正中神经高位分支伴第 3 间隙共用指神经异常高位起源。
High Division of the Median Nerve with Unusually High Origin of the 3rd Space Common Digital Nerve.
机构信息
Plastic Surgery Reconstructive Microsurgery Department, Rehabilitation Clinical Hospital, Cluj Napoca, Romania.
Plastic Surgery Reconstructive Microsurgery Department, Rehabilitation Clinical Hospital, Cluj Napoca, Romania; Plastic Surgery Reconstructive Microsurgery Department, University of Medicine Iuliu Hatieganu, Cluj Napoca, Romania.
出版信息
Injury. 2020 Dec;51 Suppl 4:S96-S102. doi: 10.1016/j.injury.2020.03.024. Epub 2020 Mar 9.
BACKGROUND
Median nerve (MN) variation in the carpal tunnel has been well documented by Lanz. Encountering rarely documented variants, that do not fit into existing classifications, increases the risk of iatrogenic injury.
METHODS
The random occurrence of two unclassifiable anatomical variants of the MN in the carpal tunnel gives motivation to search the literature for similar and identical cases.
CASE REPORTS
This article presents two cases of very rare anatomical variants of high division of the MN. First case is a pure high branching of the 3rd space common digital nerve (CDN). The second case is a high division of the MN to a thicker lateral component and a thinner medial component. The lateral component of the MN gives off the palmar cutaneous branch (PCB), the thenar motor branch (TMB), the 1 and 2 space CDN's and contributes medially with a branch to the 3 space CDN. The medial component of the MN bifurcates distally into a medial and lateral branch. The lateral branch from the medial component of the MN distally unites with the medial branch of the lateral component of the MN to form the 3 space CDN. The medial branch from the medial component of the MN has a major contribution to the 4 space CDN from the ulnar nerve. In both cases, the medial component of the MN has a transmuscular course through the flexor digitorum superficialis (FDS) muscle.
DISCUSSION
Finding similar case reports from worldwide suggests the need to improve current classification of the MN variants in the carpal tunnel.
CONCLUSIONS
One cannot rely entirely on the existing anatomical classifications of the MN in the carpal tunnel. There is an underappreciated risk of iatrogenic injury, especially in endoscopic carpal tunnel release, and a chance of missing out on repair of important anatomical structures in trauma cases. There is a possibility of augmenting group 3 of Lanz's classification by adding subgroup "3D High division of the MN with the medial component having a transmuscular course through the FDS muscle", stating the different distal branching patterns.
背景
Lanz 已经充分记录了腕管中的正中神经(MN)的变异情况。遇到罕见的不符合现有分类的变异情况会增加医源性损伤的风险。
方法
在腕管中,MN 的两种无法分类的解剖变异的随机出现促使我们在文献中寻找类似和相同的病例。
病例报告
本文介绍了 MN 高位分支的两种非常罕见的解剖变异病例。第一个病例是 3 个空间的普通指神经(CDN)的纯高位分支。第二个病例是 MN 的高位分支分为一个较厚的外侧支和一个较薄的内侧支。MN 的外侧支分出掌皮支(PCB)、鱼际运动支(TMB)、1 个和 2 个空间的 CDN,并与 3 个空间的 CDN 的分支一起向内侧分支。MN 的内侧支在远端分为内侧支和外侧支。MN 的内侧支的外侧支从远端与 MN 的外侧支的内侧支会合,形成 3 个空间的 CDN。MN 的内侧支从远端对来自尺神经的 4 个空间的 CDN 有主要贡献。在这两种情况下,MN 的内侧支都穿过指浅屈肌(FDS)肌进行肌间穿行。
讨论
从全球范围内找到类似的病例报告表明需要改进腕管中 MN 变异的现有分类。
结论
不能完全依赖于腕管中 MN 的现有解剖分类。在腕管内镜松解术中,存在医源性损伤的风险,尤其是在创伤病例中,可能会错过重要解剖结构的修复。Lanz 分类的第 3 组可以通过添加“3D MN 的高位分支,内侧支穿过 FDS 肌进行肌间穿行”的亚组来增强,说明不同的远端分支模式。
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