Motorneuron protection by N-acetyl-cysteine after ventral root avulsion and ventral rhizotomy

British journal of plastic surgery Pub Date : 2005-09-01 DOI:10.1016/j.bjps.2005.04.012

C.-G. Zhang , D. Welin , L. Novikov , J.-O. Kellerth , M. Wiberg , A.M. Hart

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引用次数: 52

Abstract

Motor recovery after proximal nerve injury remains extremely poor, despite advances in surgical care. Several neurobiological hurdles are implicated, the most fundamental being extensive cell death within the motorneuron pool. N-acetyl-cysteine almost completely protects sensory neurons after peripheral axotomy, hence its efficacy in protecting motorneurons after ventral root avulsion/rhizotomy was investigated.

In adult rats, the motorneurons supplying medial gastrocnemius were unilaterally pre-labelled with retrograde tracer (true-blue/fluoro-gold), prior to L5 and 6 ventral root avulsion, or rhizotomy. Groups received either intraperitoneal N-acetyl-cysteine (ip, 150 or 750 mg/kg/day), immediate or delayed intrathecal N-acetyl-cysteine treatment (it, 2.4 mg/day), or saline; untreated animals served as controls. Either 4 (avulsion model) or 8 (rhizotomy model) weeks later, the pre-labelled motorneurons' mean soma area and survival were quantified.

Untreated controls possessed markedly fewer motorneurons than normal due to cell death (avulsion 53% death; rhizotomy 26% death, P<0.01 vs. normal). Motorneurons were significantly protected by N-acetyl-cysteine after avulsion (ip 150 mg/kg/day 40% death; it 30% death, P<0.01 vs. no treatment), but particularly after rhizotomy (ip 150 mg/kg/day 17% death; ip 750 mg/kg/day 7% death; it 5% death, P<0.05 vs. no treatment). Delaying intrathecal treatment for 1 week after avulsion did not impair neuroprotection, but a 2-week delay was deleterious (42% death, P<0.05 vs. 1-week delay, 32% death). Treatment prevented the decrease in soma area usually found after both types of injury.

N-acetyl-cysteine has considerable clinical potential for adjuvant treatment of major proximal nerve injuries, including brachial plexus injury, in order that motorneurons may survive until surgical repair facilitates regeneration.

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n -乙酰半胱氨酸对腹侧根撕脱和腹侧根切断术后运动神经元的保护作用

近端神经损伤后的运动恢复仍然非常差，尽管外科护理的进步。几个神经生物学障碍涉及，最基本的是广泛的细胞死亡在运动神经元池。n -乙酰半胱氨酸几乎完全保护周围神经切断术后的感觉神经元，因此研究了其对腹侧根撕脱/根切断术后运动神经元的保护作用。在成年大鼠中，在L5和6腹侧根撕脱或根切断之前，用逆行示踪剂(真蓝/氟金)单侧预先标记供应内侧腓肠肌的运动神经元。各组分别腹腔注射n -乙酰半胱氨酸(150或750 mg/kg/天)、立即或延迟鞘内注射n -乙酰半胱氨酸(2.4 mg/天)或生理盐水;未治疗的动物作为对照。4周(撕脱模型)或8周(根断模型)后，对预标记运动神经元的平均体细胞面积和存活进行量化。由于细胞死亡，未经治疗的对照组运动神经元明显少于正常对照组(撕脱伤53%死亡;根茎切断术26%死亡，P<0.01比正常)。撕脱伤后n -乙酰半胱氨酸对运动神经元的保护作用显著(150 mg/kg/d);30%死亡率(P<0.01 vs未处理)，但特别是在根茎切断术后(150mg /kg/天，17%死亡率;750mg /kg/天7%死亡;5%死亡(p < 0.05 vs.未治疗)。在撕脱伤后延迟鞘内治疗1周不会损害神经保护，但延迟2周是有害的(42%死亡，P<0.05 vs.延迟1周，32%死亡)。治疗阻止了通常在两种损伤后发现的躯体面积的减少。n -乙酰半胱氨酸在辅助治疗主要近端神经损伤(包括臂丛神经损伤)方面具有相当大的临床潜力，以使运动神经元存活到手术修复促进再生。

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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British journal of plastic surgery

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