Trigeminal neuralgia (TN) is a sudden, severe, brief, stabbing, and recurrent pain within one or more branches of the trigeminal nerve. Type 1 as intermittent and Type 2 as constant pain represent distinct clinical, pathological, and prognostic entities. Although multiple mechanism involving peripheral pathologies at root (compression or traction), and dysfunctions of brain stem, basal ganglion, and cortical pain modulatory mechanisms could have role, neurovascular conflict is the most accepted theory. Diagnosis is essentially clinically; magnetic resonance imaging is useful to rule out secondary causes, detect pathological changes in affected root and neurovascular compression (NVC). Carbamazepine is the drug of choice; oxcarbazepine, baclofen, lamotrigine, phenytoin, and topiramate are also useful. Multidrug regimens and multidisciplinary approaches are useful in selected patients. Microvascular decompression is surgical treatment of choice in TN resistant to medical management. Patients with significant medical comorbidities, without NVC and multiple sclerosis are generally recommended to undergo gamma knife radiosurgery, percutaneous balloon compression, glycerol rhizotomy, and radiofrequency thermocoagulation procedures. Partial sensory root sectioning is indicated in negative vessel explorations during surgery and large intraneural vein. Endoscopic technique can be used alone for vascular decompression or as an adjuvant to microscope. It allows better visualization of vascular conflict and entire root from pons to ganglion including ventral aspect. The effectiveness and completeness of decompression can be assessed and new vascular conflicts that may be missed by microscope can be identified. It requires less brain retraction.
Although endoscopic techniques have many advantages including improved visualization and magnification, they are also associated with limitations. The objective of this review is to discuss the practical aspects that can reduce complications after endoscopic procedures, and their management. The review is based on the personal experience of more than 2000 neuroendoscopic procedures performed by the senior author. Topic search was made on PubMed using Neuroendoscopy, complications and neuroendoscopy, complication avoidance and neuroendoscopy, endoscopic neurosurgery, and minimally invasive neurosurgery. Relevant articles were selected after analyzing abstracts and/or topics. Endoscopic procedures are also associated with limitations such as obstruction in instruments manipulation, steep learning curve, blind area, difficulty in visualization, disorientation, loss of stereoscopic image and others. Neuroendoscopy is distinct from microsurgery and the surgeon has to learn endoscopic skills in addition to microsurgical techniques. Difficulties in controlling bleeding, working in a limited area, higher complication rate during the initial learning curve and longer operative time are some of the limitations. Attending live workshops, practicing on models, and hands on cadaveric workshops can reduce the learning curve. Proper case selection, multidisciplinary team approach, watching operative video, visiting other departments, observing a skillful endoscopic surgeon, lab training, and simulators can improve results and shorten the learning curve. Limitations of this review are that the search is limited to the English literature and personal experience of a single surgeon that may create some bias. Although neuroendoscopic techniques are associated with improved results in some indications, they have many limitations. Neuroendoscopic skills need to be learned to improve results.
Posterior midline laminectomy is associated with risks of postoperative instability, spinal deformity, extensive bilateral subperiosteal muscle stripping, partial or total facetectomy especially in foraminal tumor extension, increased cerebrospinal fluid leakage, and wound infection. Minimally invasive approaches with the help of a microscope or endoscope using hemilaminectomy have been found to be safe and effective. We report our initial experience of 18 patients using the endoscopic technique. A retrospective study of intradural extramedullary tumors extending up to two vertebral levels was studied. Pre- and postoperative clinical status, magnetic resonance imaging was done in all patients. The Destandau technique was used, and resection of ipsilateral lamina, medial part of the facet joint, base of the spinous process, and undercutting of the opposite lamina was performed. Dura repair was done using an endoscopic technique. Fibrin glue was used to reinforce repair in the later part of the study. The sagittal and axial diameter of tumor ranged from 21 to 41 mm and 12 to 18 mm, respectively. There were four cervical, two cervicothoracic, five thoracic, three thoracolumbar, and four lumbar tumors, respectively. All 18 patients improved after total excision of tumor. Average duration of surgery and blood loss was 140 minutes and 60 mL, respectively. Postoperative stay and follow-up ranged from 3 to 7 days and 9 to 24 months, respectively. Although the study is limited by the small number of patients with a short follow-up and is a technically demanding procedure, endoscopic management of intradural extramedullary tumors was an effective and safe alternative technique to microsurgery in such patients.
