腰椎显微椎间盘切除术中的韧带皮瓣技术

IF 1 Q3 SURGERY JBJS Essential Surgical Techniques Pub Date : 2024-11-08 eCollection Date: 2024-10-01 DOI:10.2106/JBJS.ST.23.00049
Shanmuganathan Rajasekaran, Karthik Ramachandran, Rishi Mugesh Kanna, Ajoy Prasad Shetty
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Initial separation is made at the midline (where the flavum is very thin) with use of a no.-15-blade scalpel. The flap is elevated by detaching the ligamentum flavum between the lower border of the L5 lamina and sacrum with use of a 1-mm Kerrison rongeur. The detachment of the ligamentum flavum is performed carefully, preserving the attachments on the lateral border. Having a thin base allows the flap to be elevated and rotated, and the flap thus can be tucked into the muscle above the facet joint. The nerve root is retracted, and discectomy is performed according to the location and size of the disc. After achieving good hemostasis, the ligamentum flavum flap is gently rotated back to its normal position. In most cases, the flap can be returned back to its original position without any gap and without any need for suture. 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In a similar study, Özay et al. highlighted significant clinical improvement and reduced chances of postoperative epidural fibrosis in 51 patients who underwent the ligamentum flavum flap technique<sup>3</sup>. Additionally, Li et al. showed that patient age and the area of the laminar space were the 2 important factors that determine the preservation of the ligamentum flavum, as the failure rate was significantly higher in elderly patients (>43.5 years) and those with small interlaminar space (<1.95 cm<sup>2</sup>). 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引用次数: 0

摘要

背景:显微椎间盘切除术一直是治疗腰椎间盘突出症的金标准技术。显微椎间盘切除术后症状缓解不理想的一个潜在原因是术后硬膜外纤维化1。通过使用黄韧带瓣技术保留黄韧带可减少术后硬膜外纤维化,从而获得良好的长期预后:使用标准显微外科方法暴露手术侧的 L5-S1 椎间隙,并确认其水平。使用牙钳绷紧黄韧带,抓住表层,并在外侧创建一个基底皮瓣。使用 15 号手术刀在中线(黄韧带非常薄的地方)进行初步分离。使用 1 毫米的 Kerrison 打孔器,在 L5 椎板下缘和骶骨之间分离黄韧带,从而抬高皮瓣。分离黄韧带时要小心谨慎,保留侧缘的附着物。由于基底较薄,皮瓣可以被抬高和旋转,因此可以将皮瓣塞入面关节上方的肌肉中。牵开神经根,根据椎间盘的位置和大小进行椎间盘切除术。止血良好后,将黄韧带瓣轻轻旋转回正常位置。在大多数情况下,黄韧带瓣可以无缝隙地回到原来的位置,无需缝合。缝合是分层进行的:80%以上的椎间盘突出症患者都能通过非手术治疗很好地缓解疼痛。然而,如果需要手术治疗,外科医生最关心的问题是如何防止术后神经根周围出现疤痕和纤维化。以前为减轻这种潜在并发症所做的尝试主要是在神经根上放置皮下脂肪移植,但目前还没有确切的证据支持这种技术。也曾使用过膨体聚四氟乙烯、Adcon-L 凝胶(莱特医疗技术公司)和透明质酸钠等合成材料来防止硬膜外瘢痕形成;但黄韧带是一种天然的生物解决方案:理由:由于切除黄韧带或炎症造成的死腔可能会导致术后纤维化。使用黄韧带技术恢复原生组织解剖结构可防止纤维化,这在之前已有报道。除了减少疤痕形成外,保留黄韧带还能使翻修手术(很少需要)更加安全,因为硬膜外纤维化或神经根疤痕较少或没有:接受该手术的患者在术后近期和长期随访中,奥斯韦特里残疾指数(ODI)均有良好改善,视觉模拟量表(VAS)疼痛评分也有明显降低。长期随访显示,硬膜外纤维化的几率明显降低。Li等人报告称,与对照组相比,接受黄韧带瓣技术的患者的VAS和ODI评分大大降低,术后6个月硬膜外纤维化的程度也明显降低2。在一项类似的研究中,Özay 等人强调了 51 名接受黄韧带瓣技术治疗的患者临床症状明显改善,术后硬膜外纤维化的几率降低3。此外,Li 等人的研究表明,患者年龄和层间隙面积是决定黄韧带保留的两个重要因素,因为老年患者(>43.5 岁)和层间隙小的患者失败率明显更高(2)。在保留黄韧带的患者中,ODI 和 VAS 评分明显改善,通过静脉注射碘帕米多进行的计算机断层扫描(CT)评估显示,纤维化的形成明显减少4:正确设置手术显微镜和透视装置,以确保准确的起始点。在解剖的各个层面尽量少用烧灼器。使用 15 号手术刀切开黄韧带时,在浅层绷紧黄韧带。分离黄韧带时,安全地保留黄韧带外侧缘的附着物。止血后,对黄韧带进行适当的复位:ODI=奥斯韦特里残疾指数VAS=视觉模拟量表CT=计算机断层扫描LF=韧带瓣SLRT=直腿抬高试验AP=前胸MRI=磁共振成像ASIS=髂前上棘CSF=脑脊液。
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Ligamentum Flavum Flap Technique in Lumbar Microdiscectomy.

