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Radiofrequency thermocoagulation for the treatment of trigeminal neuralgia associated with a focal pontine lesion: illustrative case

Vadym Biloshytsky, Anna Skorokhoda, Inna Buvailo, and Maryna Biloshytska

Trigeminal neuralgia (TN) is a debilitating neurological condition with brief attacks of facial pain restricted to the trigeminal distribution and with an electric shock-like shooting, stabbing, or sharp quality. TN-associated pain is one of the most severe pains known, often referred to as “suicidal,” and is triggered by innocuous stimulation of the face and intraoral mucosa such as touching the face, talking, chewing, drinking, washing the face, shaving, etc. 1 , 2 TN etiology can be classified as classic, secondary, or idiopathic. The classic type

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Intraoperative application of indocyanine green and temporary venous occlusion test to assess collateral flow during microvascular decompression for venous-related trigeminal neuralgia: illustrative case

Kentaro Fujimoto, Yosuke Akamatsu, Yasumasa Nishikawa, and Kuniaki Ogasawara

Trigeminal neuralgia (TN) is caused by various types of compression from offending vessels, including arteries, veins, and nonvascular structures 1–4 such as venous angiomas or thickened arachnoids. 5 , 6 Of these, the involvement of the superior petrosal vein (SPV) and its branches in the etiology of TN has been reported in up to 15% of the cases, suggesting that vein-related TN is relatively common. 3 , 7–10 Although transposition of the offending vein is desirable during microvascular decompression (MVD) for vein-related TN, sacrificing the offending

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Trigeminal neuralgia caused by a persistent primitive trigeminal artery: preoperative three-dimensional multifusion imaging and computational fluid dynamics analysis. Illustrative case

Toru Satoh, Takao Yasuhara, Michiari Umakoshi, and Isao Date

Trigeminal neuralgia (TN) is mainly caused by compression of the trigeminal nerve by blood vessels at the site of neurovascular contact (NVC). 1 However, the detailed mechanism of its onset is unknown. The superior cerebellar artery (SCA), anterior inferior cerebellar artery, and basilar artery and veins are responsible for this condition. TN caused by the persistent primitive trigeminal artery (PTA) and its variants is extremely rare, accounting for 0.2%–0.6% of TN cases. 2 , 3 Herein, we describe a case of TN in which the PTA trunk was fused with the SCA

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Pterygoid venous plexus anastomosis in trigeminal percutaneous glycerol rhizotomy: illustrative case

Kevin Cordeiro, Jason Kim, Niall Buckley, Mark Kraemer, Conrad Pun, and Daniel Resnick

Percutaneous glycerol rhizotomy (PGR) is a safe and effective treatment for medication-refractory trigeminal neuralgia, 1 , 2 although it may lead to trigeminal distribution sensory loss. 3 , 4 Computed tomography (CT)-guided PGR has been shown to improve procedural efficiency, reduce operator radiation exposure, and allow definitive needle placement within the foramen ovale. 5 In addition to the foramen ovale, CT guidance allows the visualization of key skull base anatomy, such as the infratemporal fossa. 5 The infratemporal fossa houses the pterygoid

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Utilization of three-dimensional fusion images with high-resolution computed tomography angiography for preoperative evaluation of microvascular decompression: patient series

Takamitsu Iwata, Koichi Hosomi, Naoki Tani, Hui Ming Khoo, Satoru Oshino, and Haruhiko Kishima

Neurovascular compression syndromes, such as trigeminal neuralgia, hemifacial spasm, and glossopharyngeal neuralgia, are abnormal conditions that can substantially affect the quality of life of patients. 1–3 Microvascular decompression (MVD) is an effective surgical treatment for drug-resistant cases. 1–4 The overall success rate of MVD varies from 73% to 90%, and the most common complications include hearing loss, facial weakness or numbness, and cerebrospinal fluid leakage. 3 , 5 However, the success of MVD depends on accurate preoperative imaging and

Open access

Feasibility of targeting the cingulate gyrus using high-intensity focused ultrasound on a cadaveric specimen: illustrative case

Francesco Sammartino, James Mossner, Hunter Stecko, Nihaal Reddy, and Brian Dalm

. Monteith S Sheehan J Medel R , et al. Potential intracranial applications of magnetic resonance–guided focused ultrasound surgery: a review . J Neurosurg . 2013 ; 118 ( 2 ): 215 - 221 . 19. Yang JC Ginat DT Dougherty DD Makris N Eskandar EN . Lesion analysis for cingulotomy and limbic leucotomy: comparison and correlation with clinical outcomes . J Neurosurg . 2014 ; 120 ( 1 ): 152 - 163 . 20. Monteith SJ Medel R Kassell NF , et al. Transcranial magnetic resonance–guided focused ultrasound surgery for trigeminal neuralgia: a cadaveric and