|Year : 2017 | Volume
| Issue : 2 | Page : 56-60
Minipterional craniotomy with transsylvian-transinsular approach for hypertensive putaminal hemorrhage: A preliminary report
Bon-Jour Lin1, Chiao-Zhu Li2, Tzu-Tsao Chung1, Chi-Tun Tang1, Dueng-Yuan Hueng1, Da-Tong Ju1, Hsin-I Ma1, Ming-Ying Liu1, Yuan-Hao Chen1
1 Department of Neurological Surgery, Tri-Service General Hospital, National Defense Medical Center, Taipei, Taiwan, R.O.C
2 Department of Neurological Surgery, Tri-Service General Hospital, National Defense Medical Center, Taipei; Department of Surgery, Kaohsiung Armed Forces General Hospital, Kaohsiung, Taiwan, R.O.C
|Date of Web Publication||21-Apr-2017|
Dr. Yuan-Hao Chen
Department of Neurological Surgery, Tri-Service General Hospital, No 325, Section 2, Cheng-Kung Road, Neihu 114, Taipei, Taiwan
Source of Support: None, Conflict of Interest: None
Background: There is no consensus regarding optimal treatment of spontaneous intracerebral hemorrhage (ICH) till date. The role of surgery in managing spontaneous ICH is debatable because of lacking clear benefit as compared to conservative treatment. The aim of this study is to assess the clinical efficacy of minipterional craniotomy in the treatment of hypertensive putaminal hemorrhage (HPH). Materials and Methods: From January 2015 to December 2015, four patients with large HPHs accepting minipterional craniotomies and transsylvian-transinsular (TS-TI) approaches were analyzed retrospectively in terms of hematoma evacuation rate, recovery of consciousness, and short-term functional prognosis. Results: The average volume of residual hematoma was 3.68 ml with 93.53% evacuation rate. There was no delayed hemorrhage or newly developed hypodense lesion on postoperative images. Three out of four patients got clear consciousness with improved muscle strength of involved limbs on discharge from our institute. The modified Rankin scale grades were 3 at 3 months postoperatively. Conclusions: Minipterional craniotomy with TS-TI approach is a feasible procedure for HPH in selected candidate. The recommendation of this procedure is due to satisfactory hematoma evacuation rate, minimal brain damage, and improved functional outcome.
Keywords: Minipterional, transsylvian-transinsular, hypertensive putaminal hematoma
|How to cite this article:|
Lin BJ, Li CZ, Chung TT, Tang CT, Hueng DY, Ju DT, Ma HI, Liu MY, Chen YH. Minipterional craniotomy with transsylvian-transinsular approach for hypertensive putaminal hemorrhage: A preliminary report. J Med Sci 2017;37:56-60
|How to cite this URL:|
Lin BJ, Li CZ, Chung TT, Tang CT, Hueng DY, Ju DT, Ma HI, Liu MY, Chen YH. Minipterional craniotomy with transsylvian-transinsular approach for hypertensive putaminal hemorrhage: A preliminary report. J Med Sci [serial online] 2017 [cited 2021 May 9];37:56-60. Available from: https://www.jmedscindmc.com/text.asp?2017/37/2/56/204982
| Introduction|| |
Hypertensive putaminal hemorrhages (HPHs), the most common location of spontaneous intracerebral hemorrhages (ICHs), often result in severe morbidity and high mortality rate. Although the role of surgery in treating spontaneous ICH is controversial, early surgery is beneficial in some selected subgroups. Among different surgical modalities for hematoma removal, transsylvian-transinsular (TS-TI) approach is surprising because of good functional prognosis as compared with transcortical approach.,, The clinical benefit of TS-TI approach is attributed to shorter intracerebral distance and minimal brain damage using Sylvian fissure as nature pathway to reach the insular cortex. However, complex vascular structure of Sylvian fissure and swollen brain parenchyma, secondary to mass effect of hematoma, may limit its clinical application.
