#8221;top&#8221; advanced_animations=&#8221;no&#8221; item_padding=&#8221;20px 0px 0px 0px&#8221;][vc_column_text]<strong>TCD \/ Neurovascular Sonography<\/strong><br \/>\nISBN: 978-3-030-96892-2<br \/>\nISBN: 978-3-030-96893-9[\/vc_column_text][\/qode_elements_holder_item][\/qode_elements_holder][vc_empty_space height=&#8221;35px&#8221;][\/vc_column][\/vc_row][vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; z_index=&#8221;&#8221; el_class=&#8221;literatur_style&#8221; css=&#8221;.vc_custom_1587971025355{padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px !important;padding-left: 2px !important;}&#8221;][vc_column width=&#8221;1\/2&#8243;][vc_accordion active_tab=&#8221;&#8221; collapsible=&#8221;yes&#8221; style=&#8221;accordion&#8221; el_class=&#8221;literatur_style&#8221;][vc_accordion_tab title=&#8221;TCD in Anaesthesiology&#8221;][vc_column_text css=&#8221;.vc_custom_1587637867899{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-anaesthesiologie\" class=\"tablepress tablepress-id-anaesthesiologie table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2022<\/strong><br \/>\nOlsen M., Capion T., Riberhold C.G., Bache S.<\/td><td class=\"column-2\">Reliability of cerebral autoregulation using different measures of perfusion pressure in patients with subarachnoid hemorrhage<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2022<\/strong><br \/>\nSantos DPA, Thirumala PD, Reddy G., Barros DF, Faria VNR, Shandal V., Kurtz P.<\/td><td class=\"column-2\">Risk of perioperative stroke and cerebral autoregulation monitoring: a systematic review<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nEngelhard K.<\/td><td class=\"column-2\">Nichtinvasives Neuromonitoring in der Anaesthesie\/Non-invasive neuromonitoring in anaesthesia<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nRazumovsky, A.<\/td><td class=\"column-2\">Transcranial Doppler Ultrasound (TCD) and Intraoperative TCD Monitoring: Perspective. <\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nMadureira J., Castro P., Azevedo E.<\/td><td class=\"column-2\">Demographic and Systemic Hemodynamic Influences in Mechanisms of Cerebrovascular Regulation in Healthy Adults<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nKietaibl C., Engel A., Menih H., Huepfl M., Erdoes G., Kubista B., Ullrich R., Windhager R., Markstaller K., Klein K.U.<\/td><td class=\"column-2\">Detection and differentiation of cerebral microemboli in patientes undergoing major orthopaedic surgery using transcranial Doppler ultrasound<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMergechea JL., Bruce SS., Connolly ES., Heyer EJ. <\/td><td class=\"column-2\">Reduced middle cerebral artery velocity during cross-clamp predicts cognitive dysfunction after carotid endarterectomy<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nMilakovi\u0107 B, Dimitrijevi\u0107 I, Malenkovi\u0107 V, Markovi\u0107 D, Panti\u0107-Palibrk V, Gvozdenovi\u0107 L.<br \/>\n<\/td><td class=\"column-2\">Preopeative assessment and preparation of patients with diseases affecting the central nervous system<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nSchramm P., Engelhard K., Scherhag A., Schier F., Werner C.<br \/>\n<\/td><td class=\"column-2\">Highintensity transient signals during laparoscopic surgery in children<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nSharma D., RG Ellenbogen., Vavilala MS.<br \/>\n<\/td><td class=\"column-2\">Use of transcranial Doppler ultrasonography and jugular oximetry to optimize hemodynamics during pediatric posterior fossa craniotomy<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nAries MJH, Elting JW, De Keyser J, Kremer BPH, Vroomen PCAJ<br \/>\n<br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation in stroke: a review of transcranial Doppler studies<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZanatta P., Forti A., Bosco E., Salvador L., Borsato M., Baldanzi F.<br \/>\n<\/td><td class=\"column-2\">Microembolic signals and strategy to prevent gas embolism during extracorporeal membrane oxygenation<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBlumenstein J., Kempfert J., Walther T., Van Linden A., Fassl J., Borger M., u.a. <br \/>\n<\/td><td class=\"column-2\">Cerebral flow pattern monitoring by transcranial Doppler during cardiopulmonary resuscitation<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nDagal A., Lam AM<br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation and anesthesia<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nBellapart J., Fraser JF.<\/td><td class=\"column-2\">Transcranial Doppler assessment of cerebral autoregulation<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nLee J-Y, Lee MS, Whang K, Lee JM, Kim S-H, Lee SS<br \/>\n<\/td><td class=\"column-2\">Accuracy of transcranial Doppler sonography for predicting cerebral infarction in aneurysmal subarachnoid hemorrhage<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRigamonti A., Ackery A., Baker AJ.<br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler monitoring in subarachnoid hemorrhage: a critical tool in critical care<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nPolito A, Ricci Z, Di Chiara L, Giorni C, Iacoella C, Sanders SP<\/td><td class=\"column-2\">Cerebral blood flow during cardiopulmonary bypass in pediatric cardiac surgery: the role of transcranial Doppler-a systematic review of the literature<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2006<\/strong> <br \/>\nSviri GE., Ghodke B., Britz GW., Douville CM., Haynor DR., Mesiwala AH.<\/td><td class=\"column-2\">Transcranial Doppler grading criteria for basilar artery vasospasm<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2005<\/strong> <br \/>\nNaval NS., Thomas CE., Urrutia VC.<\/td><td class=\"column-2\">Relative changes in flow velocities in vasospasm after subarachnoid hemorrhage: a transcranial Doppler study<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2005<\/strong> <br \/>\nAckerstaff RGA., Suttorp MJ., van den Berg J., Overtoom TTC., Vos JA., Bal ET., Zanen P.<\/td><td class=\"column-2\">Prediction of early cerebral outcome by transcranial Doppler monitoring in carotid bifurcation angioplasty and stenting<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2001<\/strong> <br \/>\nRosengarten B., Huwendiek O., Kaps M.<\/td><td class=\"column-2\">Neurovascular coupling and cerebral autoregulation can be described in terms of a control system: Validation of a Second - order Linear System Model<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>1998<\/strong> <br \/>\nLitscher G., Schwarz G., Sander-Kiesling A., Hadolt I.<\/td><td class=\"column-2\">Robotic Transcranial Doppler Sonography Probes and Acupuncture<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-anaesthesiologie from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Vaso Motor Reactivity&#8221;][vc_column_text css=&#8221;.vc_custom_1587640275150{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-VasoMotorReactivity\" class=\"tablepress tablepress-id-VasoMotorReactivity table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nCaldas, J. R., Passos, R. D. H., Robinson, T. G., Panerai, R. B., &amp; Minhas, J. S.<br \/>\n<\/td><td class=\"column-2\">Intensive care management of arterial carbon dioxide in acute intracerebral haemorrhage: Case report of influences on cerebral haemodynamics. Ultrasound, 1742271X20903753.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nKurysheva, N. I., Shlapak, V. N., &amp; Ryabova, T. Y.<br \/>\n<\/td><td class=\"column-2\">Heart rate variability in normal tension glaucoma: A case\u2013control study. Medicine, 97(5).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nErkelens, C. D., van der Wal, H. H., de Jong, B. M., Elting, J. W., Renken, R., Gerritsen, et al.<br \/>\n<\/td><td class=\"column-2\">Dynamics of cerebral blood flow in patients with mild non\u2010ischaemic heart failure. European journal of heart failure, 19(2), 261-268.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nFuente Mora, C., Palma, J. A., Kaufmann, H., &amp; Norcliffe-Kaufmann, L.<\/td><td class=\"column-2\">Cerebral autoregulation and symptoms of orthostatic hypotension in familial dysautonomia. Journal of Cerebral Blood Flow &amp; Metabolism, 37(7), 2414-2422.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nKorbakis, G., &amp; Vespa, P. M.  <br \/>\n<\/td><td class=\"column-2\">Multimodal neurologic monitoring. In Handbook of clinical neurology (Vol. 140, pp. 91-105). Elsevier.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nMadureira, J., Castro, P., &amp; Azevedo, E.<br \/>\n<\/td><td class=\"column-2\">Demographic and systemic hemodynamic influences in mechanisms of cerebrovascular regulation in healthy adults. Journal of Stroke and Cerebrovascular Diseases, 26(3), 500-508.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nRyu, J., Ko, N., Hu, X., &amp; Shadden, S. C.<br \/>\n<\/td><td class=\"column-2\">Numerical investigation of vasospasm detection by extracranial blood velocity ratios. Cerebrovascular Diseases, 43(5-6), 214-222.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nXiong, L., Liu, X., Shang, T., Smielewski, P., Donnelly, J., Guo, Z. N., et al.<\/td><td class=\"column-2\">Impaired cerebral autoregulation: measurement and application to stroke. Journal of Neurology, Neurosurgery &amp; Psychiatry, 88(6), 520-531.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nRodriguez, J., Blaber, A. P., Kneihsl, M., Trozic, I., Ruedl, R.,<br \/>\nGreen, D. A., et al.<\/td><td class=\"column-2\">Poststroke alterations in<br \/>\nheart rate variability during orthostatic challenge. Medicine,<br \/>\n96(14)<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nSemenyutin, V., Aliev, V., Ivankov, A., Patzak, A., Panuntsev, G., Govorov, B., &amp; Nikiforova, A.  <br \/>\n<\/td><td class=\"column-2\">Non-invasive assessment of cerebral autoregulation in real-time mode  Cerebrovascular Diseases, 39.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nSemenyutin, V., Nikiforova, A., Panuntsev, G., Aliev, V., Patzak, A., Asaturyan, et al.<br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation in operated patients with stenosis of the carotid arteries: <br \/>\nCerebrovascular Diseases, 39, 37-38.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nSemenyutin, V., Panuntsev, G., Aliev, V., &amp; Patzak, A.. <br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation and shunt flow index in the region of arteriovenous malformation. <br \/>\nCerebrovascular Diseases 2015, 39.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nBudohoski KP, Reinhard M, Aries MJH, Czosnyka Z, Smielewski P, Pickard JD, Kirkpatrick PJ, Czosnyka M. <br \/>\n<\/td><td class=\"column-2\">Monitoring cerebral autoregulation after head injury. Which component of transcranial Doppler flow velocity is optimal? <br \/>\nNeurocrit. Care 2012, 17, 211\u2013218.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nGur AY, Auriel E, Korczyn AD, Gadoth A, Shopin L, Giladi N, et al.  <\/td><td class=\"column-2\">Vasomotor reactivity as a predictor for syncope in patients with orthostatism.<br \/>\nActa Neurologica Scandinavica, vol. 126, no. 1, pp. 32\u201336.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBlaber, A. P., Goswami, N., Bondar, R. L., &amp; Kassam, M. S.  <\/td><td class=\"column-2\">Impairment of cerebral blood flow regulation in<br \/>\nastronauts with orthostatic intolerance after flight. Stroke, 42(7),<br \/>\n1844-1850<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nAries MJH, Elting JW, De Keyser J, Kremer BPH, Vroomen PCAJ. <br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation in stroke: A review of transcranial Doppler studies. <br \/>\nStroke 2010; 41: 2697-2704.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nFigaji AA. <\/td><td class=\"column-2\">Practical aspects of bedside cerebral hemodynamics monitoring in pediatric TBI. <br \/>\nChilds Nerv Syst 2010; 26: 431-439.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nTzeng YC, Willie CK, Atkinson G, Lucas SJE, Wong A, Ainslie PN. <br \/>\n<\/td><td class=\"column-2\">Cerebrovascular regulation during transient hypotension and hypertension in humans. <br \/>\nHypertension 2010; 56(2): 268-273.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZweifel C, Czosnyka Marek, Lavinio A, Castellani G, Kim DJ, Carrera E, Pickard JD, Kirkpatrick PJ, Smielewski P. <br \/>\n<\/td><td class=\"column-2\">A comparison study of cerebral autoregulation assessed with transcranial Doppler and cortical laser Doppler flowmetry. <br \/>\nNeurol. Res. 2010; 32: 425-428.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nBellapart J, Fraser JF. <\/td><td class=\"column-2\">Transcranial Doppler assessment of cerebral autoregulation. <br \/>\nUltrasound Med Biol 2009; 35: 883-893.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nCzosnyka M, Brady K, Reinhard M, Smielewski P, Steiner LA. <\/td><td class=\"column-2\">Monitoring of cerebrovascular autoregulation: facts, myths, and missing links. <br \/>\nNeurocrit Care 2009; 10: 373-386.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nLorenz MW, Loesel N, Thoelen N, Gonzalez M, Lienerth C, Dvorak F, R\u00f6lz W, Humpich M, Sitzer M. <\/td><td class=\"column-2\">Effects of poor bone window on the assessment of cerebral autoregulation with transcranial Doppler sonography - a source of systematic bias and strategies to avoid it. <br \/>\nJ. Neurol. Sci. 2009; 283: 49-56.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nPanerai RB. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler for evaluation of cerebral autoregulation. <br \/>\nClin. Auton. Res. 2009; 19: 197-211.<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nPuppo C, L\u00f3pez L, Caragna E, Biestro A. <br \/>\n<\/td><td class=\"column-2\">One-minute dynamic cerebral autoregulation in severe head injury patients and its comparison with static autoregulation. A transcranial Doppler study. <br \/>\nNeurocrit Care 2008; 8: 344-352.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nVernieri F, Tibuzzi F, Pasqualetti P, Altamura C, Palazzo P, Rossini PM, Silvestrini M. <\/td><td class=\"column-2\">Increased cerebral vasomotor reactivity in migraine with aura: an autoregulation disorder? A transcranial Doppler and near-infrared spectroscopy study. <br \/>\nCephalalgia 2008; 28: 689-695.<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nLavinio A, Schmidt EA, Haubrich C, Smielewski Piotr, Pickard John D, Czosnyka Marek. <\/td><td class=\"column-2\">Noninvasive evaluation of dynamic cerebrovascular autoregulation using Finapres plethysmograph and transcranial Doppler. <br \/>\nStroke 2007; 38: 402-404.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nLewis PM, Smielewski P, Pickard J D, Czosnyka M. <br \/>\n<\/td><td class=\"column-2\">Dynamic cerebral autoregulation: should intracranial pressure be taken into account? <br \/>\nActa Neurochir (Wien) 2007; 149: 549-555<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nAaslid R. <br \/>\n<\/td><td class=\"column-2\">Cerebral autoregulation and vasomotor reactivity. <br \/>\nFront Neurol Neurosci 2006; 21: 216-228.<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2001<\/strong><br \/>\nRosengarten B, Huwendiek O and Kaps M.<br \/>\n<\/td><td class=\"column-2\">Neurovascular coupling and cerebral autoregulation can be described in terms of a control system: Validation of a Second -order Linear System Model. <br \/>\nUltrasound Med Biol 2001; 27: 189\u2013193.<br \/>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-VasoMotorReactivity from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Noninvasive Estimation of Intracranial Pressure using TCD&#8221;][vc_column_text css=&#8221;.vc_custom_1587639860135{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-brain_pressure\" class=\"tablepress tablepress-id-brain_pressure table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nBrasil, S., Taccone, F. S., Wahys, S. Y., Tomazini, B. M.,<br \/>\nAnnoni, F., Fonseca, S., et al.<\/td><td class=\"column-2\">Cerebral hemodynamics and intracranial compliance impairment<br \/>\nin critically ill COVID-19 patients: A pilot study. Brain sciences,<br \/>\n11(7), 874<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nCaldas, J. R., Passos, R. D. H., Robinson, T. G., Panerai, R. B., &amp; Minhas, J. S.<\/td><td class=\"column-2\">Intensive care management of arterial carbon dioxide in acute intracerebral haemorrhage: Case report of influences on cerebral haemodynamics. Ultrasound, 1742271X20903753.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nFatima, N., Shuaib, A., Chughtai, T. S., Ayyad, A., &amp; Saqqur, M.<\/td><td class=\"column-2\">The role of transcranial doppler in traumatic brain injury: A systemic review and meta-analysis. Asian journal of neurosurgery, 14(3), 626.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nCardim, D., Schmidt, B., Robba, C., Donnelly, J., Puppo, C., Czosnyka, M., &amp; Smielewski, P.<\/td><td class=\"column-2\">Transcranial Doppler monitoring of intracranial pressure plateau waves. Neurocritical Care, 26(3), 330-338.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nWakerley B, Yohana K, Luen Teoh H, Tan CW, Chan BPL, Sharma VK. <\/td><td class=\"column-2\">Non-invasive intracranial pressure monitoring with transcranial Doppler in a patient with progressive cerebral venous sinus thrombosis. <br \/>\nJ Neuroimaging 2014; 24(3):302\u20134.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nWakerley BR, Kusuma Y, Yeo LLL, Liang S, Kumar K, Sharma AK, Sharma VK. <br \/>\n<\/td><td class=\"column-2\">Usefulness of transcranial doppler-derived cerebral hemodynamic parameters in the noninvasive assessment of intracranial pressure. <br \/>\nJ. Neuroimaging 2014, 25, 111\u2013116.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nBudohoski KP, Reinhard M, Aries MJH, Czosnyka Z, Smielewski P, Pickard JD, Kirkpatrick PJ, Czosnyka M.<\/td><td class=\"column-2\">Monitoring cerebral autoregulation after head injury. Which component of transcranial Doppler flow velocity is optimal? <br \/>\nNeurocrit. Care 2012, 17, 211\u2013218.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nPrunet B, Asencio Y, Lacroix G, Montcriol A, Dagain A, Cotte J, et al.  <br \/>\n<\/td><td class=\"column-2\">Noninvasive detection of elevated intracranial pressure using a portable ultrasound system. <br \/>\nThe American Journal of Am J Emerg Med 2012;30:936\u2013941.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBouzat P, Francony G, Declety P, Genty C, Kaddour A, Bessou P, et al.  <\/td><td class=\"column-2\">Transcranial Doppler to screen on admission patients with mild to moderate traumatic brain injury. <br \/>\nNeurosurgery 2011; 68: 1603-1609; discussion 1609-1610.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nMelo JRT, Di Rocco F, Blanot S, Cuttaree H, Sainte-Rose C, Oliveira-Filho J, et al.  <\/td><td class=\"column-2\">Transcranial Doppler can predict intracranial hypertension in children with severe traumatic brain injuries. <br \/>\nChilds Nerv Syst 2011; 27: 979-984.