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Search Results (3)

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Keywords = vertebral artery loop

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10 pages, 1363 KB  
Case Report
Endoscopic Decompression of Radiculopathy Caused by Vertebral Artery Loop Formation: Case Report and Literature Review
by Tae Hoon Yang, In-Suk Bae, Hee In Kang, Jae Hoon Kim and Cheolsu Jwa
J. Clin. Med. 2026, 15(10), 3643; https://doi.org/10.3390/jcm15103643 - 9 May 2026
Viewed by 245
Abstract
Background: Cervical radiculopathy due to vertebral artery loop formation (VALF) is rare. This case demonstrates endoscopic posterior foraminotomy after failed conservative treatment. Methods: We report a case of VALF treated by means of uniportal full-endoscopic posterior foraminotomy. A focused narrative literature review identified [...] Read more.
Background: Cervical radiculopathy due to vertebral artery loop formation (VALF) is rare. This case demonstrates endoscopic posterior foraminotomy after failed conservative treatment. Methods: We report a case of VALF treated by means of uniportal full-endoscopic posterior foraminotomy. A focused narrative literature review identified prior surgical cases of VALF-related cervical radiculopathy. Case description: A 69-year-old woman had a 4-month right C5 radiculopathy (neck pain, arm radiation, Spurling-positive) due to VALF at C4-5, confirmed via MRI and CT angiography. After failed conservative treatment, full-endoscopic posterior foraminotomy was performed; the symptoms resolved at 3 months. Conclusions: Clinicians should be aware that vertebral artery loop formation, although rare, is an important potential cause of cervical radiculopathy. In suspected cases, the vertebral artery should be carefully evaluated with MR or CT angiography to confirm the presence of a loop formation. Full-endoscopic posterior foraminotomy may be technically feasible for carefully selected patients with VALF-related cervical radiculopathy, demonstrating short-term symptom improvement in this case. Full article
(This article belongs to the Section Clinical Neurology)
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15 pages, 1072 KB  
Review
The Anterior Inferior Cerebral Artery Variability in the Context of Neurovascular Compression Syndromes: A Narrative Review
by Dawid Kościołek, Mateusz Kobierecki, Mikołaj Tokarski, Konrad Szalbot, Aleksandra Kościołek, Mikołaj Malicki, Sora Wanibuchi, Karol Wiśniewski, Michał Piotrowski, Ernest J. Bobeff, Bartosz M. Szmyd and Dariusz J. Jaskólski
Biomedicines 2024, 12(2), 452; https://doi.org/10.3390/biomedicines12020452 - 17 Feb 2024
Cited by 5 | Viewed by 12064
Abstract
The anterior inferior cerebellar artery (AICA) is situated within the posterior cranial fossa and typically arises from the basilar artery, usually at the pontomedullary junction. AICA is implicated in various clinical conditions, encompassing the development of aneurysms, thrombus formation, and the manifestation of [...] Read more.
The anterior inferior cerebellar artery (AICA) is situated within the posterior cranial fossa and typically arises from the basilar artery, usually at the pontomedullary junction. AICA is implicated in various clinical conditions, encompassing the development of aneurysms, thrombus formation, and the manifestation of lateral pontine syndrome. Furthermore, owing to its close proximity to cranial nerves within the middle cerebellopontine angle, AICA’s pulsatile compression at the root entry/exit zone of cranial nerves may give rise to specific neurovascular compression syndromes (NVCs), including hemifacial spasm (HFS) and geniculate neuralgia concurrent with HFS. In this narrative review, we undertake an examination of the influence of anatomical variations in AICA on the occurrence of NVCs. Significant methodological disparities between cadaveric and radiological studies (CTA, MRA, and DSA) were found, particularly in diagnosing AICA’s absence, which was more common in radiological studies (up to 36.1%) compared to cadaver studies (less than 5%). Other observed variations included atypical origins from the vertebral artery and basilar-vertebral junction, as well as the AICA-and-PICA common trunk. Single cases of arterial triplication or fenestration have also been documented. Specifically, in relation to HFS, AICA variants that compress the facial nerve at its root entry/exit zone include parabola-shaped loops, dominant segments proximal to the REZ, and anchor-shaped bifurcations impacting the nerve’s cisternal portion. Full article
(This article belongs to the Section Neurobiology and Clinical Neuroscience)
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9 pages, 5780 KB  
Article
Microanatomic Morphometric Characteristics of the Third Ventricle Floor
by Marios Theologou, Konstantinos Kouskouras, Konstantinos Natsis, Panagiotis Varoutis, Eleni Zaggelidou and Christos Tsonidis
Brain Sci. 2023, 13(4), 580; https://doi.org/10.3390/brainsci13040580 - 29 Mar 2023
Cited by 5 | Viewed by 5043
Abstract
Background: Endoscopic third ventriculostomy (ETV) is an effective treatment for hydrocephalus. The in-depth understanding of microanatomy is essential for accurate diagnosis, treatment and complications prevention. The aim of this study is to supplement the knowledge gap regarding the microanatomical metrics and correlations [...] Read more.
Background: Endoscopic third ventriculostomy (ETV) is an effective treatment for hydrocephalus. The in-depth understanding of microanatomy is essential for accurate diagnosis, treatment and complications prevention. The aim of this study is to supplement the knowledge gap regarding the microanatomical metrics and correlations for which the literature includes only scarce mentions at best. Methods: This is a descriptive microanatomical study including 25 cadaver brains. Specimens from donors with neurological, psychiatric disorders or alcohol abuse were excluded. Surgical loops were used for harvesting. High-precision tools were employed to dissect and measure the anatomical landmarks under a surgical microscope. Each measurement was performed in three consecutive attempts and outliers were rejected. RStudio was used for statistical analysis. Distribution was evaluated employing the Shapiro–Wilk test. Normally distributed values were presented as mean and standard deviation, and others as median and interquartile range. Results: The age of the donors was 61.72 (±10.08) years. The distance from the anterior aspect of the foramen of Monro to the anterior margin of the mamillary body was 16.83 (±1.04) mm, and to the posterior margin was 16.76 (±1.9) mm. The distance from the anterior mamillary body margin to the infundibulum was 6.39 (±1.9) mm, to the optic recess was 8.25 (±1.84) mm, and to the apex of the vertebral artery was 5.05 (±1.62) mm. The distance from the anterior commissure to the brain aqueduct was 22.46 (±2.29) mm, and to the infundibulum was 13.93 (±2.54) mm. The mamillary body diameter was 4.91 (±0.34) mm in the anteroposterior and 4.21 (±0.48) mm in the cranio-caudal plane. The intraventricular segment was protruding by 1.63 (±0.46) mm. The diameter of the hypothalamus on the anterior margin of mamillary bodies was 1.37 (±0.75) mm, of the Liliequist membrane was 0.19 (±0.07) mm and of the lamina terminalis was 0.35 (±0.32) mm. Conclusion: The presented microanatomical measurements and correlations are expected to contribute to the improvement of ETV safety. Full article
(This article belongs to the Section Neurosurgery and Neuroanatomy)
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