scholarly journals Microvascular Decompression by Interposition Method for Treatment of Trigeminal Neuralgia Due to Vertebrobasilar Dolichoectasia: A Retrospective Single-Center Study

2021 ◽  
Author(s):  
Feng Yu ◽  
Jia Yin ◽  
Pei-gang Lu ◽  
Zhen-yu Zhao ◽  
Yong-qiang Zhang ◽  
...  
Keyword(s):  
Trigeminal Neuralgia ◽  
Microvascular Decompression ◽  
Long Term Results ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Symptom Duration ◽  
Free Survival ◽  
Kaplan Meier ◽  
Vertebrobasilar Dolichoectasia ◽  
Cerebellar Artery

Abstract Trigeminal neuralgia (TN) due to vertebrobasilar dolichoectasia (VBD) is a rare disease that can be challenging to treat. The objectives of this study are to investigate the characteristics of patients with TN due to VBD and to analyze the efficacy of microvascular decompression (MVD) by the interposition method for treatment of the condition. From 2010 till 2020, the data of 30 patients with TN due to VBD who were treated with MVD by the interposition method were analyzed retrospectively. The characteristics of the patients were compared with those of patients with non-VBD TN (n = 815). Kaplan–Meier survival analysis was performed to determine pain-free survival. The 30 patients (21 males, 9 females; mean age, 63.03 years) accounted for 3.55% of all patients with TN during the study period. In 30 patients, the offending vessel was the basilar artery (BA) in 1 patient, the vertebral artery (VA) in 6 patients, the VA plus the superior cerebellar artery (SCA) in 6 patients, the VA plus the anterior inferior cerebellar artery (AICA) in 12 patients, and the VA+SCA+AICA in 5 patients. Compared to non-VBD TN patients, those with TN due to VBD were significantly more likely to be male, to have TN of the left side, and to have hypertension (all P < 0.001). Mean age at surgery (P = 0.057) and symptom duration (P = 0.308) were comparable between the two groups. All 30 patients had immediate relief of facial pain after MVD and could stop medication. There were no postoperative complications. Over mean follow-up of 76.67 months, 3 patients had recurrence. The mean duration of pain-free survival was 70.77 months. In conclusions, TN due to VBD appears to be more likely in males, in those with hypertension, and to involve the left side. The interposition method performed by experienced and skilled neurosurgeons is a safe and effective treatment for TN due to VBD. Further studies are needed to analyze the associated long-term results and the pain recurrence rate among this special population.

scholarly journals Retrosigmoid Craniotomy for the Removal of Left Sided Tentorial and Posterior Fossa Meningioma Combined with Microvascular Decompression for Hemifacial Spasm

2018 ◽  
Vol 80 (S 03) ◽  
pp. S294-S295
Author(s):  
Yu-Wen Cheng ◽  
Chun-Yu Cheng ◽  
Zeeshan Qazi ◽  
Laligam N. Sekhar
Keyword(s):  
Facial Nerve ◽  
Hemifacial Spasm ◽  
Microvascular Decompression ◽  
Preoperative Imaging ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Root Exit Zone ◽  
Tentorial Meningioma ◽  
Cerebellar Artery ◽  
The Right

This 68-year-old woman presented with repeated episodes of bilateral hemifacial spasm with headache for 5 years and with recent progression of left sided symptoms. Preoperative imaging showed a left sided tentorial meningioma with brain stem and cerebellar compression. Left facial nerve was compressed by the vertebral artery (VA) and the right facial nerve by the anterior inferior cerebellar artery (AICA). This patient underwent left side retrosigmoid craniotomy and mastoidectomy. The cisterna magna was drained to relax the brain. The tumor was very firm, attached to the tentorium and had medial and lateral lobules. The superior cerebellar artery was adherent to the lateral lobule of the tumor and dissected away. The tumor was detached from its tentorial base; we first removed the lateral lobule. Following this, the medial lobule was also completely dissected and removed. The root exit zone of cranial nerve (CN) VII was dissected and exposed. The compression was caused both by a prominent VA and AICA. Initially, the several pieces of Teflon felt were placed for the decompression. Then vertebropexy was performed by using 8–0 nylon suture placed through the VA media to the clival dura. A further piece of Teflon felt was placed between cerebellopontine angle region and AICA. Her hemifacial spasm resolved postoperatively, and she discharged home 1 week later. Postoperative imaging showed complete tumor removal and decompression of left CN VII. This video shows the complex surgery of microsurgical resection of a large tentorial meningioma and microvascular decompression with a vertebropexy procedure.The link to the video can be found at: https://youtu.be/N5aHN9CRJeM.