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nRadolovich DK, Aries M J H, Castellani G, Corona A, Lavinio A, Smielewski P, et al.  <br \/>\n<\/td><td class=\"column-2\">Pulsatile intracranial pressure and cerebral autoregulation after traumatic brain injury. <br \/>\nNeurocrit Care 2011; 15: 379-386.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nRosenberg JB, Shiloh AL, Savel RH, Eisen LA.<\/td><td class=\"column-2\">Non-invasive Methods of Estimating Intracranial Pressure. <br \/>\nNeurocrit Care 2011; 15: 599-608.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nSorrentino E, Budohoski KP, Kasprowicz M, Smielewski Peter, Matta B, Pickard John D, et al.  <br \/>\n<\/td><td class=\"column-2\">Critical thresholds for transcranial Doppler indices of cerebral autoregulation in traumatic brain injury. <br \/>\nNeurocrit Care 2011; 14: 188-193.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nStover JF. <br \/>\n<\/td><td class=\"column-2\">Actual evidence for neuromonitoring-guided intensive care following severe traumatic brain injury. <br \/>\nSwiss Med Wkly 2011; 141: w13245.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nLeliefeld PH, Gooskens RHJM, Peters RJM, Tulleken CAF, Kappelle LJ, Han KS, et al.  <\/td><td class=\"column-2\">New transcranial Doppler index in infants with hydrocephalus: transsystolic time in clinical practice. <br \/>\nUltrasound Med Biol 2009; 35: 1601-1606.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nRact C, Le Moigno S, Bruder N, Vigu\u00e9 B. <\/td><td class=\"column-2\">Transcranial Doppler ultrasound goal-directed therapy for the early management of severe traumatic brain injury. <br \/>\nIntensive Care Med 2007; 33: 645-651.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nBor-Seng-Shu E, Hirsch R, Teixeira MJ, De Andrade AF, Marino R Jr. <br \/>\n<\/td><td class=\"column-2\">Cerebral hemodynamic changes gauged by transcranial Doppler ultrasonography in patients with posttraumatic brain swelling treated by surgical decompression. <br \/>\nJ. Neurosurg. 2006; 104: 93-100.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nMiranda P, Lagares A, Alen J, Perez-Nu\u00f1ez A, Arrese I, Lobato RD. <br \/>\n<\/td><td class=\"column-2\">Early transcranial Doppler after subarachnoid hemorrhage: Clinical and radiological correlations. <br \/>\nSurg Neurol 2006; 65: 247-252; discussion 252.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nSplavski B, Radanovi\u0107 B, Vrankovi\u0107 D, Has B, Muzevi\u0107 D, Janculjak D, et al.  <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography as an early outcome forecaster following severe brain injury. <br \/>\nBr J Neurosurg 2006; 20: 386-390.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-brain_pressure from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD and Alzheimers Disease \/ Dementia&#8221;][vc_column_text css=&#8221;.vc_custom_1587640848145{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Alzheimers\" class=\"tablepress tablepress-id-Alzheimers table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nPurkayastha, S., Sorond, F. A., Lyng, S., Frantz, J., Murphy, M. N., Hynan, L. S., et al.<\/td><td class=\"column-2\">Impaired cerebral vasoreactivity despite symptom resolution in sports-related concussion. Journal of neurotrauma, 36(16), 2385-2390.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBoban M, Crnac P, Junakovic A, Garami Z, Malojcic B.<\/td><td class=\"column-2\">Blood flow velocity changes in anterior cerebral arteries during cognitive tasks performance.<br \/>\nBrain and Cognition, 2014, 84(1), pp. 26-33.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nCaplan GA, Lan Z, Newton L, Kvelde T, McVeigh C, Hill MA.<\/td><td class=\"column-2\">Transcranial Doppler to measure cerebral blood flow in delirium superimposed on dementia. A cohort study. <br \/>\nJ Am Med Direct Assoc 2014; 15: 355\u2013360.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nOlavarr\u00eda VV, Arima H, Anderson CS, Brunser AM, Mu\u00f1oz-Venturelli P, Heritier S, Lavados PM.<\/td><td class=\"column-2\">Head position and cerebral blood flow velocity in acute ischemic stroke: a systematic review and meta-analysis. <br \/>\nCerebrovasc Dis 2014; 37:401\u20138.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nTomek A, Urbanova B, Hort J.<\/td><td class=\"column-2\">Utility of transcranial ultrasound in predicting Alzheimer's disease risk. <br \/>\nJ Alzheimers Dis 2014, 42, S365-S374.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nMilakovic B, Dimitrijevic I, Malenkovic V, Markovic D, Pantic- Palibrk V, Gvozdenovic L.<\/td><td class=\"column-2\">Preoperative assessment and preparationof patients with diseases affecting the central nervous system.<br \/>\nActaChir Iugosl 2011; 58:83\u201390.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nRoher AE, Garami Z, Tyas SL, Maarouf CL, Kokjohn TA, Belohlavek M, Vedders LJ, Connor D, et al. <\/td><td class=\"column-2\">Transcranial Doppler ultrasound blood flow velocity and pulsatility index as systemic indicators for Alzheimer\u2019s disease. <br \/>\nAlzheimers Dement. 2011; 7(4):445\u2013455.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nGrocott HP, Davie S, Fedorow C<\/td><td class=\"column-2\">Monitoring of brain function in anesthesia and intensive care.<br \/>\nCurr Opin Anaesthesiol 2010; 23:759\u201364.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRosengarten B, Kaps M. <\/td><td class=\"column-2\">A simultaneous EEG and transcranial Doppler technique to investigate the neurovascular coupling in the human visual cortex.<br \/>\nCerebrovasc Dis 2010, 29:211\u20136.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nClaassen JAHR, Diaz-Arrastia R, Martin-Cook K, Levine BD, Zhang R. <\/td><td class=\"column-2\">Altered cerebral hemodynamics in early Alzheimer disease: A pilot study using transcranial Doppler. <br \/>\nJ. Alzheimers Dis. 2009, 17, 621\u2013629.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nDagal A, Lam AM.<\/td><td class=\"column-2\">Cerebral autoregulation and anesthesia.<br \/>\nCurr Opin Anaesthesiol 2009, 22, 547\u2013552<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nLikitjaroen Y, Suwanwela NC, Phanthumchinda K. <\/td><td class=\"column-2\">Vasoreactivity induced by acetazolamide in patients with vascular dementia versus Alzheimer\u2019s disease. <br \/>\nJ Neurol Sci. 2009; 283:32\u201335.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nVicenzini E, Ricciardi MC, Altieri M, Puccinelli F, Bonaffini N, Di Piero V, Lenzi GL<\/td><td class=\"column-2\">Cerebrovascular reactivity in degenerative and vascular dementia: A transcranial Doppler study. <br \/>\nEur Neurol 2007, 58: 84\u201389.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nAsil T, Uzuner N. <br \/>\n<\/td><td class=\"column-2\">Differentiation of vascular dementia and Alzheimer disease: A functional transcranial Doppler ultrasonographic study. <br \/>\nJ Ultrasound Med 2005;24:1065\u20131070.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2002<\/strong><br \/>\nGreene SA.<\/td><td class=\"column-2\">Anesthesia for the patient with neurologic disease.<br \/>\nVeterinary Anesthesia and Pain Management Secrets. Philadelphia, PA:Hanley &amp; Belfus, 2002, chapt. 32, p. 193\u2013196.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Alzheimers from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Detection and Differentiation of Emboli&#8221;][vc_column_text css=&#8221;.vc_custom_1587640991225{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-DifferentiationofEmboli\" class=\"tablepress tablepress-id-DifferentiationofEmboli table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2023<\/strong><br \/>\nPedro Castro, J Ferreira, Branko Malojcic, Danira Bazadona, Claudio Baracchini, Alessio Pieroni, David Skoloudik, Elsa Azevedo and Manfred Kaps<\/td><td class=\"column-2\">Detection of microemboli in patients with acute ischaemic stroke and atrial fibrillation suggests poor functional outcome.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D.. <\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO. Journal of Clinical and Nursing Research, 4(2).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A.<\/td><td class=\"column-2\">A new method for correcting middle cerebral artery flow velocity for age by calculating Z-scores<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nC. Kietaibl, A. Engel, I. Horvat Menih, M. Huepfl, G. Erdoes, B. Kubista, R. Ullrich, R. Windhager, K. Markstaller, K.U. Klein<\/td><td class=\"column-2\">Detection and differentiation of cerebral microemboli in patients undergoing major orthopaedic surgery using transcranial Doppler ultrasound<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBum Joon Kum, Na-Young Kim, Dong-Wha Kang, Jong S. Kim, Sun U. Kwon<\/td><td class=\"column-2\">Provoked right-to-left shunt in patent foramen ovale associates with ischemic stroke i posterior circulation<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBum Joon Kum, Na-Young Kim, Dong-Wha Kang, Jong S. Kim, Sun U. Kwon<\/td><td class=\"column-2\">Provoked right-to-left shunt in patent foramen ovale associates with ischemic stroke i posterior circulation<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nKomar M, Olszowska M, Przewlocki T, Podolec J, Stepniewski J, Sobien B, Badacz R, Kablak-Ziembicka A, Tomkiewicz-Pajak L, Podolec P<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography should it be the first choice for persistent foramen ovale screening?<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2013<\/strong><br \/>\nSilbert, Evered, Scott, Rahardja, Gerraty, Choong<\/td><td class=\"column-2\">Review of transcranial Doppler ultrasound to detect microemboli during orthopedic surgery<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nVan Lammeren GW, Van De Mortel RH, Visscher M, Pasterkamp G, De Borst GJ, Moll FL, Vink A, Tromp SC, De Vries JP<\/td><td class=\"column-2\">The atherosclerotic plaque-risk factors and cardiovascular outcome after carotid endarterectomy: Spontaneous preoperative microembolic signals detected with transcranial doppler are associated with vulnerable carotid plaque characteristics<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nEyjolfsson A, Al-Rashidi F, Dencker M, Scicluna S, Brond\u00e9n B, Koul B<\/td><td class=\"column-2\">Comparison between transcranial Doppler and Coulter counter for detection of lipid micro embolization from mediastinal shed blood reinfusion during cardiac surgery<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nKing Alice, Shipley Martin, Markus H<\/td><td class=\"column-2\">Optimizing Protocols for Risk Prediction in Asymptomatic Carotid Stenosis Using Embolic Signal Detection: The Asymptomatic Carotid Emboli Study<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nJayasooriya G, Thapar A, Shalhoub J, Davies AH<\/td><td class=\"column-2\">Silent cerebral events in asymptomatic carotid stenosis<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nSchramm P, Engelhard K, Scherhag A, Schier F, Werner C<\/td><td class=\"column-2\">High-intensity transient signals during laparoscopic surgery in children<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZanatta P, Forti A, Bosco E, Salvador L, Borsato M, Baldanzi F<\/td><td class=\"column-2\">Microembolic signals and strategy to prevent gas embolism during extracorporeal membrane oxygenation<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nMarkus Hugh S, King Alice, Shipley Martin, Topakian Raffi, Cullinane M, Reihill S <\/td><td class=\"column-2\">Asymptomatic embolisation for prediction of stroke in the Asymptomatic Carotid Emboli Study (ACES): a prospective observational study<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBlumenstein J, Kempfert J, Walther T, Van Linden A, Fassl J, Borger M, u.a.<\/td><td class=\"column-2\">Cerebral flow pattern monitoring by transcranial Doppler during cardiopulmonary resuscitation<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nVan H, Poommipanit P, Shalaby M, Gevorgyan R, Tseng CH, Tobis J. <\/td><td class=\"column-2\">Sensitivity of transcranial Doppler versus intracardiac echocardiography in the detection of right-to-left shunt. <\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSkjelland M, Krohg-S\u00f8rensen K, Tenn\u00f8e B, Bakke SJ, Brucher R, Russell D. <\/td><td class=\"column-2\">Cerebral microemboli and brain injury during carotid artery endarterectomy and stenting. <\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nKing Alice, Markus Hugh S. <\/td><td class=\"column-2\">Doppler embolic signals in cerebrovascular disease and prediction of stroke risk: a systematic review and meta-analysis<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nCaputi L, Carriero MR, Falcone C, Parati E, Piotti P, Materazzo C, et al.  <\/td><td class=\"column-2\">Transcranial Doppler and transesophageal echocardiography: Comparison of both techniques and prospective clinical relevance of transcranial Doppler in patent foramen ovale detection. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nJesurum JT, Fuller CJ, Renz J, Krabill KA, Spencer MP, Reisman M. <\/td><td class=\"column-2\">Diagnosis of secondary source of right-to-left shunt with balloon occlusion of patent foramen ovale and power M-mode transcranial Doppler. <\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nDittrich R, Ringelstein EB<\/td><td class=\"column-2\">Occurrence and clinical impact of microembolic signals (MES) in patients with chronic cardiac diseases and atheroaortic plaques-a systematic review<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaver, J. L.<\/td><td class=\"column-2\">Cryptogenic stroke in patients with patent foramen ovale. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nGuerrieri Wolf L, Abu-Omar Y, Choudhary BP, Pigott D, Taggart DP. <br \/>\n<\/td><td class=\"column-2\">Gaseous and solid cerebral microembolization during proximal aortic anastomoses in off-pump coronary surgery: The effect of an aortic side-biting clamp and two clampless devices. <\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nMaselli D, Pizio R, Musumeci F. <br \/>\n<\/td><td class=\"column-2\">Multifrequency transcranial Doppler for intraoperative automatic detection and characterisation of cerebral microemboli during port-access mitral valve surgery.<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nChen C-I, Iguchi Y, Garami Z, Malkoff MD, Smalling RW, Campbell MS, et al.  <br \/>\n<\/td><td class=\"column-2\">Analysis of emboli during carotid stenting with distal protection device. <\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHomma, S., &amp; Sacco, R. L.<\/td><td class=\"column-2\">Patent foramen ovale and stroke.<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2004<\/strong><br \/>\nAbu-Omar Y, Balacumaraswami L, Pigott DW, Matthews PM, Taggart DP. <\/td><td class=\"column-2\">Solid and gaseous cerebral microembolization during off-pump, on-pump, and open cardiac surgery procedures. <\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2002<\/strong><br \/>\nBrucher R, Russell D. <\/td><td class=\"column-2\">Automatic online embolus detection and artifact rejection with the first multifrequency transcranial Doppler. <\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>2002<\/strong><br \/>\nRussell D, Brucher R. <\/td><td class=\"column-2\">Online automatic discrimination between solid and gaseous cerebral microemboli with the first multifrequency transcranial Doppler. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nJauss, M., &amp; Zanette, E.<\/td><td class=\"column-2\">Detection of right-to-left shunt with ultrasound contrast agent and transcranial Doppler sonography. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nDroste, D. W., Kriete, J. U., Stypmann, J., Castrucci, M., Wichter, T., Tietje, R., ... &amp; Ringelstein, E. B.<\/td><td class=\"column-2\">Contrast transcranial Doppler ultrasound in the detection of right-to-left shunts: comparison of different procedures and different contrast agents. <\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nSchwarz, J. J., Sander, D., Kukla, C., Wittich, I., Babikian, V. L., &amp; Klingelhofer, J.<\/td><td class=\"column-2\">Methodological parameters influence the detection of right-to-left shunts by contrast transcranial Doppler ultrasonography. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nE. Bernd Ringelstein, Dirk W. Droste, Viken L. Babikian, David H. Evans, Donald G. Grosset, Manfred Kaps, Hugh S. Markus, David Russell and Mario Siebler<br \/>\n<\/td><td class=\"column-2\">Consensus on Microembolus Detection by TCD<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>1997<\/strong><br \/>\nKaps M, Hansen J, Weiher M, Tiffert K, Kayser I, Droste DW. <\/td><td class=\"column-2\">Clinically silent microemboli in patients with artificial prosthetic aortic valves are predominantly gaseous and not solid. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-36\">\n\t<td class=\"column-1\"><strong>1996<\/strong><br \/>\nZanette, E. M., Mancini, G., De Castro, S., Solaro, M., Cartoni, D., &amp; Chiarotti, F.<\/td><td class=\"column-2\">Patent foramen ovale and transcranial Doppler: comparison of different procedures. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-37\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nCommittee of the Ninth International Cerebral Hemodynamic Symposium<\/td><td class=\"column-2\">Basic Identification Criteria of Doppler Microembolic Signals and Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium<\/td>\n<\/tr>\n<tr class=\"row-38\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nR.G.A. Ackerstaff, C. Jansen, L. Moll, F.E.E. Vermeulen, R.P.H.M. Hamerlijnck, H.W. Mauser<\/td><td class=\"column-2\">The significance of microemboli detection by means of transcranial Doppler ultrasonography monitoring in carotid endarterectomy<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-DifferentiationofEmboli from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Emboli Detection to evaluate Risk of Stroke&#8221;][vc_column_text css=&#8221;.vc_custom_1614282673882{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-EmboliDetectiontoevaluateRiskofStroke\" class=\"tablepress tablepress-id-EmboliDetectiontoevaluateRiskofStroke table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nShiratori, Y., Yoshimoto, T., &amp; Yamamoto, K.<br \/>\n<\/td><td class=\"column-2\">Esophageal variceal treatment using a novel Doppler probe<br \/>\nmethod. Endoscopy, 53(11), E419-E420.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nBatra, A., Clark, J. R., LaHaye, K., Shlobin, N. A., Hoffman, S.<br \/>\nC., Orban, Z. S., et al.<\/td><td class=\"column-2\">Transcranial doppler<br \/>\nultrasound evidence of active cerebral embolization in COVID-<br \/>\n19. Journal of Stroke and Cerebrovascular Diseases, 30(3),<br \/>\n105542<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D. <br \/>\n<\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO. Journal of Clinical and Nursing Research, 4(2).