Background Retraction of the overlying brain can be difficult without causing significant trauma when using traditional brain retractors with blades. These retractors may produce focal pressure and may result in brain contusion or infarction. Tubular retractors offer the advantage of low retracting pressure that is less likely to be traumatic. Low retraction pressure in the tubular retractor is due to the distribution of retraction force in all directions in a larger area. Material and Methods We conducted a retrospective study of 100 patients with deepseated tumors operated on from January 2010 to December 2014. Tumor removal was accomplished with the help of a microscope and/or endoscope. Tubular brain retractors sizes 23, 18, and 15 mm were used. Folding of the tubular retractor after making a longitudinal cut allowed a small corticectomy. Larger retractor sizes were used in the earlier part of the study and in larger tumors. All the patients were evaluated postoperatively by computed tomography scan on the first postoperative day, and subsequent scans were done as and when needed. Any brain contusion or infarctions and the amount of tumor removal were recorded. Results A total of 74 patients had astrocytomas; 12, meningiomas; 4, colloid cyst of the third ventricle; 4, metastases; 4, primitive neuroectodermal tumor; 1, neurocytoma; and 1, ependymoma. Pure endoscopic excision without using a microscope was performed in 12 patients. Lesions were in the frontal (n ¼ 34), parietal (n ¼ 22), intraventricular (n ¼ 16), basal ganglion or thalamic (n ¼ 14), occipital (n ¼ 10), and cerebellar (n ¼ 4) areas. Total, near-total, and partial excision was achieved in 49, 29, and 22 patients, respectively. Use of a conventional retractor for excision of peripheral and superficial parts of a large tumor, small brain contusions, and technical failure were observed in 7, 4, and 1 patient, respectively. The low incidence of contusion may be partly due to the nonavailability of magnetic resonance imaging in the early postoperative period because of financial constraints. Conclusion Removal of deep-seated tumors was safe and effective using our simple tubular retractor. It also helped minimize bleeding during surgery. A tubular brain retractor and conventional retractor can be used to complement each other if required.
Colloid cysts are usually located in third ventricle and are believed to be derived from either primitive neuroepithelium or endoderm. Patients may remain asymptomatic for long time while some can present with paroxysmal headache, gait disturbance, nausea, vomiting, behavioral changes, weaknesses of lower limbs, impaired memory, new learning disability and sudden death. Computed tomography usually reveals a well-defined round or oval nonenhancing lesion. Although magnetic resonance imaging (MRI) signal intensity of colloid cysts is variable, the most common appearance is hyperintensity in T1-weighted sequences and iso to hypointensity in T2-weighted sequences. Observation, stereotactic aspiration, microscopic or endoscopic approaches and shunt surgery are various management options. Transcallosal and transcortical microscopic (with or without tubular retractor) approaches are mainly useful in normal-sized and dilated ventricles respectively. Endoscopic technique is an effective alternative to microsurgical technique but total resection and long-term recurrence remains a concern. Utilization of two instruments, the bi port technique and tubular retractor can be helpful in selected patients to overcome limitations. Although total excision should be aimed, subtotal excision and coagulation of residual cyst wall usually results in good long-term results without any growth of remnant wall. Conversion to an open procedure may be required in some patients.KEywords: Central nervous system cyst, Central nervous system neoplasm, Colloid cyst, Nervous system diseases, Third ventricle ÖZKolloid kistler genellikle üçüncü ventrikülde bulunur ve primitif nöroepitel veya endodermden köken aldıklarına inanılmaktadır. Hastalar uzun süre belirtisiz kalabilirler veya durum paroksismal baş ağrısı, yürüme bozukluğu, bulantı, kusma, davranış değişiklikleri, alt ekstremitelerde kuvvetsizlik, hafıza kaybı, yeni şeyler öğrenme zorluğu ve ani ölümle ortaya çıkabilir. Bilgisayarlı tomografi genellikle iyi tanımlanmış yuvarlak veya oval, kontrast tutmayan bir lezyon gösterir. Kolloid kistlerin manyetik rezonans görüntüleme (MRG) sinyal şiddeti değişkendir ama en sık rastlanan görünüm T1 ağırlıklı