Background: Microdiscectomy has been the gold-standard technique for the treatment of lumbar disc herniation. A potential reason for suboptimal symptom resolution following microdiscectomy is postoperative epidural fibrosis1. Preservation of the ligamentum flavum through the use of the ligamentum flavum flap technique reduces postoperative epidural fibrosis and leads to a favorable long-term prognosis.

Description: The L5-S1 interlaminar space on the operative side is exposed with use of a standard microsurgical approach, and the level is confirmed. The ligamentum flavum is held taut with use of tooth forceps, holding onto superficial layers, and a flap with its base on the lateral side is created. Initial separation is made at the midline (where the flavum is very thin) with use of a no.-15-blade scalpel. The flap is elevated by detaching the ligamentum flavum between the lower border of the L5 lamina and sacrum with use of a 1-mm Kerrison rongeur. The detachment of the ligamentum flavum is performed carefully, preserving the attachments on the lateral border. Having a thin base allows the flap to be elevated and rotated, and the flap thus can be tucked into the muscle above the facet joint. The nerve root is retracted, and discectomy is performed according to the location and size of the disc. After achieving good hemostasis, the ligamentum flavum flap is gently rotated back to its normal position. In most cases, the flap can be returned back to its original position without any gap and without any need for suture. Closure is performed in layers.

Alternatives: Nonoperative treatment yields good pain relief in more than 80% of patients with disc herniation. However, if surgery is required, the primary concern for the surgeon is the prevention of postoperative scarring and fibrosis around the nerve root. Previous attempts to mitigate this potential complication have revolved around the placement of a subcutaneous fat graft over the nerve root; however, no firm evidence exists to support this technique. Synthetic materials such as expanded polytetrafluoroethylene, Adcon-L gel (Wright Medical Technologies), and sodium hyaluronate have also been utilized to prevent epidural scarring; however, the ligamentum flavum is a natural biological solution.

Rationale: Postoperative fibrosis may occur if there is a dead space as a result of the excision of the ligamentum flavum or due to inflammation. Restoration of native tissue anatomy with use of the ligamentum flavum technique can prevent such fibrosis, as has been reported previously. In addition to reducing scar formation, preserving the ligamentum flavum can make revision surgery (which is rarely required) safer, as there is less or no epidural fibrosis or nerve root scarring.

Expected outcomes: Patients undergoing this procedure have shown good improvement in the Oswestry Disability Index (ODI) and a clinically notable reduction in visual analog scale (VAS) pain scores in the immediate postoperative period as well as on long-term follow-up. The chances of epidural fibrosis have been shown to be significantly decreased over long-term follow-up. Li et al. reported substantially lower VAS and ODI scores among patients who underwent the ligamentum flavum flap technique compared with a control group, as well as a significantly lower grade of epidural fibrosis at 6 months postoperatively2. In a similar study, Özay et al. highlighted significant clinical improvement and reduced chances of postoperative epidural fibrosis in 51 patients who underwent the ligamentum flavum flap technique3. Additionally, Li et al. showed that patient age and the area of the laminar space were the 2 important factors that determine the preservation of the ligamentum flavum, as the failure rate was significantly higher in elderly patients (>43.5 years) and those with small interlaminar space (<1.95 cm2). ODI and VAS scores were substantially better, and fibrosis formation, as assessed on computed tomography (CT) scans with intravenous iopamidol injection, was significantly reduced in patients with preserved ligamentum flavum4.

Important tips: Properly set up the operating microscope and fluoroscopy unit in order to ensure accurate starting points.Utilize minimal cautery at all levels of dissection.Hold the ligamentum flavum taut superficially while incising with use of a no.-15 scalpel.Detach the ligamentum flavum while safely preserving the attachments on the lateral border.Perform proper repositioning of the ligamentum flavum after achieving hemostasis.

Acronyms and abbreviations: ODI = Oswestry Disability IndexVAS = visual analog scaleCT = computed tomographyLF = ligamentum flapSLRT = straight leg raise testAP = anteroposteriorMRI = magnetic resonance imagingASIS = anterior superior iliac spineCSF = cerebrospinal fluid.

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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
22
期刊介绍: JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.
期刊最新文献
Bikini Incision Modification of the Direct Anterior Approach. Closed Intramedullary Pinning of Displaced Radial Neck Fracture (Metaizeau Technique). Flexible Intramedullary Nail Placement in Pediatric Humerus Fractures. Ligamentum Flavum Flap Technique in Lumbar Microdiscectomy. Surgery for Pediatric Trigger Finger.
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