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nRazumovsky, A.<\/td><td class=\"column-2\">Transcranial Doppler Ultrasound (TCD) and Intraoperative TCD Monitoring: Perspective. Journal of Vascular and Interventional Neurology, 11(3), 134-139.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nKobayashi, M., Yoshida, K., Kojima, D., Oshida, S., Fujiwara, S.,<br \/>\nKubo, Y., &amp; Ogasawara, K.<\/td><td class=\"column-2\">Impact of external carotid<br \/>\nartery occlusion at declamping of the external and common<br \/>\ncarotid arteries during carotid endarterectomy on development<br \/>\nof new postoperative ischemic cerebral lesions. Journal of<br \/>\nvascular surgery, 69(2), 454-461<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nUdesh, R., Natarajan, P., Thiagarajan, K., Wechsler, L. R.,<br \/>\nCrammond, D. J., Balzer, J. R., &amp; Thirumala, P. D.<br \/>\n<\/td><td class=\"column-2\">Transcranial doppler monitoring in carotid endarterectomy: A<br \/>\nsystematic review and meta\u2010analysis. Journal of Ultrasound in<br \/>\nMedicine, 36(3), 621-630<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nLee J, Hwang SH, Park JH.<\/td><td class=\"column-2\">The changes of the size of carotid arterial plaque during 10 years in acute stroke patients.<br \/>\nJournal of the Neurological Sciences 357 (2015) e391<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nJatu\u017eis D, Valaikien\u0117 J, Beliak L.<br \/>\n<\/td><td class=\"column-2\">Difficult differential diagnosis of intracranial occlusive disease: Clinical case.<br \/>\nCentre of Neurology, Vilnius University Hospital Santariskiu klinikos, and Clinics of Neurology and Neurosurgery, Vilnius University<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nVan Lammeren GW, Van De Mortel RH, Visscher M, Pasterkamp G, De Borst GJ, Moll FL, Vink A, Tromp SC, De Vries JP.<br \/>\n<\/td><td class=\"column-2\">Spontaneous preoperative microembolic signals detected with transcranial doppler are associated with vulnerable carotid plaque characteristics. <br \/>\nJ Cardiovasc Surg (Torino). 2014;55:375-380<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2013<\/strong><br \/>\nLau AY, Zhao Y, Chen C, et al. <\/td><td class=\"column-2\">Dual antiplatelets reduce microembolic signals in patients with transient ischemic attack and minor stroke: subgroup analysis of CLAIR study. <br \/>\nInt J Stroke 2013 Mar 12. [Epub ahead of print.]<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nYamaoka Y, Ichikawa Y, Kimura T, Sameshima T, Ochiai C, Morita A. <\/td><td class=\"column-2\">A Novel Method for Transcranial Doppler Microembolic Signal Monitoring at the Vertebrobasilar Junction in Vertebral Artery Dissection Patients. <br \/>\nJ Neuroimaging 2012; 20:1-4.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nJayasooriya G, Thapar A, Shalhoub J, Davies AH. <br \/>\n<\/td><td class=\"column-2\">Silent cerebral events in asymptomatic carotid stenosis. <br \/>\nJ. Vasc. Surg. 2011; 54: 227-236.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nKing A, Shipley M, Markus H. <br \/>\n<\/td><td class=\"column-2\">Optimizing Protocols for Risk Prediction in Asymptomatic Carotid Stenosis Using Embolic Signal Detection: The Asymptomatic Carotid Emboli Study. <br \/>\nStroke; a Journal of Cerebral Circulation 2011; 42: 2819-2824.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nSebastian J, Derksen C, Khan K, Saqqur M. <br \/>\n<\/td><td class=\"column-2\">The role of transcranial Doppler embolic monitoring in the management of intracranial arterial stenosis. <br \/>\nJ Neuroimaging 2011; 21: e166-168.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nTopakian R, King A, Kwon SU, Schaafsma A, Shipley M, Markus H S. <br \/>\n<\/td><td class=\"column-2\">Ultrasonic plaque echolucency and emboli signals predict stroke in asymptomatic carotid stenosis. <br \/>\nNeurology 2011; 77: 751-758.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nMarkus HS, King A, Shipley M, Topakian R, Cullinane M, Reihill S, et al.  <br \/>\n<\/td><td class=\"column-2\">Asymptomatic embolisation for prediction of stroke in the Asymptomatic Carotid Emboli Study (ACES): A prospective observational study. <br \/>\nLancet Neurol 2010; 9: 663-671.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nKing A, Markus Hugh S. <br \/>\n<\/td><td class=\"column-2\">Doppler embolic signals in cerebrovascular disease and prediction of stroke risk: A systematic review and meta-analysis. <br \/>\nStroke 2009; 40: 3711-3717.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nTelman G, Kouperberg E, Hlebtovsky A, Sprecher E, Hoffman A, Beyar R. <\/td><td class=\"column-2\">Determinants of micro-embolic signals in patients with atherosclerotic plaques of the internal carotid artery. <br \/>\nEur J Vasc Endovasc Surg 2009; 38: 143-147.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nZhang C, Qu S, Zhang C, Qu S, Li H, Li G, et al.  <\/td><td class=\"column-2\">Microembolic signals and carotid plaque characteristics in patients with asymptomatic carotid stenosis. <br \/>\nScand. Cardiovasc. J. 2009; 43: 345-351.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nDittrich R, Ringelstein EB. <\/td><td class=\"column-2\">Occurrence and clinical impact of microembolic signals (MES) in patients with chronic cardiac diseases and atheroaortic plaques--A systematic review. <br \/>\nCurr Vasc Pharmacol 2008; 6: 329-334.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRitter MA, Dittrich R, Thoenissen N, Ringelstein EB, Nabavi DG. <br \/>\n<\/td><td class=\"column-2\">Prevalence and prognostic impact of microembolic signals in arterial sources of embolism. A systematic review of the literature. <br \/>\nJ. Neurol. 2008; 255: 953-961.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaver, J. L.<\/td><td class=\"column-2\">Cryptogenic stroke in patients with patent foramen ovale. Current atherosclerosis reports, 9(4), 319-325.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHomma, S., &amp; Sacco, R. L. <\/td><td class=\"column-2\">Patent foramen ovale and stroke. Circulation, 112(7), 1063-1072.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nSpence JD, Tamayo A, Lownie SP, Ng WP, Ferguson GG. <br \/>\n<\/td><td class=\"column-2\">Absence of microemboli on transcranial Doppler identifies low-risk patients with asymptomatic carotid stenosis. <br \/>\nStroke 2005; 36: 2373-2378.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nSilvestrini, M., Vernieri, F., Pasqualetti, P., Matteis, M.,<br \/>\nPassarelli, F., Troisi, E., &amp; Caltagirone, C.<\/td><td class=\"column-2\">Silvestrini, M., Vernieri, F., Pasqualetti, P., Matteis, M.,<br \/>\nPassarelli, F., Troisi, E., &amp; Caltagirone, C. (2000). Impaired<br \/>\ncerebral vasoreactivity and risk of stroke in patients with<br \/>\nasymptomatic carotid artery stenosis. Jama, 283(16), 2122-<br \/>\n2127<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nRingelstein, E. B., Droste, D. W., Babikian, V. L., Evans, D. H., Grosset, D. G., Kaps, M., et al.<\/td><td class=\"column-2\">Consensus on microembolus detection by TCD. Stroke, 29, 725-729.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>1996<\/strong><br \/>\nZanette, E. M., Mancini, G., De Castro, S., Solaro, M., Cartoni, D., &amp; Chiarotti, F.<\/td><td class=\"column-2\">Patent foramen ovale and transcranial Doppler: comparison of different procedures. Stroke, 27(12), 2251-2255.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nNo authors listed.<\/td><td class=\"column-2\">Basic identification criteria of Doppler microembolic signals. Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium. Stroke, 26(6), 1123.<br \/>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-EmboliDetectiontoevaluateRiskofStroke from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Functional TCD&#8221;][vc_column_text css=&#8221;.vc_custom_1587639962153{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-FTCD\" class=\"tablepress tablepress-id-FTCD table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nWoodhead, Z. V., Rutherford, H. A., &amp; Bishop, D. V. <\/td><td class=\"column-2\">Measurement of language laterality using functional transcranial<br \/>\nDoppler ultrasound: a comparison of different tasks. Wellcome<br \/>\nopen research, 3<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nWeston, M. E., Barker, A. R., Tomlinson, O. W., Coombes, J.<br \/>\nS., Bailey, T. G., &amp; Bond, B. <\/td><td class=\"column-2\">Differences in<br \/>\ncerebrovascular regulation and ventilatory responses during<br \/>\nramp incremental cycling in children, adolescents, and adults.<br \/>\nJournal of Applied Physiology, 131(4), 1200-1210<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nCaldas, J. R., Passos, R. D. H., Robinson, T. G., Panerai, R. B., &amp; Minhas, J. S.<\/td><td class=\"column-2\">Intensive care management of arterial carbon dioxide in acute intracerebral haemorrhage: Case report of influences on cerebral haemodynamics. Ultrasound, 1742271X20903753.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nPeng, B. W., Liang, H. C., Li, J. L., Yang, S. Y., Liang, W., Zhang, F. Q., &amp; Chen, W. X.<\/td><td class=\"column-2\">Acquired epileptiform opercular syndrome evaluated with real-time transcranial Doppler ultrasound-video-electroencephalogram before and after treatment: a case report. BMC neurology, 19(1), 1-5.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nUzuner, G. T., &amp; Uzuner, N. <\/td><td class=\"column-2\">Neurovascular reactivity in<br \/>\npatients with focal epilepsy. Neuropsychiatry (London), 9(2),<br \/>\n2347-2352<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A.<\/td><td class=\"column-2\">A new method for correcting middle cerebral<br \/>\nartery flow velocity for age by calculating Z-scores.<br \/>\nJ Neuroscience Methods, 2018; 307: 1-7<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nRodriguez, J., Blaber, A. P., Kneihsl, M., Trozic, I., Ruedl, R.,<br \/>\nGreen, D. A., et al.<\/td><td class=\"column-2\">Poststroke alterations in<br \/>\nheart rate variability during orthostatic challenge. Medicine,<br \/>\n96(14)<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nWolf ME. <br \/>\n<\/td><td class=\"column-2\">Functional TCD: Regulation of cerebral hemodynamics\u2014cerebral autoregulation, vasomotor reactivity, and neurovascular coupling. <br \/>\nFront Neurol Neurosci 2015;36:40e56.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nGardner AJ, Tan CO, Ainslie PN, van Donkelaar P, Stanwell P, Levi CR, Iverson GL. <br \/>\n<\/td><td class=\"column-2\">Cerebrovascular reactivity assessed by transcranial Doppler ultrasound in sport-related concussion: a systemic review.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nHajjar I, Marmarelis V, Shin DC, et al. <\/td><td class=\"column-2\">Assessment of cerebrovascular reactivity during resting state breathing and its correlation with cognitive function in hypertension. <\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBoban M, Crnac P, Junakovic A, Malojcic B. <\/td><td class=\"column-2\">Hemodynamic monitoring of middle cerebral arteries during cognitive tasks performance. <\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nCastro PM, Santos R, Freitas J, et al. <\/td><td class=\"column-2\">Autonomic dysfunction affects dynamic cerebral autoregulation during Valsalva maneuver: comparison between healthy and autonomic dysfunction subjects.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMeyer GF, Spray A, Fairlie JE, Uomini NT. <\/td><td class=\"column-2\">Inferring common cognitive mechanisms from brain blood-flow lateralization data: A new methodology for fTCD analysis. <\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nReinhard M, Schwarzer G, Briel M, et al.<br \/>\n<\/td><td class=\"column-2\">Cerebrovascular reactivity predicts stroke in highgrade carotid artery disease. <br \/>\nNeurology 2014; 83:1424\u20131431.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2013<\/strong><br \/>\nFierstra, J., Sobczyk, O., Battisti\u2010Charbonney, A., Mandell, D. M., Poublanc, J., Crawley, A. P., et al.<\/td><td class=\"column-2\">Measuring cerebrovascular reactivity: what stimulus to use<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2012\/strong><br \/>\nBadcock NA, Holt G, Holden A, Bishop DVM<br \/>\n<\/td><td class=\"column-2\">(dopOSCCI): A functional transcranila Doppler ultrasonography summary suite for the assessment of cerebral lateralization of cognitive function<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nRoher AE, Garami Z, Tyas SL, Maarouf CL, Kokjohn TA, Belohlavek M, u.a.<\/td><td class=\"column-2\">Transcranial Doppler ultrasound blood flow velocit and pulsatility index as systemic indicators for Alzheimer's disease.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBishop DVM, Badcock NA, Holt G.<\/td><td class=\"column-2\">Assessment of cerebral<br \/>\nlateralization in children using functional transcranial Doppler<br \/>\nultrasound (fTCD)<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRosengarten B, Kaps M. <br \/>\n<\/td><td class=\"column-2\">A simultaneous EEG and transcranial Doppler technique to investigate the neurovascular coupling in the human visual cortex.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nBishop DVM, Watt H, Papadatou-Pastou M. <\/td><td class=\"column-2\">An efficient and reliable method for measuring cerebral lateralization during speech with functional transcranial Doppler ultrasound. <\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nTreger I, Luzki L, Gil M, Ring H. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler monitoring during language tasks in stroke patients with aphasia. <br \/>\nDisabil Rehabil 2007; 29: 1177-1183.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nFeddersen, B., Ausserer, H., Neupane, P., Thanbichler, F.,<br \/>\nDepaulis, A., Waanders, R., &amp; Noachtar, S.<\/td><td class=\"column-2\">Right<br \/>\ntemporal cerebral dysfunction heralds symptoms of acute<br \/>\nmountain sickness.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nLohmann H, Ringelstein EB, Knecht S. <br \/>\n<\/td><td class=\"column-2\">Functional transcranial Doppler sonography. <br \/>\nFront Neurol Neurosci 2006; 21: 251-260.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2004<\/strong><br \/>\nZavoreo, I., &amp; Demarin, V.<\/td><td class=\"column-2\">Breath holding index in the<br \/>\nevaluation of cerebral vasoreactivity.<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nZimmermann, C., &amp; Haberl, R. L.<\/td><td class=\"column-2\">L-arginine improves diminished cerebral CO2 reactivity in patients.<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nRosengarten B, Spiller A, Aldinger C, Kaps M. <br \/>\n<\/td><td class=\"column-2\">Control system analysis of visually evoked blood flow regulation in humans under normocapnia and hypercapnia. <\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2001<\/strong><br \/>\nRosengarten B, Huwendiek O and Kaps M.<\/td><td class=\"column-2\">Neurovascular coupling and cerebral autoregulation can be described in terms of a control system: Validation of a Second -order Linear System Model. <\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nSilvestrini, M., Vernieri, F., Pasqualetti, P., Matteis, M.,<br \/>\nPassarelli, F., Troisi, E., &amp; Caltagirone, C.<\/td><td class=\"column-2\">Impaired<br \/>\ncerebral vasoreactivity and risk of stroke in patients with<br \/>\nasymptomatic carotid artery stenosis.<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nValdueza, J. M., Draganski, B., Hoffmann, O., Dirnagl, U., &amp; Einha\u0308upl, K. M.<\/td><td class=\"column-2\">Analysis of CO2 vasomotor reactivity and vessel diameter changes by simultaneous venous and arterial Doppler recordings. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nKnecht, S., Deppe, M., Ebner, A., Henningsen, H., Huber, T.,<br \/>\nJokeit, H., &amp; Ringelstein, E. B.<\/td><td class=\"column-2\">Noninvasive<br \/>\ndetermination of language lateralization by functional<br \/>\ntranscranial Doppler sonography: a comparison with the Wada Test<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>1992<\/strong><br \/>\nRingelstein, E. B., Van Eyck, S., &amp; Mertens, I.<\/td><td class=\"column-2\">Evaluation of cerebral vasomotor reactivity by various vasodilating stimuli: comparison of CO2 to acetazolamide. <\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>1988<\/strong><br \/>\nRingelstein, E. B., Sievers, C., Ecker, S., Schneider, P. A., &amp; Otis, S. M. <\/td><td class=\"column-2\">Noninvasive assessment of CO2-induced cerebral vasomotor response in normal individuals and patients with internal carotid artery occlusions. <br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>1986<\/strong><br \/>\nWidder B, Paulat K, Hackspacher J, Mayr E. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler CO2 test for the detection of hemodynamically critical carotid artery stenoses and occlusions. <\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-FTCD from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD in Intensive Care&#8221;][vc_column_text css=&#8221;.vc_custom_1587639980952{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-IntensiveCare\" class=\"tablepress tablepress-id-IntensiveCare table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nZiai, W. C., Cho, S. M., Johansen, M. C., Ergin, B., &amp; Bahouth, M. N.<\/td><td class=\"column-2\">Transcranial doppler in acute COVID-19 infection:<br \/>\nUnexpected associations<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nRouanet, C., Chaddad, F., Freitas, F., Miranda, M.,<br \/>\nVasconcellos, N., Valiente, R., et al.<\/td><td class=\"column-2\">Kinetics<br \/>\nof cerebral blood flow velocities during treatment for delayed<br \/>\ncerebral ischemia in aneurysmal subarachnoid hemorrhage.<br \/>\nNeurocritical Care, 1-14<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nBrasil, S., Taccone, F. S., Wahys, S. Y., Tomazini, B. M.,<br \/>\nAnnoni, F., Fonseca, S., et al.<\/td><td class=\"column-2\">Cerebral hemodynamics and intracranial compliance impairment<br \/>\nin critically ill COVID-19 patients: A pilot study. Brain sciences,<br \/>\n11(7), 874<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nCaldas, J. R., Passos, R. D. H., Robinson, T. G., Panerai, R. B., &amp; Minhas, J. S.<\/td><td class=\"column-2\">Intensive care management of arterial carbon dioxide in acute intracerebral haemorrhage: Case report of influences on cerebral haemodynamics. Ultrasound, 1742271X20903753.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nFatima, N., Shuaib, A., Chughtai, T. S., Ayyad, A., &amp; Saqqur, M.<\/td><td class=\"column-2\">The role of transcranial doppler in traumatic brain injury: A systemic review and meta-analysis. Asian journal of neurosurgery, 14(3), 626.