The aim of this preliminary report is to investigate the clinical efficacy of modified TS-TI approach, minipterional craniotomy with TS-TI approach, in managing HPH.
| Materials and Methods|| |
The study was conducted in accordance with the Declaration of Helsinki and was approved by the local ethics committee of the institute. Informed written consent was obtained from all patients prior to their enrollment in this study.
From January 2015 to December 2015, 21 patients diagnosed with HPHs accepted surgical treatments in our institute. At the time of surgery, all patients had impairment of consciousness with focal neurological deficits. Among these people, four patients accepting minipterional craniotomies and TS-TI approaches for hematomas evacuation were reported retrospectively. The patient presenting with deep coma, fixed dilated pupil, vascular anomaly, or coagulopathy was excluded from candidate selection.
Clinical and radiographic assessments
The level of consciousness (Glasgow Coma Scale score), ICH score, and muscle strength grading (modified Medical Research Council system) of involved limbs were evaluated for each individual patient. Hematoma volume, calculated by utilizing computer-assisted volumetric analysis, and extent of midline shift were recorded from the preoperative computed tomography (CT) images. After emergency surgery, every patient was monitored in the Intensive Care Unit with targeted blood pressure management.
Postoperative CT scan was performed within 48 h to determine residual blood volume, hematoma evacuation ratio, and newly developed lesion. GCS score and muscle strength grading of involved limbs were assessed again while discharge. Evaluation of patient's functional independence was based on modified Rankin Scale at 3 months postoperatively.
The patient was placed supine with ipsilateral shoulder elevation. The patient's head was extended and tilted 30° away from the side of hematoma [Figure 1]a. Curved skin incision, about 5 cm, was made around the pterion and followed the lateral hairline curvature. After the elevation of myocutaneous flap, frontotemporal craniotomy was drilled with one bony flap 3 cm in diameter. The sphenoid bony ridge was flattened until exposure of meningo-orbital band as classical pterional approach. Dura was opened with T-shape incision [Figure 1]b.
|Figure 1: Illustration of one patient with left-sided hypertensive putaminal hemorrhage. (a) Head position of minipterional craniotomy. (b) Intraoperative finding before Sylvian fissure dissection. (c) Exposure of M1 and M2 segments of middle cerebral artery after Sylvian fissure splitting. (d) Small bony flap of minipterional craniotomy|
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We routinely opened the chiasmatic and carotid cisterns before splitting the Sylvian fissure. Then, the Sylvian fissure was opened from distal to proximal with accompanied mobilization of superficial Sylvian veins to the temporal side. The outside-in and inside-out technique, described by Yasagil, was used. Entire M1 and M2 segments of middle cerebral artery were exposed without any brain retraction after complete dissection of the Sylvian fissure [Figure 1]c.
Two large cotton balls were placed over insular surface between frontal and temporal opercula anteriorly and posteriorly. This step could establish larger working space with minimal usage of brain retractor. Linear incision over insular cortex was performed between superior and inferior trunks of an M2 segment of middle cerebral artery. Gentle suction and bipolar cautery were used for hematoma evacuation under microscope. Adequate hemostasis was achieved using offending vessels coagulation, Surgicel packing, and warm water irrigation.
At the end of the hematoma evacuation, we routinely performed external ventricular drainage on the lesion side. Watertight closure of dura and restoration of bone flap were performed before wound closure. The created bony defect was reconstructed by titanium mesh [Figure 1]d.
| Results|| |
The demographic data of individual patient are summarized in [Table 1]. This preliminary report included four male patients with age ranged from 52 to 57 years (mean, 54 years). Three patients had left-sided, and one patient had right-sided HPHs. Preoperative GCS score ranged from 7 to 12, and extent of midline shift ranged from 5.7 to 10.3 mm (mean, 8.1 mm).
|Table 1: Demographic data of four patients with hypertensive putaminal hemorrhages|
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The mean hematoma volume on preoperative CT scans was 63.85 ml. The average volume of residual hematoma on postoperative CT scans was 3.68 ml with 93.53% evacuation rate. Pre- and post-operative CT images for each individual patient are shown in [Figure 2]. The 8.71 ml residual hematoma in one patient was located on higher parietal region. No patient had delayed hemorrhage or newly developed hypodense lesion on the postoperative CT image.