scholarly journals Microvascular Decompression for Trigeminal Neuralgia: Our Experiences at Bir Hospital

2017 ◽  
Vol 14 (2) ◽  
pp. 3-7
Author(s):  
Gopal R Sharma ◽  
Rajiv Jha ◽  
Prakash Poudel ◽  
Dhrub R Adhikari ◽  
Prakash Bista
Keyword(s):  
Pain Relief ◽  
Trigeminal Neuralgia ◽  
Medical Treatment ◽  
Treatment Options ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Recurrent Pain ◽  
Cerebellar Artery

Trigeminal neuralgia (TGN) is a very peculiar disease, mostly characterized by unilateral paroxysmal facial pain, often described by patient as ‘one of the worst pain in my life’. This condition is also known as ‘Tic Douloureus’. The annual incidence of TN is about 4.7/100000 population, male and female are equally affected. The diagnosis is usually made by history, clinical fi ndings and cranial imaging is required to rule out compressing vascular loop, organic lesions and Multiple Sclerosis (MS) at Trigeminal nerve (TN). Treatment of TGN ranged from medical to surgical intervention. Between September 2007 and April 2015, 20 patients underwent micro vascular decompression (MVD) of TN for TGN who were refractory to medical treatment at department of Neurosurgery, Bir Hospital. All decompressions were performed using operating microscope. Follow up period ranged from 22 months to 8 years.There were 9 males and 11 females and age ranged from 30-70 years. The neuralgic pain was localized on right side in 13 patients and left on 7 patients. Pain distribution was on V3 (mandibular branch) dermatome in 11, V2( Maxillary branch ) in 4, V2-3 in 2 and V1- 2-3 in 3 patients respectively. On intraoperative fi ndings TN was compressed by superior cerebellar artery ( SCA ) in 8, tumors in 4, unidentifi ed vessels in 3, veins in 2, anterior inferior cerebellar artery ( AICA ) in 1 and no cause was found in 2 patients. 7 patients suffered postoperative complications which included hyposthesia in 3, pseudomeningocele in 3 and meningitis in 1. There was no mortality in this series. 20 patients felt pain relief immediately after procedure and 1 patients came after 3 years with recurrent pain requiring second surgery. In conclusion, MVD for TGN in younger patients who are refractory to medical treatment is one of the best treatment options which is safe and long term pain relief is achieved in majority of cases.Nepal Journal of Neuroscience, Vol. 14, No. 2,  2017 Page:11-15

On the Surgical Implications of Peritrigeminal Perforating Vessels in Microvascular Decompression

2018 ◽  
Vol 17 (2) ◽  
pp. 193-201 ◽  
Author(s):  
Paolo di Russo ◽  
Tao Xu ◽  
Michael A Cohen ◽  
Paolo Perrini ◽  
Philip E Stieg ◽  
...  
Keyword(s):  
Microvascular Decompression ◽  
Cerebellopontine Angle ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Type I ◽  
Microsurgical Anatomy ◽  
Type Ii ◽  
Parent Vessel ◽  
Cerebellar Artery ◽  
Trigeminal Root

Abstract BACKGROUND Perforating branches arising from the superior cerebellar artery (SCA) or anterior inferior cerebellar artery (AICA) that pierces the brainstem within 5 mm of the trigeminal root may limit offending vessel transposition during microvascular decompression for trigeminal neuralgia. OBJECTIVE To investigate the microsurgical anatomy of peritrigeminal perforators and evaluate their effect on the mobility of the SCA and AICA. Additionally, we propose strategies for mitigating the potential complications caused by the presence of short peritrigeminal perforators. METHODS Retrosigmoid approaches and exposure of the upper cerebellopontine angle were performed on 11 cadaveric heads (22 sides). The number, origin, and course of perforators were recorded and each was classified as either type I, short straight (<3 mm); type II, long straight perforators (>3 mm); or type III, long circumflex (>3 mm). Transposition of each SCA and AICA away from trigeminal nerve was performed, and degree of mobilization was evaluated and graded. RESULTS A total of 123 perforators were identified, of which 44 were considered peritrigeminal. Of these, 19 arose from the AICA, 18 from the SCA, and 7 from the basilar artery. Type I peritrigeminal perforators were the most common at 77.3%. Transposition or interposition of the parent vessel was not possible in 8 (47.1%) instances. CONCLUSION Identification of inhibiting perforators is essential before performing microvascular decompression to avoid ischemic injury to the brainstem. The presence of type I perforators may necessitate extensive arachnoid dissection and use of an interpositioning technique with minimal repositioning of the offending vessel.