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A. <\/td><td class=\"column-2\">A new method for correcting middle cerebral<br \/>\nartery flow velocity for age by calculating Z-scores.<br \/>\nJ Neuroscience Methods, 2018; 307: 1-7<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBouzat P, Oddo M, Payen J-F. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler after traumatic brain injury: Is there a role? <br \/>\nCurr. Opin. Crit. Care 2014, 20, 153\u2013160.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMerceron S, Geeraerts T, Montlahuc C, Bedos J, Resche-Rigon M, Legriel S. <br \/>\n<\/td><td class=\"column-2\">Assessment of cerebral blood flow changes in nonconvulsive status epilepticus in comatose patients: A pathophysiological transcranial Doppler study. <br \/>\nSeizure. 2014;23(4):284\u2013289.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2013<\/strong><br \/>\nMayans DR, Meads DB, Reynolds PS. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler identifies a malfunctioning extraventricular drain. <br \/>\nJ. Neuroimaging 2013, 24, 518\u2013519.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nHarding U, Goeters C, Schmidt C. <br \/>\n<\/td><td class=\"column-2\">Applications of ultrasound in the intensive care unit. <br \/>\nAnasthesiol Intensivmed Notfallmed Schmerzther 2011; 46: 190-200; quiz 201.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nGrocott HP, Davie S, Fedorow C<\/td><td class=\"column-2\">Monitoring of brain function in anesthesia and intensive care. <br \/>\nCurr Opin Anaesthesiol 2010; 23:759\u201364.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nConti A, Lacopino DG, Spada A, Cardali SM, Giusa M, La Torre<br \/>\nD, et al. <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography in the<br \/>\nassessment of cerebral circulation arrest: Improving sensitivity<br \/>\nby transcervical and transorbital carotid insonation and serial<br \/>\nexaminations. Neurocrit Care 2009; 10: 326-335<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRasulo FA, De Peri E, Lavinio A. <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography in intensive care. <br \/>\nEur J Anaesthesiol Suppl 2008; 42: 167-173.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRigamonti A, Ackery A, Baker AJ. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler monitoring in subarachnoid hemorrhage: A critical tool in critical care. <br \/>\nCan J Anaesth 2008; 55: 112-123.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaqqur M, Zygun D, Demchuk A. <br \/>\n<\/td><td class=\"column-2\">Role of transcranial Doppler in neurocritical care. <br \/>\nCrit. Care Med. 2007; 35: S216-223.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nWhite H, Venkatesh B. <br \/>\n<\/td><td class=\"column-2\">Applications of transcranial Doppler in the ICU: A review. <br \/>\nIntensive Care Med 2006; 32: 981-994.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-IntensiveCare from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Micro-Doppler with 16 MHz&#8221;][vc_column_text css=&#8221;.vc_custom_1587639998243{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Micro-Doppler\" class=\"tablepress tablepress-id-Micro-Doppler table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nShiratori, Y., Yoshimoto, T., &amp; Yamamoto, K.<\/td><td class=\"column-2\">Esophageal variceal treatment using a novel Doppler probe<br \/>\nmethod. Endoscopy, 53(11), E419-E420.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nCui H, Wang Y, Yin Y, Wan J, Fei Z, Gao W, et al.  <\/td><td class=\"column-2\">Role of intraoperative microvascular Doppler in the microsurgical management of intracranial aneurysms. <br \/>\nJ Clin Ultrasound 2011; 39: 27-31.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nFischer G, Stadie A, Oertel JMK. <br \/>\n<\/td><td class=\"column-2\">Near-infrared indocyanine green videoangiography versus microvascular Doppler sonography in aneurysm surgery. <br \/>\nActa Neurochir (Wien) 2010; 152: 1519-1525.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nKapsalaki EZ, Lee GP, Robinson JS 3rd, Grigorian AA, Fountas KN. <br \/>\n<\/td><td class=\"column-2\">The role of intraoperative micro-Doppler ultrasound in verifying proper clip placement in intracranial aneurysm surgery. <br \/>\nJ Clin Neurosci 2008; 15: 153-157.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nAkdemir H, Oktem S, Menk\u00fc A, Tucer B, Tu\u011fcu B, G\u00fcnaldi O. <br \/>\n<\/td><td class=\"column-2\">Image-guided microneurosurgical management of small arteriovenous malformation: Role of neuronavigation and intraoperative Doppler sonography. <br \/>\nMinim Invasive Neurosurg 2007; 50: 163-169.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nTong J, Wang S, Zhao Y-li, Zhao J-zong. <br \/>\n<\/td><td class=\"column-2\">Intraoperative microvascular Doppler ultrasonography monitoring in intracranial aneurysm surgery. <br \/>\nZhonghua Yi Xue Za Zhi 2007; 87: 881-884.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nAkdemir H, Oktem IS, Tucer B, Menk\u00fc A, Ba\u015faslan K, G\u00fcnaldi O. <br \/>\n<\/td><td class=\"column-2\">Intraoperative microvascular Doppler sonography in aneurysm surgery. <br \/>\nMinim Invasive Neurosurg 2006; 49: 312-316.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHertel F, Feiden W, Bettag M. <br \/>\n<\/td><td class=\"column-2\">The value of micro-Doppler in stereotactic brain biopsy. <br \/>\nMinim Invasive Neurosurg 2005; 48: 165-168.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Micro-Doppler from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Neuro Monitoring&#8221;][vc_column_text css=&#8221;.vc_custom_1587640081214{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-NeuroMonitoring\" class=\"tablepress tablepress-id-NeuroMonitoring table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A. <\/td><td class=\"column-2\">A new method for correcting middle cerebral artery flow velocity for age by calculating Z-scores. <br \/>\nJ Neuroscience Methods, 2018; 307: 1-7.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nde Goede AA, Loef BG, Reidinga AC, Schaafsma A. <\/td><td class=\"column-2\">Fluid Resuscitation in Septic Patients Improves Systolic but not Diastolic Middle Cerebral Artery Flow Velocity. <br \/>\nUltrasound Med Biol, 2017; 43: 2591-2600.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nSchaafsma A. <br \/>\n<\/td><td class=\"column-2\">Harvey with a modern twist: How and why conducting arteries amplify the pressure wave originating from the heart. <br \/>\nMed Hypotheses, 2014; 82: 589\u201394.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nSchaafsma A.<br \/>\n<\/td><td class=\"column-2\">Improved parameterization of the transcranial Doppler signal. <br \/>\nUltrasound Med Biol, 2012; 38: 1451\u20139.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-NeuroMonitoring from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Brain Death&#8221;][vc_column_text]\n<table id=\"tablepress-BrainDeath\" class=\"tablepress tablepress-id-BrainDeath tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nArjen Schaafsma<br \/>\n<\/td><td class=\"column-2\">A new method for correcting meddle cerebral arterys flow velocity for age by calculating Z-scores<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZweifel C, Czosnyka Marek, Lavinio A, Castellani G, Kim D-J, Carrera E, u. a.<\/td><td class=\"column-2\">A comparison study of cerebral autoregulation assessed with transcranial Doppler and cortical laser Doppler flowmetry<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\n\u00c1lvarez-Fern\u00e1ndez JA, Mart\u00edn-Velasco MM, Ige\u00f1o-Cano JC, P\u00e9rez-Quintero R<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography usefulness in cardiac arrest resuscitation<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nConti A, Iacopino DG, Spada A, <br \/>\nCardali SM, Giusa M, La Torre D<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography in the assessment of cerebral circulation arrest: improving sensitivity by transcervical and transorbital carotid insonation and serial examinations<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>1987<\/strong><br \/>\nF J Kirkham, S D Levin, <br \/>\nT S Padayachee,M C Kyme, B G Neville, <br \/>\nR G Gosling<br \/>\n<br \/>\n<\/td><td class=\"column-2\">Transcranial pulsed Doppler ultrasound findings in brain stem death<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-BrainDeath from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Cardiovascular&#8221;][vc_column_text]\n<table id=\"tablepress-Cardiovascular\" class=\"tablepress tablepress-id-Cardiovascular tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2023<\/strong><br \/>\nCastro P. Ferreira J., Malojcic B., Bazadona D., Baracchini C., Pieroni A., Skoloudik D., Azevedo E., Kaps, M.<\/td><td class=\"column-2\">Detection of microemboli in patients with acute ischaemic stroke and atrial fibrilllation suggests poor functional outcome. <\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D. <\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMarius, R. A., Iliuta, L., Guberna, S. M., &amp; Sinescu, C. <\/td><td class=\"column-2\">The role of ankle-brachial index for predicting peripheral arterial disease.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2012<br \/>\n<\/strong><br \/>\nVan Lammeren GW, Van de Mortel RH, Visscher M, Pasterkamp G., De Borst GJ, Moll FL, Vink A, Tromp SC, De Vries JP<\/td><td class=\"column-2\">The atherosclerotic plaque - risk factors and cardiovascular outcome after carotid endarterectomy: Spontaneous preoperative microembolic signals detected with transcranial doppler are associated with vulnerable carotid plaque characteristics<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2009<br \/>\n<\/strong><br \/>\nClaassen JAHR, Diaz-Arrastia R, Martin-Cook K, Levine BD, Zhan R<\/td><td class=\"column-2\">Altered cerebral hemodynamics in early Alzheimer disease: a pilot study using transcranial Doppler<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nDittrich R, Ringelstein EB<\/td><td class=\"column-2\">Occurrence and clinical impact of microembolic signals (MES) in patients with chronic cardiac diseases and atheroaortic plaques - a systemic review<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nEspinola-Klein, C., Rupprecht, H. J., Bickel, C., Lackner, K., Messow, C. M., Munzel, T., &amp; Blankenberg, S.<\/td><td class=\"column-2\">Different Calculations Of Ankle Brachial Index And Cardiovascular Risk Prediction.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaver, J. L. <\/td><td class=\"column-2\">Cryptogenic stroke in patients with patent foramen ovale.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nPolito A, Ricci Z, Di Chiara L, Giorni C, Iacoella C, Sanders SP, et al.  <br \/>\n<\/td><td class=\"column-2\">Cerebral blood flow during cardiopulmonary bypass in pediatric cardiac surgery: the role of transcranial Doppler-A systematic review of the literature. <\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nAsil T., Uzuner N.<\/td><td class=\"column-2\">Differentiation of vascular dementia and Alzheimer disease: a functional transcranial Dppler ultrasonographic study<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHomma, S., &amp; Sacco, R. L. <\/td><td class=\"column-2\">Patent foramen ovale and stroke. <\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nBelch, J. J., Topol, E. J., Agnelli, G., Bertrand, M., Califf, R. M., Clement, D. L., et al.<\/td><td class=\"column-2\">Critical issues in peripheral arterial disease detection and management: a call to action.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Cardiovascular from cache -->[\/vc_column_text][\/vc_accordion_tab][\/vc_accordion][\/vc_column][vc_column width=&#8221;1\/2&#8243;][vc_accordion active_tab=&#8221;&#8221; collapsible=&#8221;yes&#8221; style=&#8221;accordion&#8221; el_class=&#8221;literatur_style&#8221;][vc_accordion_tab title=&#8221;Neurology&#8221;][vc_column_text css=&#8221;.vc_custom_1587640029530{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Neurology\" class=\"tablepress tablepress-id-Neurology table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nRouanet, C., Chaddad, F., Freitas, F., Miranda, M., Vasconcellos, N., Valiente, R., et al.<\/td><td class=\"column-2\">Kinetics of cerebral blood flow velocities during treatment for delayed cerebral schemia in aneurysmal subarachnoid hemorrhage.<br \/>\nNeurocritical Care, 1-14<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D. <\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO. Journal of Clinical and Nursing Research, 4(2).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nCarneiro, A. M. C., Poiani, G. C., Zaninnoto, A. L., Lazo Osorio, R., Oliveira, M. D. L., Paiva, W. S., &amp; Z\u00e2ngaro, R. A.<\/td><td class=\"column-2\">Transcranial Photobiomodulation Therapy in the Cognitive Rehabilitation of Patients with Cranioencephalic Trauma. Photobiomodulation, photomedicine, and laser surgery, 37(10), 657-666.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nPeng, B. W., Liang, H. C., Li, J. L., Yang, S. Y., Liang, W., Zhang, F. Q., &amp; Chen, W. X.<\/td><td class=\"column-2\">Acquired epileptiform opercular syndrome evaluated with real-time transcranial Doppler ultrasound-video-electroencephalogram before and after treatment: a case report. BMC neurology, 19(1), 1-5.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nUzuner, G. T., &amp; Uzuner, N.<\/td><td class=\"column-2\">Neurovascular reactivity in<br \/>\npatients with focal epilepsy. Neuropsychiatry (London), 9(2),<br \/>\n2347-2352<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nChristiansen, M. E., O\u2019Carroll, C. B., Kumar, G., Larsen, B. T., &amp; Dumitrascu, O. M. <\/td><td class=\"column-2\">Transcranial Doppler evaluation in Takayasu arteritis with oculo-cerebrovascular complications. The Neurologist, 24(1), 17-21.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A.<\/td><td class=\"column-2\">A new method for correcting middle cerebral<br \/>\nartery flow velocity for age by calculating Z-scores.<br \/>\nJ Neuroscience Methods, 2018; 307: 1-7<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nWoodhead, Z. V., Rutherford, H. A., &amp; Bishop, D. V.<\/td><td class=\"column-2\">Measurement of language laterality using functional transcranial<br \/>\nDoppler ultrasound: a comparison of different tasks. Wellcome<br \/>\nopen research, 3<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nde Goede AA, Loef BG, Reidinga AC, Schaafsma A. <\/td><td class=\"column-2\">Fluid Resuscitation in Septic Patients Improves Systolic but not Diastolic Middle Cerebral Artery Flow Velocity. <br \/>\nUltrasound Med Biol, 2017; 43: 2591-2600.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nSchaafsma A. <br \/>\n<\/td><td class=\"column-2\">Harvey with a modern twist: How and why conducting arteries amplify the pressure wave originating from the heart. <br \/>\nMed Hypotheses, 2014; 82: 589\u201394.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2013<\/strong><br \/>\nFierstra, J., Sobczyk, O., Battisti\u2010Charbonney, A., Mandell, D. M., Poublanc, J., Crawley, A. P., et al.<\/td><td class=\"column-2\">Measuring cerebrovascular reactivity: what stimulus to use?. The Journal of physiology, 591(23), 5809-5821.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nSchaafsma A. <br \/>\n<br \/>\n<\/td><td class=\"column-2\">Improved parameterization of the transcranial Doppler signal. <br \/>\nUltrasound Med Biol, 2012; 38: 1451\u20139.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nWare, R. E., &amp; Helms, R. W.<\/td><td class=\"column-2\">Stroke with transfusions<br \/>\nchanging to hydroxyurea (SWiTCH). Blood, The Journal of the<br \/>\nAmerican Society of Hematology, 119(17), 3925-3932<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nVan H, Poommipanit P, Shalaby M, Gevorgyan R, Tseng CH, Tobis J. <\/td><td class=\"column-2\">Sensitivity of transcranial Doppler versus intracardiac echocardiography in the detection of right-to-left shunt. <br \/>\nJACC Cardiovasc Imaging 2010; 3(4): 343-348.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBishop DVM, Badcock NA, Holt G. <\/td><td class=\"column-2\">Assessment of cerebral<br \/>\nlateralization in children using functional transcranial Doppler<br \/>\nultrasound (fTCD) Journal of Visualised Experiments, 2010:43<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nCaputi L, Carriero MR, Falcone C, Parati E, Piotti P, Materazzo C, et al.  <\/td><td class=\"column-2\">Transcranial Doppler and transesophageal echocardiography: Comparison of both techniques and prospective clinical relevance of transcranial Doppler in patent foramen ovale detection. <br \/>\nJ Stroke Cerebrovasc Dis 2009; 18: 343-348.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nJesurum JT, Fuller CJ, Renz J, Krabill KA, Spencer MP, Reisman M. <\/td><td class=\"column-2\">Diagnosis of secondary source of right-to-left shunt with balloon occlusion of patent foramen ovale and power M-mode transcranial Doppler. <br \/>\nJACC Cardiovasc Interv 2009; 2: 561-567.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nColombatti R, Meneghetti G, Ermani M, Pierobon M, Sainati L.<\/td><td class=\"column-2\">Primary stroke prevention for sickle cell disease in north-east<br \/>\nItaly: The role of ethnic issues in establishing a Transcranial<br \/>\nDoppler screening program. Ital J Pediatr 2009; 35: 15.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nEspinola-Klein, C., Rupprecht, H. J., Bickel, C., Lackner, K., Messow, C. M., Munzel, T., &amp; Blankenberg, S.<\/td><td class=\"column-2\">Different Calculations Of Ankle Brachial Index And Cardiovascular Risk Prediction.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaver, J. L. <\/td><td class=\"column-2\">Cryptogenic stroke in patients with patent foramen ovale. Current atherosclerosis reports, 9(4), 319-325.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHomma, S., &amp; Sacco, R. L. <\/td><td class=\"column-2\">Patent foramen ovale and stroke. Circulation, 112(7), 1063-1072.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nLowe, L. H., Morello, F. P., Jackson, M. A., &amp; Lasky, A. <\/td><td class=\"column-2\">Application of transcranial Doppler sonography in children with acute neurologic events due to primary cerebral and West Nile vasculitis. American journal of neuroradiology, 26(7), 1698-1701.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2004<\/strong><br \/>\nZavoreo, I., &amp; Demarin, V. <\/td><td class=\"column-2\">Breath holding index in the<br \/>\nevaluation of cerebral vasoreactivity. Acta Clinica Croatica,<br \/>\n43(1), 15-19<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nBelch, J. J., Topol, E. J., Agnelli, G., Bertrand, M., Califf, R. M., Clement, D. L., et al.<\/td><td class=\"column-2\">Critical issues in peripheral arterial disease detection and management: a call to action. Archives of internal medicine, 163(8), 884-892.