|Figure 2: Pre- and post-operative computed tomography images of each individual patient|
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Three patients got clear consciousness with improved muscle strength of involved limbs on discharge from our institute. The modified Rankin Scale grades were 3 at 3 months postoperatively. One patient remained in a condition of lethargy with functional dependence at 3 months postoperatively.
| Discussion|| |
The role of surgical intervention for patients with spontaneous ICH is questionable until now., Although subgroup analysis of the STICH trial reported that some selected patients may be beneficial to surgery, there was no consensus regarding optimal management. Early removal of hematoma is helpful in reducing intracranial pressure and preventing secondary insults of blood clot.,,
Surgical managements of basal ganglia hematomas, the most common sites of hypertensive ICH, are classified into transsylvian and transcortical approaches. TS-TI approach for basal ganglion hematoma evacuation was reported first by Suzuki and Sato. In the recent years, several studies recommended TS-TI approach as effective surgical procedure to treat basal ganglion hematoma.,,,,,,, As compared with conservatively treated patients, those accepting TS-TI approaches had favorable prognosis., Usage of TS-TI approach was announced to be superior to conventional transcoritcal approach with better functional outcome.,, On the other hand, one study reported the same surgical results between transsylvian and transcortical approaches.
Transinsular approach can provide shorter intracerebral distance to target the hematoma, and the Sylvian fissure is the nature pathway to reach the insular cortex.
With adequate Sylvian fissure dissection, it is effective to widely expose the insular cortex without damage to the frontal or temporal cortex. TS-TI approach can avoid language or visual complication and postoperative cerebral edema, commonly associated with transcortical approach. Otherwise, TS-TI approach can easily detect and control lenticulostriate arteries, most common offending vessels, while comparing with the transcortical approach. Minipterional craniotomy is evidenced as an effective alternative of classic pterional craniotomy in some anterior circulation aneurysms surgeries., The advantages of minipterional craniotomy include shorter skin incision, less soft tissue trauma, smaller bone flap, and good cosmetic outcome. However, the role of minipterional craniotomy in the management of basal ganglion hemorrhage is not discussed by any previous study.
In this preliminary report, the surgical technique what we use is minipterional approach with TS-TI approach. This modification is considered as proximal TS-TI approach rather than distal TS-TI approach, usually used in previous studies. As compared with distal TS-TI approach, proximal TS-TI approach exposes more anterior and larger insular surface. Otherwise, it provides route to drain cerebrospinal fluid (CSF) from basal cisterns before Sylvian fissure splitting. Releasing CSF first is important to relax the brain, especially while facing tense brain parenchyma secondary to mass effect of hematoma. The compressed CSF space within the Sylvian fissure makes the dissection more difficult and increases the opportunity of unnecessary brain retraction. Larger exposure of insular surface and wider working space makes hematoma evacuation more quickly and safely.
The major advantage of proximal TS-TI approach over distal TS-TI approach is effective decrease of ICP by releasing CSF from basal cisterns with wider exposure of insular cortex and surgical field. On the other hand, the disadvantages of proximal TS-TI approach include more complex vascular structure over anterior insular surface and limited angle to more posterior and higher components of hematoma. Overall, this proximal TS-TI approach is a feasible and safe procedure for HPH. This preliminary report is a retrospective study with small patient population. In future, large patient populations and prospective studies are needed to confirm the clinical efficacy of minipterional craniotomy and TS-TI approach in HPH.
| Conclusions|| |
Minipterional craniotomy and TS-TI approach is the modification of distal TS-TI approach. In this preliminary report, we assess its clinical use in treating HPH with high evacuation rate of blood volume and good functional prognosis.
Declaration of patient consent
The authors certify that they have obtained all appropriate patient consent forms. In the form the patient(s) has/have given his/her/their consent for his/her/their images and other clinical information to be reported in the journal. The patients understand that their names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Ferro JM. Update on intracerebral haemorrhage. J Neurol 2006;253:985-99.
Mendelow AD, Gregson BA, Fernandes HM, Murray GD, Teasdale GM, Hope DT, et al.