scholarly journals Analysis of Failed Microvascular Decompression in Patients with Trigeminal Neuralgia

2019 ◽  
Vol 81 (05) ◽  
pp. 567-571
Author(s):  
Zhenyu Huang ◽  
Benfang Pu ◽  
Fusheng Li ◽  
KaiZhang Liu ◽  
Chunhui Hua ◽  
...  
Keyword(s):  
Trigeminal Neuralgia ◽  
Microvascular Decompression ◽  
Symptom Relief ◽  
Superior Cerebellar Artery ◽  
Complete Relief ◽  
Cerebellar Artery ◽  
Definitive Therapy ◽  
Primary Trigeminal Neuralgia ◽  
Early Reoperation

Background Microvascular decompression (MVD) has been widely accepted as a definitive therapy for primary trigeminal neuralgia (TN). However, some patients may not experience relief of TN symptoms following surgery. In this study, the findings of redo MVD are discussed.Methods Between 2015 and 2017, 205 patients with primary TN underwent MVD surgery in Shanghai Tongren Hospital. Among these patients, 187 had immediate complete relief of symptoms, 8 improved apparently, and 10 reported no symptom relief. Of the 10 patients without relief, 6 underwent reoperation within 5 days, 2 underwent reoperation 3 months after the first procedure, and 2 refused to undergo reoperation.Results The symptoms of those patients who received reoperation disappeared immediately after the surgery. In the second operations, new conflict sites at the motor roots were found in five cases. The real offending vessels were the superior cerebellar artery (SCA) or branch of the SCA in seven cases and the petrosal vein in one case. The nerve was not decompressed completely in either of the two cases. At the 12-month follow-up, no recurrence was found. For the other two patients who did not have reoperation, their symptom persisted. Postoperative complications showed no significant differences between the first and second operations.Conclusion Compression of the motor roots might be one of the causes of TN. Thorough exploration of both sensory and motor roots of the trigeminal nerve is essential to performing a successful MVD operation. Early reoperation for resistant TN after MVD does not increase the incidence of complications.

scholarly journals Long-Term Retrospective Analysis of Microvascular Decompression in Patients With Recurrent Trigeminal Neuralgia

2020 ◽  
Vol 11 ◽  
Author(s):  
Jiayu Liu ◽  
Guangyong Wu ◽  
Hui Xiang ◽  
Ruen Liu ◽  
Fang Li ◽  
...  
Keyword(s):  
Trigeminal Neuralgia ◽  
Microvascular Decompression ◽  
Free Survival ◽  
Recurrent Group ◽  
Kaplan Meier ◽  
Vertebrobasilar Artery ◽  
Surgical Methods ◽  
First Onset

Objective: To explore the clinical characteristics of patients with recurrent trigeminal neuralgia (TN) and the experience of microvascular decompression (MVD) in the treatment of such patients.Methods: We retrospectively analyzed clinical data, imaging examination results, surgical methods, and treatment efficacies in 127 patients with recurrent typical TN from January 2005 to December 2014.Results: The age of the recurrent group was higher than that of the non-recurrent group (p &lt; 0.05). The duration of pain before the first MVD procedure was longer in the recurrent group than in the non-recurrent group (p &lt; 0.05). Patients in the recurrent group were more likely to have compression of the trigeminal nerve by the vertebrobasilar artery (VBA) or multiple vessels than patients in the non-recurrent group (p &lt; 0.05). A Kaplan–Meier curve showed a median pain-free survival of 12 months after the first MVD procedure. The severity of pain (preoperative visual analog scale [VAS] score) in patients with recurrence was lower than that in patients with first-onset TN (p &lt; 0.05). Vessel compression, Teflon compression or granuloma and arachnoid adhesion were considered the main causes of recurrence. Postoperative Barrow Neurological Institute (BNI) scores in the redo MVD group were excellent (T = 2) for 69 patients (53.33%) and good (T = 3) for 46 patients (36.22%). The postoperative follow-up was 63–167 months (105.92 ± 25.66). During the follow-up, no recurrence was noted. All complications were cured or improved.Conclusions: Microvascular decompression (MVD) is an effective surgical method for the treatment of TN. For recurrent patients, reoperation can achieve good results.