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nZimmermann, C., &amp; Haberl, R. L.<\/td><td class=\"column-2\">L-arginine improves diminished cerebral CO2 reactivity in patients. Stroke, 34(3), 643-647.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2001<\/strong><br \/>\nRazumovsky, A. Y., Wityk, R. J., Geocadin, R. G., Bhardwaj, A., &amp; Ulatowski, J. A.<\/td><td class=\"column-2\">Cerebral Vasculitis: Diagnosis and Follow\u2010Up With Transcranial Doppler Ultrasonography. Journal of Neuroimaging, 11(3), 333-335.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nJauss, M., &amp; Zanette, E. <\/td><td class=\"column-2\">Detection of right-to-left shunt with ultrasound contrast agent and transcranial Doppler sonography. Cerebrovascular diseases, 10(6), 490-496.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nSilvestrini, M., Vernieri, F., Pasqualetti, P., Matteis, M.,<br \/>\nPassarelli, F., Troisi, E., &amp; Caltagirone, C. <\/td><td class=\"column-2\">Impaired<br \/>\ncerebral vasoreactivity and risk of stroke in patients with<br \/>\nasymptomatic carotid artery stenosis. Jama, 283(16), 2122-<br \/>\n2127<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nBrilla, R., Nabavi, D. G., Schulte-Altedorneburg, G., Keme\u0301ny, V., Reichelt, D., Evers, S., et al.<\/td><td class=\"column-2\">Cerebral vasculopathy in HIV infection revealed by transcranial Doppler: a pilot study. Stroke, 30(4), 811-813.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nDroste, D. W., Kriete, J. U., Stypmann, J., Castrucci, M., Wichter, T., Tietje, R., et al.<\/td><td class=\"column-2\">Contrast transcranial Doppler ultrasound in the detection of right-to-left shunts: comparison of different procedures and different contrast agents. Stroke, 30(9), 1827-1832.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nSchwarze, J. J., Sander, D., Kukla, C., Wittich, I., Babikian, V. L., &amp; Klingelhofer, J.<\/td><td class=\"column-2\">Methodological parameters influence the detection of right-to-left shunts by contrast transcranial Doppler ultrasonography. Stroke, 30(6), 1234-1239.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nValdueza, J. M., Draganski, B., Hoffmann, O., Dirnagl, U., &amp; Einha\u0308upl, K. M.<\/td><td class=\"column-2\">Analysis of CO2 vasomotor reactivity and vessel diameter changes by simultaneous venous and arterial Doppler recordings. Stroke, 30(1), 81-86.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nRingelstein, E. B., Droste, D. W., Babikian, V. L., Evans, D. H., Grosset, D. G., Kaps, et al.<\/td><td class=\"column-2\">Consensus on microembolus detection by TCD. Stroke, 29, 725-729.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nKnecht, S., Deppe, M., Ebner, A., Henningsen, H., Huber, T.,<br \/>\nJokeit, H., &amp; Ringelstein, E. B.<\/td><td class=\"column-2\">Noninvasive<br \/>\ndetermination of language lateralization by functional<br \/>\ntranscranial Doppler sonography: a comparison with the Wada<br \/>\ntest. Stroke, 29(1), 82-86<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nAdams, R. J., McKie, V. C., Hsu, L., Files, B., Vichinsky, E.,<br \/>\nPegelow, C. et al.<\/td><td class=\"column-2\">Prevention of a first<br \/>\nstroke by transfusions in children with sickle cell anemia and<br \/>\nabnormal results on transcranial Doppler ultrasonography. New<br \/>\nEngland Journal of Medicine, 339(1), 5-11<\/td>\n<\/tr>\n<tr class=\"row-36\">\n\t<td class=\"column-1\"><strong>1997<\/strong><br \/>\nKaps M, Hansen J, Weiher M, Tiffert K, Kayser I, Droste DW. <br \/>\n<\/td><td class=\"column-2\">Clinically silent microemboli in patients with artificial prosthetic aortic valves are predominantly gaseous and not solid. <br \/>\nStroke. 1997;28:322\u2013325.<\/td>\n<\/tr>\n<tr class=\"row-37\">\n\t<td class=\"column-1\"><strong>1996<\/strong><br \/>\nZanette, E. M., Mancini, G., De Castro, S., Solaro, M., Cartoni, D., &amp; Chiarotti, F.<\/td><td class=\"column-2\">Patent foramen ovale and transcranial Doppler: comparison of different procedures. Stroke, 27(12), 2251-2255.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-38\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nNo authors listed.<\/td><td class=\"column-2\">Basic identification criteria of Doppler microembolic signals. Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium. Stroke, 26(6), 1123.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-39\">\n\t<td class=\"column-1\"><strong>1992<\/strong><br \/>\nRingelstein, E. B., Van Eyck, S., &amp; Mertens, I.<\/td><td class=\"column-2\">Evaluation of cerebral vasomotor reactivity by various vasodilating stimuli: comparison of CO2 to acetazolamide. Journal of Cerebral Blood Flow &amp; Metabolism, 12(1), 162-168.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-40\">\n\t<td class=\"column-1\"><strong>1988<\/strong><br \/>\nRingelstein, E. B., Sievers, C., Ecker, S., Schneider, P. A., &amp; Otis, S. M. <\/td><td class=\"column-2\">Noninvasive assessment of CO2-induced cerebral vasomotor response in normal individuals and patients with internal carotid artery occlusions. Stroke, 19(8), 963-969.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-41\">\n\t<td class=\"column-1\"><strong>1986<\/strong><br \/>\nWidder B, Paulat K, Hackspacher J, Mayr E. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler CO2 test for the detection of hemodynamically critical carotid artery stenoses and occlusions. <br \/>\nEur Arch Psychiatry Neurol Sci.1986; 236:162-168.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Neurology from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Neurovascular Coupling&#8221;][vc_column_text css=&#8221;.vc_custom_1587640112580{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-NeurovascularCoupling\" class=\"tablepress tablepress-id-NeurovascularCoupling table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nUzuner, G. T., &amp; Uzuner, N.<\/td><td class=\"column-2\">Neurovascular reactivity in<br \/>\npatients with focal epilepsy. Neuropsychiatry (London), 9(2),<br \/>\n2347-2352<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2016<\/strong><br \/>\nViski S, Orgov\u00e1n D, Szab\u00f3 K, Rosengarten B, Csiba L, Ol\u00e1h L. <br \/>\n<br \/>\n<\/td><td class=\"column-2\">Effect of reading on blood flow changes in the posterior cerebral artery in early blind and sighted people - A transcranial Doppler study. <br \/>\nJ Neurol Sci. 2016;363:132-9. <\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRosengarten B, Kaps M. <br \/>\n<\/td><td class=\"column-2\">A simultaneous EEG and transcranial Doppler technique to investigate the neurovascular coupling in the human visual cortex.<br \/>\nCerebrovasc Dis 2010, 29:211\u20136.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nRosengarten B, Spiller A, Aldinger C, Kaps M. <br \/>\n<\/td><td class=\"column-2\">Control system analysis of visually evoked blood flow regulation in humans under normocapnia and hypercapnia. <br \/>\nEur J Ultrasound 2003, 16: 169\u2013175.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-NeurovascularCoupling from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD and Parkinson Disease&#8221;][vc_column_text css=&#8221;.vc_custom_1587640139007{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Parkinson\" class=\"tablepress tablepress-id-Parkinson table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2016<\/strong><br \/>\nViski S, Orgov\u00e1n D, Szab\u00f3 K, Rosengarten B, Csiba L, Ol\u00e1h L. <\/td><td class=\"column-2\">Effect of reading on blood flow changes in the posterior cerebral artery in early blind and sighted people - A transcranial Doppler study. <br \/>\nJ Neurol Sci. 2016;363:132-9. <\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nZamani B, Mehrabani M, Fereshtehnejad S-M, Rohani M. <\/td><td class=\"column-2\">Evaluation of cerebral vasomotor reactivity in Parkinson\u2019s disease: is there any association with orthostatic hypotension? <br \/>\nClin Neurol Neurosurg 2011; 113: 368-372.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nTsai S-J, Chen S-C, Leu T-M, Chen C-M, Chou H-H, Peng H-Y, et al. <br \/>\n<\/td><td class=\"column-2\">Impairment of cerebral hemodynamic response to the cold pressor test in patients with Parkinson\u2019s disease. <br \/>\nParkinsonism Relat. Disord. 2009; 15: 94-100.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nVokatch N, Gr\u00f6tzsch H, Mermillod B, Burkhard PR, Sztajzel R. <\/td><td class=\"column-2\">Is cerebral autoregulation impaired in Parkinson\u2019s disease? A transcranial Doppler study. <br \/>\nJ. Neurol. Sci. 2007; 254: 49-53.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nGurevich T, Gur AY, Bornstein NM, Giladi N, Korczyn AD. <br \/>\n<\/td><td class=\"column-2\">Cerebral vasomotor reactivity in Parkinson\u2019s disease, multiple system atrophy and pure autonomic failure. <br \/>\nJ. Neurol. Sci. 2006; 243: 57-60.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Parkinson from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD and Cardiac Arrest&#8221;][vc_column_text css=&#8221;.vc_custom_1587641132272{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-CardiacArrest\" class=\"tablepress tablepress-id-CardiacArrest table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2022<\/strong><br \/>\nJainn-Jim Lin1,2,3,4, Hsuan-Chang Kuo5,6, Shao-Hsuan Hsia1, Ying-Jui Lin5,6,<br \/>\nHuei-Shyong Wang3, Mei-Hsin Hsu6,7, Ming-Chou Chiang2,4,8, Oi-Wa Chan1, En-Pei Lee1<br \/>\nand Kuang-Lin Lin3* <\/td><td class=\"column-2\">The Utility of a Point-of-Care Transcranial Doppler Ultrasound Management Algorithm on Outcomes in Pediatric Asphyxial Out-of-Hospital Cardiac Arrest \u2013 An Exploratory Investigation<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\n\u00c1lvarez-Fern\u00e1ndez JA, Mart\u00edn-Velasco MM, Ige\u00f1o-Cano JC, P\u00e9rez-Quintero R. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography usefulness in cardiac arrest resuscitation. <\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBlumenstein J, Kempfert J, Walther T, Van Linden A, Fassl J, Borger M, et al.  <br \/>\n<\/td><td class=\"column-2\">Cerebral flow pattern monitoring by transcranial Doppler during cardiopulmonary resuscitation. <\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-CardiacArrest from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Sickle Cell Anemia (SCA)&#8221;][vc_column_text css=&#8221;.vc_custom_1614282761655{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-CellAnemia\" class=\"tablepress tablepress-id-CellAnemia table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nHelton KJ, Adams RJ, Kesler KL, et al.<\/td><td class=\"column-2\">Magnetic resonance imaging\/angiography and transcranial Doppler velocities in sickle cell anemia: Results from the SWiTCH trial. <br \/>\nBlood. 2014; 124:891\u20138.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nWare, R. E., &amp; Helms, R. W.<\/td><td class=\"column-2\">Stroke with transfusions<br \/>\nchanging to hydroxyurea (SWiTCH). Blood, The Journal of the<br \/>\nAmerican Society of Hematology, 119(17), 3925-3932<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nArkuszewski M, Krejza J, Chen R, Kwiatkowski J L, Ichord R, Zimmerman R, et al.  <\/td><td class=\"column-2\">Sickle cell disease: reference values and interhemispheric differences of nonimaging transcranial Doppler blood flow parameters. <br \/>\nAJNR Am J Neuroradiol 2011; 32: 1444-1450.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBernaudin F, Verlhac S, Arnaud C, Kamdem A, Chevret S, Hau I, et al. <\/td><td class=\"column-2\">Impact of early transcranial Doppler screening and intensive therapy on cerebral vasculopathy outcome in a newborn sickle cell anemia cohort. <br \/>\nBlood 2011; 117: 1130-1140; quiz 1436.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nKwiatkowski JL, Yim E, Miller S, Adams RJ. <\/td><td class=\"column-2\">Effect of transfusion therapy on transcranial Doppler ultrasonography velocities in children with sickle cell disease. <br \/>\nPediatr Blood Cancer 2011; 56: 777-782.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nEnninful-Eghan H, Moore RH, Ichord R, Smith-Whitley K, Kwiatkowski JL. <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography and prophylactic transfusion program is effective in preventing overt stroke in children with sickle cell disease. <br \/>\nJ. Pediatr. 2010; 157: 479-484.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2010 <\/strong><br \/>\nPavlakis SG, Rees RC, Huang X, Brown RC, Casella JF, Iyer RV, et al. <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography (TCD) in infants with sickle cell anemia: baseline data from the BABY HUG trial. <br \/>\nPediatr Blood Cancer 2010; 54: 256-259.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nColombatti R, Meneghetti G, Ermani M, Pierobon M, Sainati L. <\/td><td class=\"column-2\">Primary stroke prevention for sickle cell disease in north-east Italy: The role of ethnic issues in establishing a Transcranial Doppler screening program. <br \/>\nItal J Pediatr 2009; 35: 15.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSuliman H, Wali Y, Al Saadoon M, Zechariah M, William RR, Gujjar A, et al.  <\/td><td class=\"column-2\">Hydroxyurea or chronic exchange transfusions in patients with sickle cell disease: Role of transcranial Doppler ultrasound in stroke prophylaxis. <br \/>\nJ. Pediatr. Hematol. Oncol. 2009; 31: 42-44.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nHankins JS, Fortner GL, McCarville MB, Smeltzer MP, Wang WC, Li C-S, et al. <\/td><td class=\"column-2\">The natural history of conditional transcranial Doppler flow velocities in children with sickle cell anaemia. <br \/>\nBr. J. Haematol. 2008; 142: 94-99.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nMcCarville MB, Goodin GS, Fortner G, Li C-S, Smeltzer MP, Adams R, et al.<\/td><td class=\"column-2\">Evaluation of a comprehensive transcranial Doppler screening program for children with sickle cell anemia. <br \/>\nPediatr Blood Cancer 2008; 50: 818-821.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRaphael JL, Shetty PB, Liu H, Mahoney DH, Mueller BU.<\/td><td class=\"column-2\">A critical assessment of transcranial Doppler screening rates in a large pediatric sickle cell center: opportunities to improve healthcare quality. <br \/>\nPediatr Blood Cancer 2008; 51: 647-651.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRees DC, Dick MC, Height SE, O\u2019Driscoll S, Pohl KRE, Goss DE, et al.<\/td><td class=\"column-2\">A simple index using age, hemoglobin, and aspartate transaminase predicts increased intracerebral blood velocity as measured by transcranial Doppler scanning in children with sickle cell anemia. <br \/>\nPediatrics 2008; 121: e1628-1632.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nAdams RJ. <\/td><td class=\"column-2\">Big strokes in small persons. <br \/>\nArch. Neurol. 2007; 64: 1567-1574.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nKrejza J, Rudzinski W, Pawlak MA, Tomaszewski M, Ichord R, Kwiatkowski J, et al. <\/td><td class=\"column-2\">Angle-corrected imaging transcranial Doppler sonography versus imaging and nonimaging transcranial Doppler sonography in children with sickle cell disease. <br \/>\nAJNR Am J Neuroradiol 2007; 28: 1613-1618.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nMazumdar M, Heeney MM, Sox CM, Lieu TA. <\/td><td class=\"column-2\">Preventing stroke among children with sickle cell anemia: An analysis of strategies that involve transcranial Doppler testing and chronic transfusion. <br \/>\nPediatrics 2007; 120: e1107-1116.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nMehta SH, Adams RJ. <\/td><td class=\"column-2\">Treatment and prevention of stroke in children with sickle cell disease. <br \/>\nCurr Treat Options Neurol 2006;8:503\u2013512.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nValadi N, Silva GS, Bowman LS, Ramsingh D, Vicari P, Filho AC, et al.  <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography in adults with sickle cell disease. <br \/>\nNeurology 2006; 67: 572-574.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nAdams RJ. <\/td><td class=\"column-2\">TCD in sickle cell disease: An important and useful test. <br \/>\nPediatr Radiol 2005; 35: 229-234.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nAdams, R. J., McKie, V. C., Hsu, L., Files, B., Vichinsky, E.,<br \/>\nPegelow, C., et al.<\/td><td class=\"column-2\">Prevention of a first<br \/>\nstroke by transfusions in children with sickle cell anemia and<br \/>\nabnormal results on transcranial Doppler ultrasonography. New<br \/>\nEngland Journal of Medicine, 339(1), 5-11<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-CellAnemia from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Sonothrombolysis&#8221;][vc_column_text css=&#8221;.vc_custom_1587640163104{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Sonothrombolysis\" class=\"tablepress tablepress-id-Sonothrombolysis table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBarlinn K, Tsivgoulis G, Barreto AD, et al. <br \/>\n<\/td><td class=\"column-2\">Outcomes following sonothrombolysis in severe acute ischemic stroke: Subgroup analysis of the CLOTBUST trial. <br \/>\nInt J Stroke 2014; 9: 1006\u201310<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nLaing ST, Moody MR, Kim H, Smulevitz B, Huang S-L, Holland CK, et al.  <br \/>\n<\/td><td class=\"column-2\">Thrombolytic efficacy of tissue plasminogen activator-loaded echogenic liposomes in a rabbit thrombus model. <br \/>\nThromb Res. 2012;130(4):629-635.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nAmaral-Silva A, Pi\u00f1eiro S, Molina Carlos A. <br \/>\n<\/td><td class=\"column-2\">Sonothrombolysis for the treatment of acute stroke: current concepts and future directions. <br \/>\nExpert Rev Neurother 2011; 11: 265-273.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBrown AT, Flores R, Hamilton E, Roberson PK, Borrelli MJ, Culp WC. <br \/>\n<\/td><td class=\"column-2\">Microbubbles improve sonothrombolysis in vitro and decrease hemorrhage in vivo in a rabbit stroke model. <br \/>\nInvest Radiol 2011; 46: 202-207.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nFlores R, Hennings LJ, Lowery JD, Brown AT, Culp WC. <br \/>\n<\/td><td class=\"column-2\">Microbubble-augmented ultrasound sonothrombolysis decreases intracranial hemorrhage in a rabbit model of acute ischemic stroke. <br \/>\nInvest Radiol 2011; 46: 419-424.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nFrendl A, Csiba L. <br \/>\n<\/td><td class=\"column-2\">Pharmacological and non-pharmacological recanalization strategies in acute ischemic stroke. <br \/>\nFront Neurol 2011; 2: 32.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nMolina CA. <br \/>\n<\/td><td class=\"column-2\">Reperfusion therapies for acute ischemic stroke: Current pharmacological and mechanical approaches. <br \/>\nStroke 2011; 42: S16-19.