观点:术中胸段/腰段脑脊液漏的及时诊断与修复
Perspective: Timely diagnosis and repair of intraoperative thoracic/lumbar cerebrospinal fluid (CSF) leaks.
作者信息
Epstein Nancy E, Agulnick Marc A
机构信息
Professor of Clinical Neurosurgery, School of Medicine, State University of NY at Stony Brook and Editor-in-Chief Surgical Neurology International NY, USA, and c/o Dr. Marc Agulnick, 1122 Franklin Avenue Suite 106, Garden City, NY, USA.
Assistant Clinical Professor of Orthopedics, NYU Langone Hospital, Long Island, NY, USA, 1122 Franklin Avenue Suite 106, Garden City, NY, USA.
出版信息
Surg Neurol Int. 2024 Jul 26;15:255. doi: 10.25259/SNI_509_2024. eCollection 2024.
BACKGROUND
Our review of 12 articles for this perspective showed the frequency of intraoperative thoracic and/or lumbar CSF fistulas/dural tears (DT) ranged from 2.6% - 8% for primary surgical procedures. Delayed postoperative CSF leak/DT were also diagnosed in 0.83% (17/2052 patients) to 14.3% (2/14 patients) of patients undergoing thoracic and/or lumbar procedures. Further, the rate of recurrent postoperative CSF leaks/DT varied from 13.3% (2/15 patients) to 33.3% (4/12 patients).
METHODS
Intraoperative, postoperative delayed, and recurrent postoperative traumatic postsurgical thorac CSF leaks/DT can be limited by performing initially sufficient operative decompressions and/or decompressions/fusions (i.e., utilizing adequate open exposures vs. inadequate minimally invasive (MI) approaches). The incidence of CSF leaks/DT can be further reduced by spine surgeons' utilization of operating microscopes, and their avoiding routine attempts at total synovial cyst excision and/or complete resection of hypertrophied/ossified yellow ligament in the presence of significant dural adhesions.
RESULTS
Multiple CSF leak/CT repair techniques included; using interrupted, non-resorbable sutures for direct dural repairs (i.e. 7-0 Gore-Tex sutures where the suture is larger than the needle thus plugging needle holes), and adding where needed muscle patch grafts, microfibrillar collagen, the rotation of Multifidus muscle pedicle flaps, fibrin sealants (FS)/fibrin glues (FG), lumbar drains (LD), and/or lumbo-peritoneal (LP) shunts.
CONCLUSION
Intraoperative, postopertive delayed, and/or recurrent postoperative thorac and/or lumbar traumatic surgical CSF leaks can be reduced by choosing to initially perform the appropriately extensive open operative decompressions and/or decompresssions/fusions. It is critical to use an operating microscope, non-resorbable interrupted sutures, and where necessary, muscle patch grafts, microfibrillar collagen, the rotation of Multifidus Muscle Pedicle Flaps, FS/FG, LD, and/or LP shunts.
背景
我们针对此观点对12篇文章进行的综述显示,在初次外科手术中,术中胸段和/或腰段脑脊液瘘/硬脑膜撕裂(DT)的发生率在2.6%至8%之间。在接受胸段和/或腰段手术的患者中,术后延迟性脑脊液漏/DT的诊断率也在0.83%(2052例患者中的17例)至14.3%(14例患者中的2例)之间。此外,术后复发性脑脊液漏/DT的发生率在13.3%(15例患者中的2例)至33.3%(12例患者中的4例)之间。
方法
术中、术后延迟性以及术后复发性创伤性手术后胸段脑脊液漏/DT可通过最初进行充分的手术减压和/或减压/融合来限制(即采用足够的开放暴露与不充分的微创(MI)方法相对比)。脊柱外科医生使用手术显微镜,并在存在明显硬脑膜粘连的情况下避免常规尝试完全切除滑膜囊肿和/或完全切除肥厚/骨化的黄韧带,可进一步降低脑脊液漏/DT的发生率。
结果
多种脑脊液漏/CT修复技术包括:使用间断的、不可吸收缝线进行直接硬脑膜修复(例如7-0 Gore-Tex缝线,其缝线比针大,从而堵塞针孔),并在需要时添加肌肉补片移植、微纤维胶原、多裂肌蒂瓣旋转、纤维蛋白密封剂(FS)/纤维蛋白胶(FG)、腰大池引流(LD)和/或腰大池-腹腔(LP)分流。
结论
通过选择最初进行适当广泛的开放手术减压和/或减压/融合,可减少术中、术后延迟性以及术后复发性胸段和/或腰段创伤性手术脑脊液漏。使用手术显微镜、不可吸收间断缝线,并在必要时使用肌肉补片移植、微纤维胶原、多裂肌蒂瓣旋转、FS/FG、LD和/或LP分流至关重要。
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