Use of the Arachnoid Membrane of the Cerebellopontine Angle to Transpose the Superior Cerebellar Artery in Microvascular Decompression for Trigeminal Neuralgia: Technical Note

2010 ◽  
Vol 66 (suppl_1) ◽  
pp. ons-88-ons-91 ◽  
Author(s):  
Miran Skrap ◽  
Francesco Tuniz
Keyword(s):  
Pain Relief ◽  
Trigeminal Neuralgia ◽  
Trigeminal Nerve ◽  
Microvascular Decompression ◽  
Cerebellopontine Angle ◽  
Technical Note ◽  
Superior Cerebellar Artery ◽  
Arachnoid Membrane ◽  
Recurrent Pain ◽  
Cerebellar Artery

Abstract Background: Microvascular decompression is an accepted, safe, and useful surgical technique for the treatment of trigeminal neuralgia. Autologous muscle or implant materials such as shredded Teflon are used to separate the vessel from the nerve but may occasionally be inadequate, become displaced or create adhesions and recurrent pain. Objective: The authors evaluated the use of arachnoid membrane of the cerebellopontine angle to maintain the transposition of vessels from the trigeminal nerve. Methods: The authors conducted a retrospective review of microvascular decompression operations in which the offending vessel was transposed and then retained by the arachnoid membrane of the cerebellopontine cistern, specifically by the lateral pontomesenchepalic membrane. Results: This technique was used in 30 patients of the most recently operated series. Postoperatively, complete pain relief was achieved in 90% of the patients without any observed surgical complications. Conclusion: To the authors’ knowledge this is the first report in which the arachnoid membrane is used in the microvascular decompression of the trigeminal nerve. While this technique can be used only for selected cases, the majority of the vascular compressions on the trigeminal nerve are due to the SCA, so this sling transposition technique can be useful and effective.

Microsurgical relationships of the superior cerebellar artery and the trigeminal nerve

1978 ◽  
Vol 49 (5) ◽  
pp. 669-678 ◽  
Author(s):  
David G. Hardy ◽  
Albert L. Rhoton
Keyword(s):  
Trigeminal Neuralgia ◽  
Trigeminal Nerve ◽  
Operative Therapy ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Content Type ◽  
Cerebellar Artery ◽  
Trigeminal Nerves ◽  
Relationship Of ◽  
The Relationship

✓ Compression and distortion of the trigeminal nerve by a tortuous and elongated superior cerebellar artery (SCA) is postulated to be a frequent cause of trigeminal neuralgia. This theory and the use of operative therapy in which the offending arterial loop is separated from the trigeminal nerve has created a need for more detailed information on the relationship of the SCA and the trigeminal nerve. In order to meet this need, 50 trigeminal nerves and the adjacent SCA were examined in 25 adult cadavers. Twenty-six of the 50 nerves examined had a point of contact with the SCA, but it was uncommon for the arterial contact to produce distortion of the nerve. In six instances, the contact was at the pontine entry zone of the trigeminal nerve, the site of arterial compression postulated to be associated with trigeminal neuralgia. Four trigeminal nerves (8%) had a point of contact with the anterior inferior cerebellar artery (AICA). The fact that large arteries are commonly in contact with the trigeminal nerve is important not only because of the controversial relationship of neurovascular contact to trigeminal neuralgia, but because of the possibility that major vessels may be encountered and injured during rhizotomy and other posterior fossa operations on the trigeminal nerve.

Microvascular Relations of the Trigeminal Nerve: An Anatomical Study

Neurosurgery ◽  
1986 ◽  
Vol 19 (4) ◽  
pp. 535-539 ◽  
Author(s):  
Boris Klun ◽  
Borut Prestor
Keyword(s):  
Trigeminal Neuralgia ◽  
Anatomical Study ◽  
Superior Cerebellar Artery ◽  
Anterior Inferior Cerebellar Artery ◽  
Marked Contrast ◽  
Entry Zone ◽  
Root Entry Zone ◽  
Cerebellar Artery ◽  
History Of ◽  
Trigeminal Root

Abstract The neurovascular relationships in the trigeminal root entry zone were studied in 130 trigeminal root entry zones of 65 cadavers. No history of facial or trigeminal pain had been obtained during life in these subjects. The technique of intravascular injection, which allowed good visualization and evaluation of the neurovascular relationships, is described. A total of 42 examples of contact with the root entry zone and 10 examples of compression were identified. In 30 of the examples of contact, the finding could be related to an artery; in the other examples, it appeared to be due to veins. Of the arterial compressions, the superior cerebellar artery was responsible in 53.8%, the anterior inferior cerebellar artery was responsible in 25.6%, and pontine branches of the basilar artery were responsible for the remaining 20.6%. Only one instance of unequivocal compression by a vein was found. Other anatomical observations of interest are reported. The absence of a history of trigeminal neuralgia in the 7% of examined nerves in which root entry zone showed arterial compression is in marked contrast to the finding of 80% or more in the operative series for trigeminal neuralgia. It seems that vascular compressions may be the predominant but not the sole cause of trigeminal neuralgia.

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