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nRen ST, Zhang H, Wang YW, Jing BB, Li YX, Liao YR, et al.  <br \/>\n<\/td><td class=\"column-2\">The preparation of a new self-made microbubble-loading urokinase and its thrombolysis combined with low-frequency ultrasound in vitro. <br \/>\nUltrasound Med Biol 2011; 37: 1828-1837.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nZhou XB, Qin H, Li J, Wang B, Wang CB, Liu YM, et al.  <br \/>\n<\/td><td class=\"column-2\">Platelet-targeted microbubbles inhibit re-occlusion after thrombolysis with transcutaneous ultrasound and microbubbles. <br \/>\nUltrasonics 2011; 51: 270-274.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nAlexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Current and future recanalization strategies for acute ischemic stroke. <br \/>\nJ. Intern. Med. 2010; 267: 209-219.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nBalucani C, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Ultrasound- and microspheres-enhanced thrombolysis for stroke treatment: state of the art. <br \/>\nCurr Cardiol Rep 2010; 12: 34-41.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nChuang YH, Cheng PW, Chen SC, Ruan JL, Li PC. <br \/>\n<\/td><td class=\"column-2\">Effects of ultrasound-induced inertial cavitation on enzymatic thrombolysis. <br \/>\nUltrason Imaging 2010; 32: 81-90.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nHitchcock KE, Holland CK. <br \/>\n<\/td><td class=\"column-2\">Ultrasound-assisted thrombolysis for stroke therapy: Better thrombus break-up with bubbles. <br \/>\nStroke 2010; 41: S50-53.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nHua X, Liu P, Gao Y-H, Tan K-B, Zhou L-N, Liu Z, et al.  <\/td><td class=\"column-2\">Construction of thrombus-targeted microbubbles carrying tissue plasminogen activator and their in vitro thrombolysis efficacy: A primary research. <br \/>\nJ. Thromb. Thrombolysis 2010; 30: 29-35.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRibo M, Molina C A, Alvarez B, Rubiera M, Alvarez-Sabin J, Matas M. <br \/>\n<\/td><td class=\"column-2\">Intra-arterial administration of microbubbles and continuous 2-MHz ultrasound insonation to enhance intra-arterial thrombolysis. <br \/>\nJ Neuroimaging 2010; 20: 224-227.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRubiera M, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Sonothrombolysis in the management of acute ischemic stroke. <br \/>\nAm J Cardiovasc Drugs 2010; 10: 5-10.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nTsivgoulis G, Eggers J, Ribo M, Perren F, Saqqur M, Rubiera M, et al.  <br \/>\n<\/td><td class=\"column-2\">Safety and efficacy of ultrasound-enhanced thrombolysis: A comprehensive review and meta-analysis of randomized and nonrandomized studies. <br \/>\nStroke 2010; 41: 280-287.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nAlexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Ultrasound enhancement of fibrinolysis. <br \/>\nStroke 2009; 40: S107-110.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nBaron C, Aubry J-F, Tanter M, Meairs S, Fink M. <br \/>\n<\/td><td class=\"column-2\">Simulation of intracranial acoustic fields in clinical trials of sonothrombolysis. <br \/>\nUltrasound Med Biol 2009; 35: 1148-1158.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nBarreto AD, Sharma VK, Lao AY, Schellinger PD, Amarenco P, Sierzenski P, et al.  <br \/>\n<\/td><td class=\"column-2\">Safety and dose-escalation study design of Transcranial Ultrasound in Clinical SONolysis for acute ischemic stroke: The TUCSON Trial. <br \/>\nInt J Stroke 2009; 4: 42-48.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nDinia L, Rubiera M, Ribo M, Maisterra O, Ortega G, del Sette M, et al.  <br \/>\n<\/td><td class=\"column-2\">Reperfusion after stroke sonothrombolysis with microbubbles may predict intracranial bleeding. <br \/>\nNeurology 2009; 73: 775-780.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nMeairs S, Culp W. <br \/>\n<\/td><td class=\"column-2\">Microbubbles for thrombolysis of acute ischemic stroke. <br \/>\nCerebrovasc. Dis. 2009; 27 Suppl 2: 55-65.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nMolina CA, Barreto AD, Tsivgoulis G, Sierzenski P, Malkoff MD, Rubiera M, et al.  <br \/>\n<\/td><td class=\"column-2\">Transcranial ultrasound in clinical sonothrombolysis (TUCSON) trial. <br \/>\nAnn. Neurol. 2009; 66: 28-38.<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSaqqur M, Tsivgoulis G, Molina CA, Demchuk AM, Shuaib A, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Residual flow at the site of intracranial occlusion on transcranial Doppler predicts response to intravenous thrombolysis: A multi-center study. <br \/>\nCerebrovasc. Dis. 2009; 27: 5-12.<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nShaw GJ, Meunier JM, Huang SL, Lindsell CJ, McPherson DD, Holland CK. <br \/>\n<\/td><td class=\"column-2\">Ultrasound-enhanced thrombolysis with tPA-loaded echogenic liposomes. <br \/>\nThromb. Res. 2009; 124: 306-310.<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nAmmi AY, Mast TD, Huang I-H, Abruzzo TA, Coussios C-C, Shaw GJ, et al.  <br \/>\n<\/td><td class=\"column-2\">Characterization of ultrasound propagation through ex-vivo human temporal bone. <br \/>\nUltrasound Med Biol 2008; 34: 1578-1589.<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRubiera M, Ribo M, Delgado-Mederos R, Santamarina E, Maisterra O, Delgado P, et al.  <br \/>\n<\/td><td class=\"column-2\">Do bubble characteristics affect recanalization in stroke patients treated with microbubble-enhanced sonothrombolysis? <br \/>\nUltrasound Med Biol 2008; 34: 1573-1577.<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nNahirnyak V, Mast TD, Holland CK. <br \/>\n<\/td><td class=\"column-2\">Ultrasound-induced thermal elevation in clotted blood and cranial bone. <br \/>\nUltrasound Med Biol 2007; 33: 1285-1295.<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaqqur M, Uchino K, Demchuk AM, Molina Carlos A, Garami Z, Calleja S, et al.  <br \/>\n<\/td><td class=\"column-2\">Site of arterial occlusion identified by transcranial Doppler predicts the response to intravenous thrombolysis for stroke. <br \/>\nStroke 2007; 38: 948-954.<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nMolina C A, Ribo M , Rubiera M , Montaner J, Santamarina E , Delgado-Mederos R, et al.  <br \/>\n<\/td><td class=\"column-2\">Microbubble administration accelerates clot lysis during continuous 2-MHz ultrasound monitoring in stroke patients treated with intravenous tissue plasminogen activator. <br \/>\nStroke 2006; 37: 425-429.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>2004<\/strong><br \/>\nAlexandrov AV, Molina CA, Grotta JC, Garami Z, Ford SR, Alvarez-Sabin J, et al.  <br \/>\n<\/td><td class=\"column-2\">Ultrasound-enhanced systemic thrombolysis for acute ischemic stroke. <br \/>\nN. Engl. J. Med. 2004; 351: 2170-2178.<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>2004<\/strong><br \/>\nAlexandrov AV, Wojner AW, Grotta JC. <br \/>\n<\/td><td class=\"column-2\">CLOTBUST: Design of a randomized trial of ultrasound-enhanced thrombolysis for acute ischemic stroke. <br \/>\nJ Neuroimaging 2004; 14: 108-112.<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nRingelstein, E. B., Droste, D. W., Babikian, V. L., Evans, D. H., Grosset, D. G., Kaps, M., et al.<\/td><td class=\"column-2\">Consensus on microembolus detection by TCD. Stroke, 29, 725-729.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>1997<\/strong><br \/>\nKaps M, Hansen J, Weiher M, Tiffert K, Kayser I, Droste DW. <br \/>\n<\/td><td class=\"column-2\">Introduction of an embolus detection system based on analysis of the transcranial Doppler audio-signal. <br \/>\nStroke 1997; 28, 2: 322-325.<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nNo authors listed.<\/td><td class=\"column-2\">Basic identification criteria of Doppler microembolic signals. Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium. Stroke, 26(6), 1123.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Sonothrombolysis from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Stenosis&#8221;][vc_column_text css=&#8221;.vc_custom_1587640177988{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Stenosis\" class=\"tablepress tablepress-id-Stenosis table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nLowe, L. H., Morello, F. P., Jackson, M. A., &amp; Lasky, A.<\/td><td class=\"column-2\">Application of transcranial Doppler sonography in children with acute neurologic events due to primary cerebral and West Nile vasculitis. American journal of neuroradiology, 26(7), 1698-1701.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2001<\/strong><br \/>\nRazumovsky, A. Y.,<br \/>\nWityk, R. J., Geocadin, R. G., Bhardwaj, A., &amp; Ulatowski, J. A.<\/td><td class=\"column-2\">Cerebral Vasculitis: Diagnosis and Follow\u2010Up With Transcranial Doppler Ultrasonography. Journal of Neuroimaging, 11(3), 333-335.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nBrilla, R., Nabavi, D. G., Schulte-Altedorneburg, G., Keme\u0301ny, V., Reichelt, D., Evers, S., et al.<\/td><td class=\"column-2\">Cerebral vasculopathy in HIV infection revealed by transcranial Doppler: a pilot study. Stroke, 30(4), 811-813.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>1988<\/strong><br \/>\nRingelstein, E. B., Sievers, C., Ecker, S., Schneider, P. A., &amp; Otis, S. M. <\/td><td class=\"column-2\">Noninvasive assessment of CO2-induced cerebral vasomotor response in normal individuals and patients with internal carotid artery occlusions. Stroke, 19(8), 963-969.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>1986<\/strong><br \/>\nWidder B, Paulat K, Hackspacher J, Mayr E. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler CO2 test for the detection of hemodynamically critical carotid artery stenoses and occlusions. <br \/>\nEur Arch Psychiatry Neurol Sci.1986; 236:162-168.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Stenosis from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD and Stroke&#8221;][vc_column_text css=&#8221;.vc_custom_1587640224273{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-TCD_Stroke\" class=\"tablepress tablepress-id-TCD_Stroke table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nZiai, W. C., Cho, S. M., Johansen, M. C., Ergin, B., &amp; Bahouth,<br \/>\nM. N.<\/td><td class=\"column-2\">Transcranial doppler in acute COVID-19 infection:<br \/>\nUnexpected associations<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nCaldas, J. R., Passos, R.<br \/>\nD. H., Robinson, T. G., Panerai, R. B., &amp; Minhas, J. S.<\/td><td class=\"column-2\">Intensive care management of arterial carbon dioxide in acute intracerebral haemorrhage: Case report of influences on cerebral haemodynamics. Ultrasound, 1742271X20903753.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D.<\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO. Journal of Clinical and Nursing Research, 4(2).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nUdesh, R., Natarajan, P., Thiagarajan, K., Wechsler, L. R.,<br \/>\nCrammond, D. J., Balzer, J. R., &amp; Thirumala, P. D. <\/td><td class=\"column-2\">Transcranial doppler monitoring in carotid endarterectomy: A<br \/>\nsystematic review and meta\u2010analysis. Journal of Ultrasound in<br \/>\nMedicine, 36(3), 621-630<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nFu J, Tang J, Yang J, Chen X, Chen Y, Leung TW, Mok V, Soo Y, Wong KL. <br \/>\n<\/td><td class=\"column-2\">Adding computed tomography and transcranial Doppler findings to the ABCD2 score to predict long-term risk of stroke after transient ischaemic attack or minor stroke.<br \/>\nEur J Neurol 2015; 22: 520-6.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nHan SW, Song TJ, Bushnell CD, Lee SS, Kim SH, Lee JH, et al. <br \/>\n<\/td><td class=\"column-2\">Cilostazol decreases cerebral arterial pulsatility in patients with mild white matter hyperintensities: Subgroup analysis from the effect of cilostazol in acute lacunar infarction based on pulsatility index of transcranial doppler (ECLIPse) study. <br \/>\nCerebrovasc Dis 2014;38:197-203.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMarius, R. A., Iliuta, L., Guberna, S. M., &amp; Sinescu, C.<\/td><td class=\"column-2\">The role of ankle-brachial index for predicting peripheral arterial disease. Maedica, 9(3), 295.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nWare, R. E., &amp; Helms, R. W.<\/td><td class=\"column-2\">Stroke with transfusions<br \/>\nchanging to hydroxyurea (SWiTCH). Blood, The Journal of the<br \/>\nAmerican Society of Hematology, 119(17), 3925-3932<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nPhillips S, Stanley L, Nicoletto H, Burkman M, Laskowitz DT, Cairns CB. <br \/>\n<\/td><td class=\"column-2\">Use of Emergency department transcranial Doppler assessment of reperfusion after intravenous tPA for ischemic stroke. <br \/>\nThe Journal of emergency medicine 42, 40-3.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBoddu DB, Sharma VK, Bandaru VCSS, Jyotsna Y, Padmaja D, Suvarna A, et al. <\/td><td class=\"column-2\">Validation of transcranial Doppler with magnetic resonance angiography in acute cerebral ischemia. <br \/>\nJ Neuroimaging 2011; 21: e34-40.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nSharma VK, Paliwal PR, Teoh HL, Venketasubramanian N, Chan BPL.<\/td><td class=\"column-2\">Role of diagnostic ultrasound in patient selection for stroke intervention. <br \/>\nRecent Pat CNS Drug Discov 2011; 6: 181-195.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nVijayan J, Tai M-LS, Ahmad A, Sharma VK. <br \/>\n<\/td><td class=\"column-2\">An unhappy patient following successful sonothrombolysis in vertebrobasilar thrombosis: Dilemma with final diagnosis. <br \/>\nJ Neuroimaging 2011; 21: e173-176.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nZhao L, Barlinn K, Sharma VK, Tsivgoulis G, Cava LF, Vasdekis SN, et al. <br \/>\n<\/td><td class=\"column-2\">Velocity Criteria for Intracranial Stenosis Revisited: An International Multicenter Study of Transcranial Doppler and Digital Subtraction Angiography. <br \/>\nStroke, vol. 42, no. 12, pp. 3429\u20133434, 2011<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nAlexandrov AV, Tsivgoulis G, Rubiera M, Vadikolias K, Stamboulis E, Molina CA, et al. <br \/>\n<\/td><td class=\"column-2\">End-diastolic velocity increase predicts recanalization and neurological improvement in patients with ischemic stroke with proximal arterial occlusions receiving reperfusion therapies. <br \/>\nStroke 2010; 41: 948-952.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nGhorbani A, Ashtari F, Fatehi F. <br \/>\n<\/td><td class=\"column-2\">The assessment value of transcranial Doppler sonography versus magnetic resonance angiography in vertebrobasilar stroke. <br \/>\nJ Res Med Sci 2010; 15: 133-139.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nMeseguer E, Lavall\u00e9e PC, Mazighi M, Labreuche J, Cabrejo L, Olivot JM, et al. <br \/>\n<\/td><td class=\"column-2\">Yield of systematic transcranial Doppler in patients with transient ischemic attack. <br \/>\nAnn. Neurol. 2010; 68: 9-17.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nNicoletti G, Albano G, Sanguigni S, Tardi S, Malferrari G, Del Sette M, et al. <br \/>\n<\/td><td class=\"column-2\">Transient basilar artery occlusion monitored by transcranial color Doppler presenting with a spectacular shrinking deficit: a case report. <br \/>\nJ Med Case Reports 2010; 4: 13.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nVan H, Poommipanit P, Shalaby M, Gevorgyan R, Tseng CH, Tobis J. <br \/>\n<\/td><td class=\"column-2\">Sensitivity of transcranial Doppler versus intracardiac echocardiography in the detection of right-to-left shunt. <br \/>\nJACC Cardiovasc Imaging 2010; 3(4): 343-348.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nYeo LLL, Sharma VK. <br \/>\n<\/td><td class=\"column-2\">Role of transcranial Doppler ultrasonography in cerebrovascular disease. <br \/>\nRecent Pat CNS Drug Discov 2010; 5: 1-13.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nYou Y, Hao Q, Leung T, Mok V, Chen X, Lau A, et al. <\/td><td class=\"column-2\">Detection of the siphon internal carotid artery stenosis: transcranial Doppler versus digital subtraction angiography. <br \/>\nJ Neuroimaging 2010; 20: 234-239.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nFeldmann E. <br \/>\n<\/td><td class=\"column-2\">Diagnosis and quantitation of intracranial stenosis. <br \/>\nJ Neuroimaging 2009; 19 Suppl 1: 22S-4S.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSaqqur M, Tsivgoulis G, Molina CA, Demchuk AM, Shuaib A, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Residual flow at the site of intracranial occlusion on transcranial Doppler predicts response to intravenous thrombolysis: A multi-center study. <br \/>\nCerebrovasc. Dis. 2009; 27: 5-12.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRathakrishnan R, Berne YI, Quek KK, Hong CS, Ong BK, Chan BP, et al. <br \/>\n<\/td><td class=\"column-2\">Validation of transcranial Doppler with CT angiography in cerebral ischaemia: A preliminary pilot study in Singapore. <br \/>\nAnn. Acad. Med. Singap. 2008; 37: 402-405.<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nTsivgoulis G, Sharma VK, Hoover SL, Lao AY, Ardelt AA, Malkoff MD, et al. <br \/>\n<\/td><td class=\"column-2\">Applications and advantages of power motion-mode Doppler in acute posterior circulation cerebral ischemia. <br \/>\nStroke 2008; 39: 1197-1204.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nvan Dellen D, Tiivas CAS, Jarvi K, Marshall C, Higman DJ, Imray CHE. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography-directed intravenous glycoprotein IIb\/IIIa receptor antagonist therapy to control transient cerebral microemboli before and after carotid endarterectomy. <br \/>\nBr J Surg 2008; 95: 709-713.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nBrosig, T., Hoinkes, A., Seitz, R. J., Sandmann, W., Huber, R., &amp;<br \/>\nSiebler, M.<\/td><td class=\"column-2\">Ultrasound turbulence index during<br \/>\nthromboendarterectomy predicts postoperative cerebral<br \/>\nmicroembolism. Cerebrovascular Diseases, 26(1), 87-92<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nBos MJ, Koudstaal PJ, Hofman A, Witteman JCM, Breteler MMB. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler hemodynamic parameters and risk of stroke: the Rotterdam study. <br \/>\nStroke 2007; 38: 2453-2458.<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nEspinola-Klein, C., Rupprecht, H. J., Bickel, C., Lackner, K., Messow, C. M., Munzel, T., &amp; Blankenberg, S.<\/td><td class=\"column-2\">Different Calculations Of Ankle Brachial Index And Cardiovascular Risk Prediction.<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nFeldmann E, Wilterdink JL, Kosinski A, Lynn M, Chimowitz MI, Sarafin J, et al. <br \/>\n<\/td><td class=\"column-2\">The Stroke Outcomes and Neuroimaging of Intracranial Atherosclerosis (SONIA) trial. <br \/>\nNeurology 2007; 68: 2099-2106.