Early surgery versus initial conservative treatment in patients with spontaneous supratentorial intracerebral haematomas in the international surgical trial in intracerebral haemorrhage (STICH): A randomised trial. Lancet 2005;365:387-97.
Xu T, Liu H, Peng L, Li H, Wang J, Jiang Y, et al.
Treatment efficacy of the transsylvian approach versus the transtemporal cortex approach to evacuate basal ganglia hematoma under a microscope. J Craniofac Surg 2016;27:308-12.
Zheng JS, Yang F, Xu QS, Yu JB, Tang LL. Treatment of hypertensive intracerebral hemorrhage through keyhole transsylvian approach. J Craniofac Surg 2010;21:1210-2.
Wang X, Liang H, Xu M, Shen G, Xu L. Comparison between transsylvian-transinsular and transcortical-transtemporal approach for evacuation of intracerebral hematoma. Acta Cir Bras 2013;28:112-8.
Fernandes HM, Mendelow AD. Spontaneous intracerebral haemorrhage: A surgical dilemma. Br J Neurosurg 1999;13:389-94.
Gregson BA, Mendelow AD; STICH Investigators. International variations in surgical practice for spontaneous intracerebral hemorrhage. Stroke 2003;34:2593-7.
Paillas JE, Alliez B. Surgical treatment of spontaneous intracerebral hemorrhage. Immediate and long-term results in 250 cases. J Neurosurg 1973;39:145-51.
Sussman BJ, Barber JB, Goald H. Experimental intracerebral hematoma. Reduction of oxygen tension in brain and cerebrospinal fluid. J Neurosurg 1974;41:177-86.
Antic B, Roganovic Z, Tadic R, Raicevic B. Indications for surgical treatment of hypertensive intracerebral supratentorial hematomas. Vojnosanit Pregl 1991;48:35-9.
Suzuki J, Sato S. The new transinsular approach to the hypertensive intracerebral hematoma. Jpn J Surg 1972;2:47-52.
Chen CH, Lee HC, Chuang HC, Chen CC, Lee WY, Huang YI, et al.
Transsylvian-transinsular approach for the removal of basal ganglia hemorrhage under a Modified Intracerebral Hemorrhage score. J Craniofac Surg 2013;24:1388-92.
Jianwei G, Weiqiao Z, Xiaohua Z, Qizhong L, Jiyao J, Yongming Q. Our experience of transsylvian-transinsular microsurgical approach to hypertensive putaminal hematomas. J Craniofac Surg 2009;20:1097-9.
Kaya RA, Türkmenoglu O, Ziyal IM, Dalkiliç T, Sahin Y, Aydin Y. The effects on prognosis of surgical treatment of hypertensive putaminal hematomas through transsylvian transinsular approach. Surg Neurol 2003;59:176-83.
Zhang HT, Chen LH, Xu RX. Distal transsylvian-traninsular approach for the putaminal hypertensive hemorrhages: Surgical experience and technical note. J Craniofac Surg 2013;24:2073-6.
Zhang Y, Ding W, Yang Y, Xu H, Xiong F, Liu C. Effects of transsylvian-transinsular approach to hypertensive putaminal hematoma operation and electroacupuncture on motor recovery. J Craniofac Surg 2011;22:1626-30.
Shin DS, Yoon SM, Kim SH, Shim JJ, Bae HG, Yun IG. Open surgical evacuation of spontaneous putaminal hematomas: Prognostic factors and comparison of outcomes between transsylvian and transcortical approaches. J Korean Neurosurg Soc 2008;44:1-7.
Caplan JM, Papadimitriou K, Yang W, Colby GP, Coon AL, Olivi A, et al.
The minipterional craniotomy for anterior circulation aneurysms: Initial experience with 72 patients. Neurosurgery 2014;10 Suppl 2:200-6.
Figueiredo EG, Deshmukh P, Nakaji P, Crusius MU, Crawford N, Spetzler RF, et al.
The minipterional craniotomy: Technical description and anatomic assessment. Neurosurgery 2007;61 5 Suppl 2:256-64.
[Figure 1], [Figure 2]