dizilerde hiperintens ve T2 ağırlıklı dizilerde izo ila hipointenstir. Gözlem, stereotaktik aspirasyon, mikroskopik veya endoskopik yaklaşımlar ve şant cerrahisi çeşitli tedavi seçenekleridir. Transkallosal ve transkortikal mikroskopik (tübüler retraktörle veya olmadan) yaklaşımlar temel olarak sırasıyla normal büyüklükte ve dilate ventriküllerde faydalıdır. Endoskopik teknik, mikrocerrahi tekniğe etkin bir alternatiftir ama total rezeksiyon imkanı ve uzun dönemde nüks olasılığı endişe yaratmaya devam etmektedir. İki alet kullanımı, iki portlu teknik ve tübüler retraktör bazı hastalarda sınırlamaları aşmak açısından faydalı olabilir. Total eksizyon hedeflenmelidir ama subtotal eksizyon ve kalan kist duvarının eksizyonu genellikle kalan duvarda bir büyüme olmadan uzun dönemli iyi sonuçlar verir. Bazı hastalarda açık cerrahiye dönmek de gerek...
Microneurosurgical operations differ from other surgery. Longer operative time, narrow and deep-seated operative corridors, hand-eye coordination, fine manipulation, and physiologic tremor present special problems. Proper understanding of visual feedback, control of physiologic tremor, better instrument design, and development of surgical skills with better precision is important for optimal surgical results. Using the pen-type precision grip with well-supported arm, wrist, hand, and fingers avoids fatigue and improves precision. Proper instrument design, patient positioning, hemostasis techniques, tilting operative table, good operative microscope, an adjustable chair, careful use of suction tube, bipolar forceps, and brain retraction play important roles in microneurosurgery. Sufficient clinical case volume or opportunity during routine operative hours may not be available in the beginning for young neurosurgeons; microsurgical training using various models can enable them to gain experience. Training models using deep-seated and narrow operative corridors, drilling, knot-tying technique, and anastomosis using fine sutures under high magnification can be practiced for skill improvement. Training laboratory and simulation modules can be useful for resident training and skill acquisition. Indigenously made inexpensive models and comparatively less expensive microscopes can be used in resource-constrained situations. The maintenance of microsurgical ability should be preserved by staying active in operative practice. The knowledge of ergonomics, proper training, observing hand movements of skillful surgeons, and the use of operative videos can improve skill. Endoscopic assistance, computer-assisted robot hand technique, and microtechnology can provide access to the smallest areas of the body.
Background Twist drill evacuation, burr hole aspiration, mini-craniotomy, and craniotomy are some of the surgical methods to remove chronic subdural hematoma (CSDH). Endoscopic treatment was also recently found to be useful. Methods We conducted a prospective study of 72 hematomas in 68 patients. Computed tomography was performed in all cases. Endoscopic surgery was performed in all CSDH patients. Surgical procedure A 4-cm skin incision was performed at the most curved part of skull with the CSDH. A mini-craniotomy or enlarged burr hole was made. The inner and outer table of the burr hole margin was drilled to provide a straight trajectory to the hematoma cavity. An endoscope supported by a telescope holder was used. A modified silicone brain retractor was used in five patients. A subgaleal drain was left in all patients for 3 to 5 days. Results There were 42 male and 26 female patients. The age ranged from 45 to 79 years (average: 69 years). All patients had a history of head trauma. Preoperative average Glasgow Coma Scale Score was 14. The procedure was effective in hematoma evacuation and a good visualization of the whole cavity in all patients. The endoscopic technique helped in complete hematoma removal in organized/solid clot, septations, and bridging vessels in 17, 2, and 2 cases, respectively. Duration of surgery ranged from 35 to 80 minutes. One death occurred. There was no recurrence, infection, fresh bleed, or injury to the brain or membrane. Conclusion The endoscopic technique is an effective alternative technique for treating CSDH. Although the study has limitations because of the small number of patients with a short follow-up, the study indicated that thick and vascular membranes, septations, and organized and solid clots can be removed effectively using this technique.
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