Fenestration of the vertebrobasilar junction detected with multidetector computed tomography angiography
Autor: | Lelika Lazarus, Kapil S. Satyapal, I G Moodley, R Harrichandparsad, B R Omotoso |
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Rok vydání: | 2020 |
Předmět: |
Male
medicine.medical_specialty Histology Vertebral artery medicine.artery Vertebrobasilar ischemia Multidetector computed tomography Multidetector Computed Tomography medicine Basilar artery Prevalence Humans cardiovascular diseases medicine.diagnostic_test business.industry Intracranial Aneurysm medicine.disease Cerebral Angiography medicine.anatomical_structure Angiography cardiovascular system Neuralgia Female Radiology Anatomy Fenestration business Neck Artery |
Zdroj: | Folia morphologica. 81(2) |
ISSN: | 1644-3284 |
Popis: | The complex embryonic origin of the vertebrobasilar system may result in a wide range of anatomical variations. It has been hypothesized that the formation of fenestrations are likely to occur due to the failure of regression of the bridging arteries that connect the longitudinal neural arteries during embryogenesis. Fenestration of the vertebrobasilar system is a rare anatomical variation that involves a luminal division of the artery, that has a single origin into two separate and parallel channels which are rejoined distally. Fenestrations are important anatomical variants in patients undergoing endovascular and invasive intracranial interventions. Vascular fenestration has been associated with aneurysms, arteriovenous malformations, neuralgia, and vertebrobasilar ischemia. We report on three cases of fenestration at the vertebrobasilar junction in one female and two male patients, respectively, using multidetector computed tomography angiography. The length of the fenestrated segment of the artery measured 4.41 mm, 3.90 mm, and 5.90 mm, respectively in the patients. Our report is clinically important as the presence of this anatomical variation may influence the management of cervical and intracranial pathologies. Increased awareness of the prevalence of anatomic variations contributes to the advancement of noninvasive imaging capabilities. |
Databáze: | OpenAIRE |
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