Regenerative Peripheral Nerve Interface (RPNI) Surgery for Mitigation of Neuroma and Postamputation Pain.

IF 1 Q3 SURGERY
JBJS Essential Surgical Techniques Pub Date : 2024-02-12 eCollection Date: 2024-01-01 DOI:10.2106/JBJS.ST.23.00009
Christine Sw Best, Paul S Cederna, Theodore A Kung
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引用次数: 0

Abstract

Background: A neuroma occurs when a regenerating transected peripheral nerve has no distal target to reinnervate. Symptomatic neuromas are a common cause of postamputation pain that can lead to substantial disability1-3. Regenerative peripheral nerve interface (RPNI) surgery may benefit patients through the use of free nonvascularized muscle grafts as physiologic targets for peripheral nerve reinnervation for mitigation of neuroma and postamputation pain.

Description: An RPNI is constructed by implanting the distal end of a transected peripheral nerve into a free nonvascularized skeletal muscle graft. The neuroma or free end of the affected nerve is identified, transected, and skeletonized. A free muscle graft is then harvested from the donor thigh or from the existing amputation site, and the distal end of each transected nerve is implanted into the center of the free muscle graft with use of 6-0 nonabsorbable suture. This can be done acutely at the time of amputation or as an elective procedure at any time postoperatively.

Alternatives: Nonsurgical treatments of neuromas include desensitization, chemical or anesthetic injections, biofeedback, transcutaneous electrical nerve stimulation, topical lidocaine, and/or other medications (e.g., antidepressants, anticonvulsants, and opioids). Surgical treatment of neuromas includes neuroma excision, nerve capping, excision with transposition into bone or muscle, nerve grafting, and targeted muscle reinnervation.

Rationale: Creation of an RPNI is a simple and reproducible surgical option to prevent neuroma formation that leverages several biologic processes and addresses many limitations of existing neuroma-treatment strategies. Given the understanding that neuromas will form when regenerating axons are not presented with end organs for reinnervation, any strategy that reduces the number of aimless axons within a residual limb should serve to reduce symptomatic neuromas. The use of free muscle grafts offers a vast supply of denervated muscle targets for regenerating nerve axons and facilitates the reestablishment of neuromuscular junctions without sacrificing denervation of any residual muscles.

Expected outcomes: Articles describing RPNI surgery for postamputation pain have shown favorable outcomes, with significant reduction in neuroma pain and phantom pain scores at approximately 7 months postoperatively4,5. Neuroma pain scores were reduced by 71% and phantom pain scores were reduced by 53%4. Prophylactic RPNI surgery is also associated with substantially lower incidence of symptomatic neuromas (0% versus 13.3%) and a lower rate of phantom limb pain (51.1% versus 91.1%)5 compared with the rates in patients who did not undergo RPNI surgery.

Important tips: Ask the patient preoperatively to point at the site of maximal tenderness, as this can serve as a guide for where the symptomatic neuroma may be located. The incision can be made either through the previous site of the amputation or directly over the site of maximal tenderness longitudinally. The pitfall of incising directly over the site is creating another incision with its attendant risk of wound infection.Excise the terminal neuroma with a knife until healthy-appearing axons are visualized.The free nonvascularized skeletal muscle graft can be obtained from local muscle (preferred) or from a separate donor site. A separate donor site can introduce donor-site morbidity and complications, including hematoma and pain.The harvested skeletal muscle graft should ideally be approximately 35 mm long, 20 mm wide, and 5 mm thick in order to ensure survivability and to prevent central necrosis. The harvesting can be performed with curved Mayo scissors.The peripheral nerve should be implanted parallel to the direction of the muscle fibers, and the epineurium should be secured to the free muscle graft at 1 or 2 places. One suture should be utilized to tack the distal end of the epineurium to the middle of the bed of the muscle graft. Another suture should be utilized to start the wrapping of the muscle graft around the nerve using a bite through the muscle, a bite through the epineurium of the proximal end of the nerve, and another bite through the other muscle edge in order to form a cylindrical wrap around the nerve.Wrap the entire muscle graft by taking only bites of muscle graft around the nerve to secure the muscle graft in a cylindrical structure using 2 to 4 more sutures.Avoid locating the RPNI near weight-bearing surfaces of the residual limb when closing. The RPNI should be in the muscular tissue, deep to the subcutaneous tissue and dermis.Do perform intraneural dissection for large-caliber nerves to create several (normally 2 to 4) distinct RPNIs, to avoid too many regenerating axons in a single free muscle graft.