<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nNavarro JC, Lao AY, Sharma VK, Tsivgoulis G, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">The accuracy of transcranial Doppler in the diagnosis of middle cerebral artery stenosis. <br \/>\nCerebrovasc. Dis. 2007; 23: 325-330.<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSarkar S, Ghosh S, Ghosh SK, Collier A. <br \/>\n<\/td><td class=\"column-2\">Role of transcranial Doppler ultrasonography in stroke. <br \/>\nPostgrad Med J 2007; 83: 683-689.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSharma VK, Tsivgoulis G, Lao AY, Malkoff MD, Alexandrov AV. <br \/>\n<\/td><td class=\"column-2\">Noninvasive detection of diffuse intracranial disease. <br \/>\nStroke 2007; 38: 3175-3181.<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nTsivgoulis G, Sharma VK, Lao AY, Malkoff MD, Alexandrov AV. <\/td><td class=\"column-2\">Validation of transcranial Doppler with computed tomography angiography in acute cerebral ischemia. <br \/>\nStroke 2007; 38: 1245-1249.<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nSaqqur M, Demchuk AM, Hill MD, Dean N, Schebel M, Kennedy J, et al. <br \/>\n<\/td><td class=\"column-2\">Bedside emergency transcranial Doppler diagnosis of severe carotid disease using orbital window examination. <br \/>\nJ Neuroimaging 2005; 15: 138-143.<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nBelch, J. J., Topol, E. J., Agnelli, G., Bertrand, M., Califf, R. M., Clement, D. L.,<\/td><td class=\"column-2\">Critical issues in peripheral arterial disease detection and management: a call to action. Archives of internal medicine, 163(8), 884-892.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-36\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nRingelstein, E. B., Droste, D. W., Babikian, V. L., Evans, D. H., Grosset, D. G., Kaps, M.,<\/td><td class=\"column-2\">Consensus on microembolus detection by TCD. Stroke, 29, 725-729.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-37\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nAdams, R. J., McKie, V. C., Hsu, L., Files, B., Vichinsky, E.,<br \/>\nPegelow, C., et al.<\/td><td class=\"column-2\">Prevention of a first<br \/>\nstroke by transfusions in children with sickle cell anemia and<br \/>\nabnormal results on transcranial Doppler ultrasonography. New<br \/>\nEngland Journal of Medicine, 339(1), 5-11<\/td>\n<\/tr>\n<tr class=\"row-38\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nNo authors listed.<\/td><td class=\"column-2\">Basic identification criteria of Doppler microembolic signals. Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium. Stroke, 26(6), 1123. <\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-TCD_Stroke from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Vascular and Heart Surgery&#8221;][vc_column_text css=&#8221;.vc_custom_1587640298334{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-HeartSurgery\" class=\"tablepress tablepress-id-HeartSurgery table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nRazumovsky, A. <\/td><td class=\"column-2\">Transcranial Doppler Ultrasound (TCD) and Intraoperative TCD Monitoring: Perspective. Journal of Vascular and Interventional Neurology, 11(3), 134-139.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nKobayashi, M., Yoshida, K., Kojima, D., Oshida, S., Fujiwara, S.,<br \/>\nKubo, Y., &amp; Ogasawara, K.<\/td><td class=\"column-2\">Impact of external carotid<br \/>\nartery occlusion at declamping of the external and common<br \/>\ncarotid arteries during carotid endarterectomy on development<br \/>\nof new postoperative ischemic cerebral lesions. Journal of<br \/>\nvascular surgery, 69(2), 454-461<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2018<\/strong><br \/>\nSchaafsma A. <\/td><td class=\"column-2\">A new method for correcting middle cerebral<br \/>\nartery flow velocity for age by calculating Z-scores.<br \/>\nJ Neuroscience Methods, 2018; 307: 1-7<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2017<\/strong><br \/>\nUdesh, R., Natarajan, P., Thiagarajan, K., Wechsler, L. R.,<br \/>\nCrammond, D. J., Balzer, J. R., &amp; Thirumala, P. D. <\/td><td class=\"column-2\">Transcranial doppler monitoring in carotid endarterectomy: A<br \/>\nsystematic review and meta\u2010analysis. Journal of Ultrasound in<br \/>\nMedicine, 36(3), 621-630<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2015<\/strong><br \/>\nKochh\u00e4user S, Lohmann HH, Ritter MA, et al. <\/td><td class=\"column-2\">Neuropsychological impact of cerebral microemboli in ablation of atrial fibrillation. <br \/>\nClin Res Cardiol. 2015;104(3):234\u2013240.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nBuratti L, Balucani C, Viticchi G, et al.<\/td><td class=\"column-2\">Cognitive deterioration in bilateral asymptomatic severe carotid stenosis.<br \/>\nStroke, vol. 45, no. 7, pp. 2072\u20132077, 2014.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMergeche JL, Bruce SS, Connolly ES, Heyer EJ. <br \/>\n<\/td><td class=\"column-2\">Reduced Middle Cerebral Artery Velocity during Cross-Clamp Predicts Cognitive Dysfunction after Carotid Endarterectomy. <br \/>\nJ of Clinical Neuroscience. 2014; 21,3:406-411.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nNagy-Balo E, Kiss A, Condie C, Stewart M, Edes I, Csanadi Z. <br \/>\n<\/td><td class=\"column-2\">Predictors of cerebral microembolization during phased radiofrequency ablation of atrial fibrillation: Analysis of biophysical parameters from the ablation generator. <br \/>\nHeart Rhythm 2014; 11: 977-983.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nRod\u00e9s-Cabau J, Kahlert P, Neumann FJ, et al.<br \/>\n<\/td><td class=\"column-2\">Feasibility and exploratory efficacy evaluation of the Embrella Embolic Deflector system for the prevention of cerebral emboli in patients undergoing transcatheter aortic valve replacement: The PROTAVI-C pilot study. <br \/>\nJ Am Coll Cardiol Intv 2014;7:1146\u201355.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nScott DA, Evered LA, Gerraty RP, et al. <\/td><td class=\"column-2\">Cognitive dysfunction follows left heart catheterisation but is not related to microembolic count. <br \/>\nInternational journal of cardiology. 2014; 175:67\u201371<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nSilbert BS, Evered LA, Scott DA, Rahardja S, Gerraty RP, Choong PF.<br \/>\n<\/td><td class=\"column-2\">Review of transcranial Doppler ultrasound to detect microemboli during orthopedic surgery. <br \/>\nAm J Neuroradiol 2014; 175:67\u201371<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nBismuth J, Garami Z, Anaya-Ayala JE, Naoum JJ, El Sayed HF, Peden EK, et al. <\/td><td class=\"column-2\">Transcranial Doppler findings during thoracic endovascular aortic repair. <br \/>\nJ. Vasc. Surg. 2011; 54: 364-369.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nDrews T, Pasic M, Buz S, Unbehaun A, Dreysse S, Kukucka M, et al. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler sound detection of cerebral microembolism during transapical aortic valve implantation. <br \/>\nThorac Cardiovasc Surg 2011; 59: 237-242.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nEyjolfsson A, Al-Rashidi F, Dencker M, Scicluna S, Brond\u00e9n B, Koul B, et al. <\/td><td class=\"column-2\">Comparison between transcranial Doppler and Coulter counter for detection of lipid micro embolization from mediastinal shed blood reinfusion during cardiac surgery. <br \/>\nPerfusion 2011; 26: 519-523.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nJeong HS, Song H-J, Lee J-H, Choi SW, Kim J. <\/td><td class=\"column-2\">Interpretation of TCD spectral patterns detected during carotid artery stent interventions. <br \/>\nJ. Endovasc. Ther. 2011; 18: 518-526.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nKosir G, Tetickovic E. <br \/>\n<\/td><td class=\"column-2\">Intraoperative transcranial Doppler ultrasonography monitoring of cerebral blood flow during coronary artery bypass grafting. <br \/>\nActa Clinica Croatica 2011, 50: 5-11.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nPennekamp CWA, Moll FL, de Borst GJ. <\/td><td class=\"column-2\">The potential benefits and the role of cerebral monitoring in carotid endarterectomy. <br \/>\nCurrent Opinion in Anaesthesiology, vol. 24, no. 6, pp. 693\u2013697, 2011<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nToyama S, Sakai H, Ito S, Suzuki Y, Kondo Y. <\/td><td class=\"column-2\">Cerebral hypoperfusion during pediatric cardiac surgery detected by combined bispectral index monitoring and transcranial Doppler ultrasonography. <br \/>\nJ Clin Anesth. 2011; 23(6): 498-501.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nZanatta P, Benvenuti SM, Bosco E, Baldanzi F, Palomba D, Valfr\u00e8 C. <br \/>\n<\/td><td class=\"column-2\">Multimodal Brain Monitoring Reduces Major Neurologic Complications in Cardiac Surgery <br \/>\nJ Cardiothorac Vasc Anesth 2011;25:1076\u201385<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nRodriguez RA, Rubens FD, Wozny D, Nathan HJ. <\/td><td class=\"column-2\">Cerebral emboli detected by transcranial Doppler during cardiopulmonary bypass are not correlated with postoperative cognitive deficits. <br \/>\nStroke 2010; 41: 2229-2235.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZanatta P, Forti A, Bosco E, Salvador L, Borsato M, Baldanzi F, et al.  <br \/>\n<\/td><td class=\"column-2\">Microembolic signals and strategy to prevent gas embolism during extracorporeal membrane oxygenation. <br \/>\nJ Cardiothorac Surg 2010; 5: 5.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSharpe RY, Walker J, Bown MJ, Naylor MB, Evans DH, Naylor AR. <br \/>\n<\/td><td class=\"column-2\">Identifying the high-risk patient with clinically relevant embolisation after carotid endarterectomy. <br \/>\nEur J Vasc Endovasc Surg 2009; 37: 1-7.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nMorita S, Yasaka M, Yasumori K, Oishi Y, Takaseya T, Sonoda H, et al.  <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler study to assess intracranial arterial communication before aortic arch operation. <br \/>\nAnn. Thorac. Surg. 2008; 86: 448-451.<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nvan Dellen D, Tiivas CAS, Jarvi K, Marshall C, Higman DJ, Imray CHE. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler ultrasonography-directed intravenous glycoprotein IIb\/IIIa receptor antagonist therapy to control transient cerebral microemboli before and after carotid endarterectomy. <br \/>\nBr J Surg 2008; 95: 709-713.<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nBrosig, T., Hoinkes, A., Seitz, R. J., Sandmann, W., Huber, R., &amp;<br \/>\nSiebler, M. <\/td><td class=\"column-2\">Ultrasound turbulence index during<br \/>\nthromboendarterectomy predicts postoperative cerebral<br \/>\nmicroembolism. Cerebrovascular Diseases, 26(1), 87-92<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nAbbott AL, Levi CR, Stork JL, Donnan GA, Chambers BR. <\/td><td class=\"column-2\">Timing of clinically significant microembolism after carotid endarterectomy. <br \/>\nCerebrovasc. Dis. 2007; 23: 362-367.<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nFarhoudi M, Parvizi R, Bilehjani E, Tarzamni MK, Mehrvar K, Safaiyan A. <\/td><td class=\"column-2\">Preoperative transcranial and carotid Doppler study in coronary artery bypass graft patients. <br \/>\nNeurosciences (Riyadh) 2007; 12: 42-45.<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nAzarpazhooh M, Chambers B. <\/td><td class=\"column-2\">Clinical application of transcranial Doppler monitoring for embolic signals. <br \/>\nJournal of Clinical Neuroscience 2006; 13: 799-810.<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nChen C-I, Iguchi Y, Garami Z, Malkoff MD, Smalling RW, Campbell MS, et al.  <\/td><td class=\"column-2\">Analysis of emboli during carotid stenting with distal protection device. <br \/>\nCerebrovasc. Dis. 2006; 21: 223-228.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nPolito A, Ricci Z, Di Chiara L, Giorni C, Iacoella C, Sanders SP, et al. <\/td><td class=\"column-2\">Cerebral blood flow during cardiopulmonary bypass in pediatric cardiac surgery: the role of transcranial Doppler--A systematic review of the literature. <br \/>\nCardiovasc Ultrasound 2006; 4: 47.<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nPolito A, Ricci Z, Di Chiara L, Giorni C, Iacoella C, Sanders SP, et al.  <br \/>\n<\/td><td class=\"column-2\">Cerebral blood flow during cardiopulmonary bypass in pediatric cardiac surgery: the role of transcranial Doppler--A systematic review of the literature. <br \/>\nCardiovasc Ultrasound 2006; 4: 47.<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nAckerstaff, R. G., Suttorp, M. J., van den Berg, J. C., Overtoom, T. T. C., Vos, J. A., Bal, E. T., et al.<\/td><td class=\"column-2\">Prediction of early cerebral outcome by transcranial Doppler monitoring in carotid bifurcation angioplasty and stenting. Journal of vascular surgery, 41(4), 618-624.<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>2003<\/strong><br \/>\nAndropoulos DB, Stayer SA, McKenzie ED, Fraser CD Jr. <\/td><td class=\"column-2\">Novel cerebral physiologic monitoring to guide low-flow cerebral perfusion during neonatal aortic arch reconstruction. <br \/>\nJ. Thorac. Cardiovasc. Surg. 2003; 125: 491-499.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>1998<\/strong><br \/>\nRingelstein, E. B., Droste, D. W., Babikian, V. L., Evans, D. H., Grosset, D. G., Kaps, M., et al.<\/td><td class=\"column-2\">Consensus on microembolus detection by TCD. Stroke, 29, 725-729.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>1995<\/strong><br \/>\nNo authors listed.<\/td><td class=\"column-2\">Basic identification criteria of Doppler microembolic signals. Consensus Committee of the Ninth International Cerebral Hemodynamic Symposium. Stroke, 26(6), 1123.<br \/>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-HeartSurgery from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Monitoring and Detection of Vasospasm&#8221;][vc_column_text css=&#8221;.vc_custom_1587640245974{padding-right: 10px !important;}&#8221;]\n<table id=\"tablepress-Vasospasm\" class=\"tablepress tablepress-id-Vasospasm table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nPapaioannou, V. E., Budohoski, K. P., Placek, M. M., Czosnyka,<br \/>\nZ., Smielewski, P., &amp; Czosnyka, M.<\/td><td class=\"column-2\">Association of<br \/>\ntranscranial Doppler blood flow velocity slow waves with delayed<br \/>\ncerebral ischemia in patients suffering from subarachnoid<br \/>\nhemorrhage: a retrospective study. Intensive Care Medicine<br \/>\nExperimental, 9(1), 1-17<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nRouanet, C., Chaddad, F., Freitas, F., Miranda, M.,<br \/>\nVasconcellos, N., Valiente, R., et al.<\/td><td class=\"column-2\">Kinetics<br \/>\nof cerebral blood flow velocities during treatment for delayed<br \/>\ncerebral ischemia in aneurysmal subarachnoid hemorrhage.<br \/>\nNeurocritical Care, 1-14<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nFatima, N., Shuaib, A., Chughtai, T. S., Ayyad, A., &amp; Saqqur, M.<\/td><td class=\"column-2\">The role of transcranial doppler in traumatic brain injury: A systemic review and meta-analysis. Asian journal of neurosurgery, 14(3), 626.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nChhor V, Le Manach Y, Claren\u00e7on F, Nouet A, Daban JL, Abdennour L, et al. <\/td><td class=\"column-2\">Admission risk factors for cerebral vasospasm in ruptured brain arteriovenous malformations: An observational study. <br \/>\nCritical Care (London, England) 2011; 15: R190.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nNakae R, Yokota H, Yoshida D, Teramoto A. <\/td><td class=\"column-2\">Transcranial Doppler ultrasonography for diagnosis of cerebral vasospasm after aneurysmal subarachnoid hemorrhage: mean blood flow velocity ratio of the ipsilateral and contralateral middle cerebral arteries. <br \/>\nNeurosurgery 2011; 69: 876-883; discussion 883.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nSpiotta AM, Provencio JJ, Rasmussen PA, Manno E. <br \/>\n<\/td><td class=\"column-2\">Brain monitoring after subarachnoid hemorrhage: lessons learned. <br \/>\nNeurosurgery 2011; 69: 755-766; discussion 766.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nWashington CW, Zipfel GJ. <br \/>\n<\/td><td class=\"column-2\">Detection and monitoring of vasospasm and delayed cerebral ischemia: A review and assessment of the literature. <br \/>\nNeurocrit Care 2011; 15: 312-317.<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nChou C-H, Reed SD, Allsbrook JS, Steele JL, Schulman KA, Alexander MJ. <br \/>\n<\/td><td class=\"column-2\">Costs of vasospasm in patients with aneurysmal subarachnoid hemorrhage. <br \/>\nNeurosurgery 2010; 67: 345-351; discussion 351-352.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nMarshall SA, Nyquist P, Ziai WC. <\/td><td class=\"column-2\">The role of transcranial Doppler ultrasonography in the diagnosis and management of vasospasm after aneurysmal subarachnoid hemorrhage. <br \/>\nNeurosurg. Clin. N. Am 2010; 21: 291-303.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nMarshall SA, Kathuria S, Nyquist P, Gandhi D. <br \/>\n<\/td><td class=\"column-2\">Noninvasive imaging techniques in the diagnosis and management of aneurysmal subarachnoid hemorrhage. <br \/>\nNeurosurg. Clin. N. Am. 2010; 21: 305-323.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nYokose N, Sakatani K, Murata Y, Awano T, Igarashi T, Nakamura S, et al. <br \/>\n<\/td><td class=\"column-2\">Bedside monitoring of cerebral blood oxygenation and hemodynamics after aneurysmal subarachnoid hemorrhage by quantitative time-resolved near-infrared spectroscopy. <br \/>\nWorld Neurosurg 2010; 73: 508-513.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nFontanella M, Valfr\u00e8 W, Benech F, Carlino C, Garbossa D, Ferrio M, et al. <\/td><td class=\"column-2\">Vasospasm after SAH due to aneurysm rupture of the anterior circle of Willis: value of TCD monitoring. <br \/>\nNeurol. Res. 2008; 30: 256-261.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nHan PY, Kim JH, Kang HI, Moon BG, Lee SJ, Kim JS. <\/td><td class=\"column-2\">Is Transcranial Doppler Ultrasonography Old-fashioned?: One Institutional Validity Study. <br \/>\nJ Korean Neurosurg Soc 2008; 44: 63-66.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nIonita CC, Graffagnino C, Alexander MJ, Zaidat OO. <br \/>\n<\/td><td class=\"column-2\">The value of CT angiography and transcranial Doppler sonography in triaging suspected cerebral vasospasm in SAH prior to endovascular therapy. <br \/>\nNeurocrit Care 2008; 9: 8-12.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nRigamonti A, Ackery A, Baker AJ. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler monitoring in subarachnoid hemorrhage: A critical tool in critical care. <br \/>\nCan J Anaesth 2008; 55: 112-123.