Structural and Distribution Analysis of Mechanoreceptors and Free Nerve Endings in the Annular Pulleys of the Flexor Tendons of the Hand.

IF 1.8 Q2 ORTHOPEDICS

HAND Pub Date : 2025-04-30 DOI:10.1177/15589447251334670

Sângelo André Ribeiro Abreu, João Pedro Barreto Rocha, João Antônio Soares de Sousa, Lana Lacerda de Lima, Maria Luzete Costa Cavalcante, Diego Ariel de Lima

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引用次数: 0

Abstract

Background: The hand is essential in enabling physical interaction with the environment, with the annular pulleys playing a key role in its functionality. These fibrocartilaginous structures, located along the flexor tendons, are vascularized and may contain nerve endings and mechanoreceptors, aligning tendons with the bones to optimize finger flexion. However, their innervation remains poorly understood, limiting therapeutic advancements for flexor tendon conditions, such as stenosing tenosynovitis (trigger finger). This study aims to analyze the presence and distribution of mechanoreceptors and free nerve endings in the A1 annular pulley to provide insights for improved surgical and therapeutic approaches.

Methods: Twenty A1 pulleys from the ring fingers were obtained from fresh-frozen cadavers. The pulleys were submitted to cryostat sectioning. The sections were subjected to immunofluorescence with the PGP 9.5 (protein gene product 9.5) and confocal microscopy analysis.

Results: The analysis revealed the presence of type I mechanoreceptors (Ruffini corpuscles) in a subset of samples, while type IV free nerve endings were consistently found in all specimens. Both types of neural structures were primarily located at the medial and lateral fibrocartilaginous insertions of the A1 pulley, highlighting specific areas of sensory innervation within the structure.

Conclusion: This study contributes to the anatomical characterization of the A1 pulley, highlighting the presence and distribution of mechanoreceptors and free nerve endings. While the clinical implications of these findings remain uncertain, they may serve as a basis for future research on proprioception, sensory feedback, and potential surgical considerations.

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手部屈肌腱环状滑轮中机械感受器和游离神经末梢的结构和分布分析。

背景：手在与环境的物理交互中是必不可少的，环形滑轮在其功能中起着关键作用。这些纤维软骨结构位于屈肌腱沿线，血管化，可能包含神经末梢和机械感受器，使肌腱与骨骼对齐，以优化手指屈曲。然而，它们的神经支配仍然知之甚少，限制了屈肌腱疾病的治疗进展，如狭窄性腱鞘炎（扳机指）。本研究旨在分析机械感受器和游离神经末梢在A1环形滑轮中的存在和分布，为改进手术和治疗方法提供见解。方法：取自新鲜冷冻尸体无名指的A1滑轮20个。将滑轮进行低温切片。切片用PGP 9.5（蛋白基因产物9.5）免疫荧光和共聚焦显微镜分析。结果：分析显示在一部分样本中存在I型机械感受器（Ruffini小体），而在所有样本中一致发现IV型游离神经末梢。两种类型的神经结构主要位于A1滑轮的内侧和外侧纤维软骨插入处，突出了结构内感觉神经支配的特定区域。结论：本研究有助于A1滑轮的解剖特征，突出机械感受器和自由神经末梢的存在和分布。虽然这些发现的临床意义仍不确定，但它们可以作为未来本体感觉、感觉反馈和潜在手术考虑的研究基础。

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

HAND Medicine-Surgery

CiteScore

3.30

自引率

0.00%

发文量

209

期刊介绍： HAND is the official journal of the American Association for Hand Surgery and is a peer-reviewed journal featuring articles written by clinicians worldwide presenting current research and clinical work in the field of hand surgery. It features articles related to all aspects of hand and upper extremity surgery and the post operative care and rehabilitation of the hand.