用于缓解神经瘤和截肢后疼痛的再生性周围神经接口 (RPNI) 手术。
背景:当再生的横断周围神经没有远端靶点可重新支配时,就会出现神经瘤。无症状神经瘤是截肢后疼痛的常见原因,可导致严重残疾1-3。再生性周围神经接口(RPNI)手术可通过使用游离的无血管肌肉移植物作为周围神经再支配的生理靶点,减轻神经瘤和截肢后疼痛,从而使患者受益:RPNI 是通过将横断的周围神经远端植入游离的无血管骨骼肌移植物来构建的。首先确定神经瘤或受影响神经的游离端,然后进行横断和骨骼化。然后从供体大腿或现有截肢部位获取游离肌肉移植物,使用 6-0 非吸收缝合线将每条横断神经的远端植入游离肌肉移植物的中心。这可以在截肢时立即进行,也可以在术后任何时候作为选择性手术进行:神经瘤的非手术治疗包括脱敏、化学或麻醉注射、生物反馈、经皮神经电刺激、局部利多卡因和/或其他药物(如抗抑郁药、抗惊厥药和阿片类药物)。神经瘤的手术治疗包括神经瘤切除术、神经帽切除术、切除并转入骨骼或肌肉、神经移植术和靶向肌肉神经再支配术:理由:建立 RPNI 是一种简单、可重复的手术方案,可防止神经瘤的形成,它利用了多个生物过程,解决了现有神经瘤治疗策略的许多局限性。我们知道,当再生轴突没有末端神经支配器官时就会形成神经瘤,因此任何能减少残肢内漫无目的轴突数量的策略都应有助于减少有症状的神经瘤。使用游离肌肉移植物可为神经轴突再生提供大量的去神经支配肌肉靶点,并在不牺牲任何残余肌肉去神经支配的情况下促进神经肌肉连接的重建:描述 RPNI 手术治疗截肢后疼痛的文章显示了良好的效果,术后约 7 个月时,神经瘤疼痛和幻痛评分显著降低4,5。神经瘤疼痛评分降低了 71%,幻痛评分降低了 53%4 。与未接受 RPNI 手术的患者相比,预防性 RPNI 手术还可大幅降低无症状神经瘤的发生率(0% 对 13.3%)和幻肢痛的发生率(51.1% 对 91.1%)5:重要提示:术前要求患者指出最大压痛部位,因为这可以作为症状性神经瘤位置的指引。切口可以从先前的截肢部位切入,也可以直接在最大压痛部位纵向切入。用小刀切除末端神经瘤,直到能看到健康的轴突。单独的供体部位可能会引起供体部位发病率和并发症,包括血肿和疼痛。为了确保存活率并防止中心坏死,采集的骨骼肌移植物最好长约 35 毫米、宽约 20 毫米、厚约 5 毫米。周围神经应与肌纤维方向平行植入,外膜应在 1 或 2 处固定在游离的肌肉移植物上。应使用一条缝线将附神经的远端粘在肌肉移植床的中间。用另一条缝线咬合肌肉,咬合神经近端的外膜,再咬合另一条肌肉边缘,将肌肉移植体包裹在神经周围,形成一个圆柱形包裹。RPNI 应位于肌肉组织内,深入皮下组织和真皮层。对于大口径神经,应进行硬膜内剥离,以创建多个(通常为 2 到 4 个)不同的 RPNI,避免在单个游离肌肉移植中出现过多的再生轴突。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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.
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