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Extracranial Vertebral Artery (extracranial + vertebral_artery)
Selected AbstractsDual Origin Extracranial Vertebral Artery: Case Report and EmbryologyJOURNAL OF NEUROIMAGING, Issue 2 2008Ajith J. Thomas MD ABSTRACT Duplication of the vertebral artery origin is a rare vascular anomaly. The authors describe this finding in a patient who underwent neurointerventional treatment for a midbasilar aneurysm. The embryology and clinical significance is also presented. [source] Intravascular Ultrasound to Assess Extracranial Vertebral Artery Restenosis: Case ReportJOURNAL OF NEUROIMAGING, Issue 3 2008Rishi Gupta MD ABSTRACT We present a case report of a patient who developed restenosis 5 months after initial stent placement. computed tomography (CT) angiography revealed a 70% stenosis, while conventional angiography revealed a 40% stenosis. An intravascular ultrasound (IVUS) was used to assess the degree of narrowing along with the mechanism causing the stenosis. IVUS can be utilized to resolve discrepancies between imaging modalities for degree of stenosis and also aid in determining the mechanism of restenosis after stent placement in the extracranial vertebral arteries. [source] Extracranial Vertebral Artery InterventionJOURNAL OF INTERVENTIONAL CARDIOLOGY, Issue 6 2007DEBABRATA MUKHERJEE M.D. Atherosclerosis is the commonest cause of vertebral artery stenosis and has a predilection for the origin and proximal section of the extracranial portion of the vessel and also the intracranial portion of the vessel. Although it has generally been thought that extracranial vertebral artery (ECVA) disease has a more benign outcome compared to intracranial vertebral artery disease, significant occlusive disease of the proximal vertebral artery is the primary cause of vertebral artery ischemia in a significant proportion of patients. We focus on the interventional management of patients with proximal ECVA disease in this article. [source] New England medical center posterior circulation registryANNALS OF NEUROLOGY, Issue 3 2004Louis R. Caplan MD Among 407 New England Medical Center Posterior Circulation registry patients, 59% had strokes without transient ischemic attacks (TIAs), 24% had TIAs then strokes, and 16% had only TIAs. Embolism was the commonest stroke mechanism (40% of patients including 24% cardiac origin, 14% intraarterial, 2% cardiac and arterial sources). In 32% large artery occlusive lesions caused hemodynamic brain ischemia. Infarcts most often included the distal posterior circulation territory (rostral brainstem, superior cerebellum and occipital and temporal lobes); the proximal (medulla and posterior inferior cerebellum) and middle (pons and anterior inferior cerebellum) territories were equally involved. Severe occlusive lesions (>50% stenosis) involved more than one large artery in 148 patients; 134 had one artery site involved unilaterally or bilaterally. The commonest occlusive sites were: extracranial vertebral artery (52 patients, 15 bilateral) intracranial vertebral artery (40 patients, 12 bilateral), basilar artery (46 patients). Intraarterial embolism was the commonest mechanism of brain infarction in patients with vertebral artery occlusive disease. Thirty-day mortality was 3.6%. Embolic mechanism, distal territory location, and basilar artery occlusive disease carried the poorest prognosis. The best outcome was in patients who had multiple arterial occlusive sites; they had position-sensitive TIAs during months to years. Ann Neurol 2004;56:389,398 [source] Ultrasound contrast enhancing agents in neurosonology: principles, methods,future possibilitiesACTA NEUROLOGICA SCANDINAVICA, Issue 1 2000D. W. Droste Objectives, Ultrasound of the brain supplying arteries is a standard diagnostic procedure in patients with suspected and definite acute and chronic cerebrovascular occlusive disease. Anatomical and pathological limitations led to the development of echocontrast agents which are able to survive pulmonary and capillary transit and improve the echogenicity of the flowing blood. Material and Methods, This article reviews present and future applications of echocontrast agents in conjunction with personal experiences. Results, Currently, echocontrast is used for the differentiation of internal carotid artery occlusion and pseudoocclusion, better delineation of the maximal narrowing in high-grade stenoses, and better visualization of the extracranial vertebral artery and its collaterals. Transcranial applications include the insufficient foraminal or temporal window, assessment of arteriovenous malformations, thrombosis of cerebral veins and sinuses, and intracranial aneurysms. The use of echocontrast can have direct diagnostic and therapeutic consequences. Harmonic imaging, perfusion imaging, stimulated acoustic emission, and drug delivery are possible future domains of the technique. Discussion, Besides the support of conventional neurovascular ultrasound in poor examination conditions due to the patients' anatomy or pathology, echocontrast agents may allow for novel applications in the diagnosis and treatment of cerebrovascular patients. [source] | ||||||||||