<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2008<\/strong><br \/>\nScherle-Matamoros CE, Perez-Nellar J, Castro-Jimenez M. <br \/>\n<\/td><td class=\"column-2\">Clinical usefulness of transcranial Doppler ultrasound imaging in the diagnosis of cerebral vasospasm in subarachnoid haemorrhage. A validation study. <br \/>\nRev Neurol 2008; 47: 295-298.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nConstantoyannis C, Sakellaropoulos GC, Kagadis GC, Katsakiori PF, Maraziotis T, Nikiforidis GC, et al. <br \/>\n<\/td><td class=\"column-2\">Transcranial cerebral oximetry and transcranial Doppler sonography in patients with ruptured cerebral aneurysms and delayed cerebral vasospasm. <br \/>\nMed. Sci. Monit. 2007; 13: MT35-40.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nGonzalez NR, Boscardin WJ, Glenn T, Vinuela F, Martin NA. <br \/>\n<\/td><td class=\"column-2\">Vasospasm probability index: a combination of transcranial Doppler velocities, cerebral blood flow, and clinical risk factors to predict cerebral vasospasm after aneurysmal subarachnoid hemorrhage. <br \/>\nJ. Neurosurg. 2007; 107: 1101-1112.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nLee JY, Lee MS, Whang K, Lee JM, Kim SH, Lee SS. <br \/>\n<\/td><td class=\"column-2\">Accuracy of transcranial Doppler sonography for predicting cerebral infarction in aneurysmal subarachnoid hemorrhage. <br \/>\nJ Clin Ultrasound 2006; 34: 380-384.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nSviri GE, Ghodke B, Britz GW, Douville CM, Haynor DR, Mesiwala AH, et al. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler grading criteria for basilar artery vasospasm. <br \/>\nNeurosurgery 2006; 59: 360-366; discussion 360-366.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nNaval NS, Thomas CE, Urrutia VC. <br \/>\n<\/td><td class=\"column-2\">Naval NS, Thomas CE, Urrutia VC. <br \/>\nRelative changes in flow velocities in vasospasm after subarachnoid hemorrhage: A transcranial Doppler study. <br \/>\nNeurocrit Care 2005; 2: 133-140.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Vasospasm from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;Right-Left Shunt Detection&#8221;][vc_column_text]\n<table id=\"tablepress-Right-LeftShunt\" class=\"tablepress tablepress-id-Right-LeftShunt tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nReynolds, A. S., Lee, A. G., Renz, J., DeSantis, K., Liang, J., Powell, C. A., et al.<\/td><td class=\"column-2\">Pulmonary vascular dilatation detected by automated transcranial Doppler in COVID-19 pneumonia. American journal of respiratory and critical care medicine, 202(7), 1037-1039.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nYu, X., Yang, J., &amp; Wu, D.<\/td><td class=\"column-2\">The Value of c-TCD in the Diagnosis of Migraine and Cryptogenic Stroke Caused by PFO. Journal of Clinical and Nursing Research, 4(2).<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nFatima, N., Shuaib, A., Chughtai, T. S., Ayyad, A., &amp; Saqqur, M.<\/td><td class=\"column-2\">The role of transcranial doppler in traumatic brain injury: A systemic review and meta-analysis. Asian journal of neurosurgery, 14(3), 626.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2019<\/strong><br \/>\nZetola, V. F., Lange, M. C., Scavasine, V. C., Bazan, R., Braga, G. P., Leite, A. C. C., et al.<\/td><td class=\"column-2\">Latin American Consensus statement for the use of contrast-enhanced transcranial ultrasound as a diagnostic test for detection of right-to-left shunt. Cerebrovascular Diseases, 48(3-6), 99-108.<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nGevorgyan R, Perlowski A, Shenoda M, Mojadidi MK, Agrawal H, Tobis JM. <br \/>\n<\/td><td class=\"column-2\">Sensitivity of brachial versus femoral vein injection of agitated saline to detect right-to-left shunts with transcranial Doppler.<br \/>\nCatheter Cardiovasc Interv 2014 Jan 9 [E-pub ahead of print]<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nKim BJ, Kim NY, Kang DW, Kim JS, Kwon SU.<br \/>\n<\/td><td class=\"column-2\">Provoked right-to-left shunt in patent foramen ovale associates with ischemic stroke in posterior circulation.<br \/>\nStroke. 2014;45:3707\u20133710<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nKomar M, Olszowska M, Przew\u0142ocki T, Podolec J, St\u0119pniewski J, Sobie\u0144 B, Badacz R, Kab\u0142ak-Ziembicka A, et al.<br \/>\n<\/td><td class=\"column-2\">Transcranial doppler ultrasonography should it be the first choice for persistent foramen ovale screening?<br \/>\nKomar et al. Cardiovascular Ultrasound 2014, 12:16<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nMarius, R. A., Iliuta, L., Guberna, S. M., &amp; Sinescu, C. <\/td><td class=\"column-2\">The role of ankle-brachial index for predicting peripheral arterial disease. Maedica, 9(3), 295.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2014<\/strong><br \/>\nHao N, Liu K, Guo ZN, Wu X, Yang Y, Xing Y. <\/td><td class=\"column-2\">Comparison of two contrast agents for right-to-left shunt diagnosis with contrast-enhanced transcranial Doppler.<br \/>\nUltrasound Med Biol 40, 2317\u20132320.<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\"><strong>2012<\/strong><br \/>\nMart\u00ednez-S\u00e1nchez P, Medina-B\u00e1ez J, Lara-Lara M, Oliva-Navarro J, Cazorla-Garc\u00eda R, Ruiz-Ares G, et al.  <br \/>\n<\/td><td class=\"column-2\">Low sensitivity of the echocardiograph compared with contrast transcranial Doppler in right-to-left shunt. <br \/>\nNeurologia. 2012 Mar; 27(2):61-7.<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nAgustin SJU, Yumul MP, Kalaw AJL, Teo BC, Eng J, Phua Z, et al.  <br \/>\n<\/td><td class=\"column-2\">Effects of posture on right-to-left shunt detection by contrast transcranial Doppler. <br \/>\nStroke 2011; 42: 2201-2205.<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nCorrado G, Massironi L, Torta D, Rigo F, Beretta S, Sansalone D, et al.  <br \/>\n<\/td><td class=\"column-2\">Contrast transthoracic echocardiography versus transcranial Doppler for patent foramen ovale detection. <br \/>\nInt. J. Cardiol. 2011; 150: 235-237.<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nForteza AM, Koch S, Campo-Bustillo I, Gutierrez J, Haussen DC, Rabinstein AA, et al.  <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler detection of cerebral fat emboli and relation to paradoxical embolism: A pilot study. <br \/>\nCirculation 2011; 123: 1947-1952.<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nMcCandless RT, Arrington CB, Nielsen DC, Bale JF Jr, Minich LL. <br \/>\n<\/td><td class=\"column-2\">Patent foramen ovale in children with migraine headaches. <br \/>\nJ. Pediatr. 2011; 159: 243-247.e1.<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nShariat A, Yaghoubi E, Nemati R, Aghasadeghi K, Borhani Haghighi A. <\/td><td class=\"column-2\">Comparison of Agitated Saline Mixed with Blood to Agitated Saline Alone in Detecting Right-to-Left Shunt during Contrast- Transcranial Doppler Sonography Examination. <br \/>\nActa Neurol Taiwan 2011; 20: 182-187.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\"><strong>2011<\/strong><br \/>\nTsivgoulis G, Stamboulis E, Sharma Vijay K, Heliopoulos I, Voumvourakis K, Teoh HL, et al.  <br \/>\n<\/td><td class=\"column-2\">Safety of transcranial Doppler \u201ebubble study\u201c for identification of right to left shunts: An international multicentre study. <br \/>\nJ. Neurol. Neurosurg. Psychiatr. 2011; 82: 1206-1208.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nLange MC, Z\u00e9tola VF, Piovesan EJ, Werneck LC. <br \/>\n<\/td><td class=\"column-2\">Valsalva manoeuvre procedures in the diagnosis of right-to-left shunt by contrast-enhanced transcranial Doppler using agitated saline solution with blood as a contrast agent. <br \/>\nArq Neuropsiquiatr 2010; 68: 410-413.<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nVan H, Poommipanit P, Shalaby M, Gevorgyan R, Tseng CH, Tobis J. <br \/>\n<\/td><td class=\"column-2\">Sensitivity of transcranial Doppler versus intracardiac echocardiography in the detection of right-to-left shunt. <br \/>\nJACC Cardiovasc Imaging 2010; 3(4): 343-348.<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\"><strong>2010<\/strong><br \/>\nZivanovi\u0107 Z, Ruzicka-Kaloci S, Jesi\u0107 A, Radovanovi\u0107 B, Luci\u0107-Prokin A, Slankamenac P. <br \/>\n<\/td><td class=\"column-2\">Paradoxical emboli-clinical importance of transcranial Doppler for detection of patent foramen ovale. <br \/>\nMed. Pregl. 2010; 63: 445-449.<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nCaputi L, Carriero MR, Falcone C, Parati E, Piotti P, Materazzo C, et al.  <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler and transesophageal echocardiography: Comparison of both techniques and prospective clinical relevance of transcranial Doppler in patent foramen ovale detection. <br \/>\nJ Stroke Cerebrovasc Dis 2009; 18: 343-348.<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nJesurum JT, Fuller CJ, Moehring MA, Renz J, Harley M, Spencer MP. <br \/>\n<\/td><td class=\"column-2\">Unilateral versus bilateral middle cerebral artery detection of right-to-left shunt by power M-mode transcranial Doppler. <br \/>\nJ Neuroimaging 2009; 19: 235-241.<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nJesurum JT, Fuller CJ, Renz J, Krabill KA, Spencer MP, Reisman M.<br \/>\n<\/td><td class=\"column-2\">Diagnosis of secondary source of right-to-left shunt with balloon occlusion of patent foramen ovale and power M-mode transcranial Doppler. <br \/>\nJACC Cardiovasc Interv 2009; 2: 561-567.<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nMangiafico S, Scandura S, Ussia GP, Privitera A, Capodanno D, Petralia A, et al.  <br \/>\n<\/td><td class=\"column-2\">Transesophageal echocardiography and transcranial color Doppler: Independent or complementary diagnostic tests for cardiologists in the detection of patent foramen ovale? <br \/>\nJ Cardiovasc Med (Hagerstown) 2009; 10: 143-148.<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\"><strong>2009<\/strong><br \/>\nSastry S, MacNab A, Daly K, Ray S, McCollum C. <br \/>\n<\/td><td class=\"column-2\">Transcranial Doppler detection of venous-to-arterial circulation shunts: criteria for patent foramen ovale. <br \/>\nJ Clin Ultrasound 2009; 37: 276-280.<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nDel Sette M, Dinia L, Rizzi D, Sugo A, Albano B, Gandolfo C. <br \/>\n<\/td><td class=\"column-2\">Diagnosis of right-to-left shunt with transcranial Doppler and vertebrobasilar recording. <br \/>\nStroke 2007; 38: 2254-2256.<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nLao AY, Sharma V K, Tsivgoulis G, Malkoff MD, Alexandrov AV, Frey JL. <br \/>\n<\/td><td class=\"column-2\">Effect of body positioning during transcranial Doppler detection of right-to-left shunts. <br \/>\nEur. J. Neurol. 2007; 14: 1035-1039.<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSastry S, Daly K, Chengodu T, McCollum C. <br \/>\n<\/td><td class=\"column-2\">Is transcranial Doppler for the detection of venous-to-arterial circulation shunts reproducible? <br \/>\nCerebrovasc. Dis. 2007; 23: 424-429.<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\"><strong>2007<\/strong><br \/>\nSaver, J. L.<\/td><td class=\"column-2\">Cryptogenic stroke in patients with patent foramen ovale. Current atherosclerosis reports, 9(4), 319-325.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nEngelhardt M, Folkers W, Brenke C, Scholz M, Harders A, Fidorra H, et al.  <br \/>\n<\/td><td class=\"column-2\">Neurosurgical operations with the patient in sitting position: analysis of risk factors using transcranial Doppler sonography. <br \/>\nBr J Anaesth 2006; 96: 467-472.<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\"><strong>2006<\/strong><br \/>\nNedeltchev K, Mattle HP. <br \/>\n<\/td><td class=\"column-2\">Contrast-enhanced transcranial Doppler ultrasound for diagnosis of patent foramen ovale. <br \/>\nFront Neurol Neurosci 2006; 21: 206-215.<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\"><strong>2005<\/strong><br \/>\nHomma, S., &amp; Sacco, R. L.<\/td><td class=\"column-2\">Patent foramen ovale and stroke. Circulation, 112(7), 1063-1072.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\"><strong>2000<\/strong><br \/>\nJauss, M., &amp; Zanette, E.<\/td><td class=\"column-2\">Detection of right-to-left shunt with ultrasound contrast agent and transcranial Doppler sonography. Cerebrovascular diseases, 10(6), 490-496.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nDroste, D. W., Kriete, J. U., Stypmann, J., Castrucci, M., Wichter, T., Tietje, R., et al.<\/td><td class=\"column-2\">Contrast transcranial Doppler ultrasound in the detection of right-to-left shunts: comparison of different procedures and different contrast agents. Stroke, 30(9), 1827-1832.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\"><strong>1999<\/strong><br \/>\nSchwarze, J. J., Sander, D., Kukla, C., Wittich, I., Babikian, V. L., &amp; Klingelhofer, J. <\/td><td class=\"column-2\">Methodological parameters influence the detection of right-to-left shunts by contrast transcranial Doppler ultrasonography. Stroke, 30(6), 1234-1239.<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\"><strong>1996<\/strong><br \/>\nZanette, E. M., Mancini, G., De Castro, S., Solaro, M., Cartoni, D., &amp; Chiarotti, F.<\/td><td class=\"column-2\">Patent foramen ovale and transcranial Doppler: comparison of different procedures. Stroke, 27(12), 2251-2255.<br \/>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-Right-LeftShunt from cache -->[\/vc_column_text][\/vc_accordion_tab][vc_accordion_tab title=&#8221;TCD in use with COVID-19&#8243;][vc_column_text]\n<table id=\"tablepress-COVID-19\" class=\"tablepress tablepress-id-COVID-19 table_literatur tablepress-responsive\">\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-1\">\n\t<td class=\"column-1\"><strong>2023<\/strong><br \/>\nGhotbi Z., Estakhr M., Hosseini M., Shahripour RB.<\/td><td class=\"column-2\">Cerebral Vasomotor Reactivity in COVID-19: A Narrative Review.<\/td>\n<\/tr>\n<tr class=\"row-2\">\n\t<td class=\"column-1\"><strong>2022<\/strong><br \/>\nBlanco-Gonz\u00e1lez, M. A., Machado-Mart\u00ednez, R., Pi-\u00c1vila, J., &amp; G\u00f3mez-Peire, F.<\/td><td class=\"column-2\">Cerebral Hemodynamic Reserve Abnormalities Detected Via Transcranial Doppler Ultrasound in Recovered COVID-19 Patients.<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nLei, Y., Zhang, J., Schiavon, C. R., He, M., Chen, L., Shen, et al.<\/td><td class=\"column-2\">SARS-CoV-2 spike protein impairs<br \/>\nendothelial function via downregulation of ACE 2.<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nBatra, A., Clark, J. R., LaHaye, K., Shlobin, N. A., Hoffman, S.C., Orban, Z. S., et al.<\/td><td class=\"column-2\">Transcranial doppler<br \/>\nultrasound evidence of active cerebral embolization in COVID-<br \/>\n19. <\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nRamani, S. L., Samet, J., Franz, C. K., Hsieh, C., Nguyen, C. V., Horbinski, C., &amp; Deshmukh<\/td><td class=\"column-2\">Musculoskeletal involvement of COVID-19: review of imaging.<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nZiai, W. C., Cho, S. M., Johansen, M. C., Ergin, B., &amp; Bahouth,<br \/>\nM. N.<\/td><td class=\"column-2\">Transcranial doppler in acute COVID-19 infection:<br \/>\nUnexpected associations<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nReynolds, AS., Lee AG., Renz J., DeSantis K., Liang J., Powell CA., Ventetuolo CE., Poor HD.<\/td><td class=\"column-2\">Pulmonary Vascular Dilatation Detected by Automated Transcranial doppler in COVID-19 Pneumonia<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\"><strong>2021<\/strong><br \/>\nBrasil, S., Taccone, F. S., Wahys, S. Y., Tomazini, B. M.,<br \/>\nAnnoni, F., Fonseca, S., et al.<\/td><td class=\"column-2\">Cerebral hemodynamics and intracranial compliance impairment<br \/>\nin critically ill COVID-19 patients: A pilot study. <\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\"><strong>2020<\/strong><br \/>\nAckermann, M., Verleden, S. E., Kuehnel, M., Haverich, A., Welte, T., Laenger, F., et al.<\/td><td class=\"column-2\">Pulmonary vascular endothelialitis, thrombosis, and angiogenesis in Covid-19. <\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-COVID-19 from cache -->[\/vc_column_text][\/vc_accordion_tab][\/vc_accordion][\/vc_column][\/vc_row][vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; css=&#8221;.vc_custom_1592566737156{margin-top: 35px !important;padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px !important;padding-left: 2px !important;}&#8221; z_index=&#8221;&#8221;][vc_column]<a  itemprop=\"url\" href=\"\/products\/\" target=\"_self\"  class=\"qbutton  medium default\" style=\"margin: 0px 3px 3px 0px; \">Products<\/a><a  itemprop=\"url\" href=\"\/applications\/\" target=\"_self\"  class=\"qbutton  medium default\" style=\"margin: 0px 3px 3px 0px; \">Applications<\/a><a  itemprop=\"url\" href=\"http:\/\/www.tcd-applications.com\" target=\"_blank\"  class=\"qbutton  medium default\" style=\"margin: 0px 3px 3px 0px; \">Clinical Applications<\/a><a  itemprop=\"url\" href=\"\/en\/company\/references\/\" target=\"_self\"  class=\"qbutton  medium default\" style=\"margin: 0px 3px 3px 0px; \">Sales &amp; References<\/a>[vc_separator type=&#8221;transparent&#8221; up=&#8221;10&#8243; down=&#8221;10&#8243;][\/vc_column][\/vc_row]<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"<p>[vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; css=&#8221;.vc_custom_1587642648935{padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px !important;padding-left: 2px !important;}&#8221; z_index=&#8221;&#8221;][vc_column][vc_column_text] Literature [\/vc_column_text][vc_separator type=&#8221;small&#8221; position=&#8221;left&#8221; up=&#8221;24&#8243; down=&#8221;40&#8243;][\/vc_column][\/vc_row][vc_row css_animation=&#8221;&#8221; row_type=&#8221;row&#8221; use_row_as_full_screen_section=&#8221;no&#8221; type=&#8221;full_width&#8221; angled_section=&#8221;no&#8221; text_align=&#8221;left&#8221; background_image_as_pattern=&#8221;without_pattern&#8221; background_color=&#8221;#ffffff&#8221; padding_top=&#8221;0&#8243; padding_bottom=&#8221;95&#8243; padding=&#8221;2&#8243; css=&#8221;.vc_custom_1587642648935{padding-top: 2px !important;padding-right: 2px !important;padding-bottom: 2px&#8230;<\/p>\n","protected":false},"author":4,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"footnotes":""},"class_list":["post-20703","page","type-page","status-publish","hentry"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v26.0 (Yoast SEO v27.3) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>Literature DWL Doppler sonography TCD - Scientific reference publications<\/title>\n<meta name=\"description\" content=\"DWL Doppler sonography (TCD). 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