Stress And Strain At The Lateral Collateral Ligament Complex Of The Elbow Joint

Nigerian Journal of Medical Rehabilitation Pub Date : 2007-07-14 DOI:10.34058/NJMR.V11I2.21

G. Mbaka, A. Ejiwunmi, V. U. Chukwuma, O. Odusote

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引用次数: 1

Abstract

Background: The radial collateral ligament was previously believed to be the only ligament existing at the lateral aspect of the elbow joint until Morrey and An (1976) classified the ligaments to include radial collateral (RCL) and lateral ulnar collateral ligaments (LUCL). There is therefore the need to assess the impact these ligaments in elbow joint stability. Objective: To investigate how the RCL and LUCL are affected by stress and strain in both routine and forceful movements of the limb. Materials and Methods: Eight (8) embalmed upper extremities were used for this investigation. The elbow joint was dissected with care taken to preserve the lateral ulnar collateral ligament seen in seven of the limbs. Qualitative assessment of ligament tension was made under valgus and varus stresses. The angles at which stress was applied were 450, 700, 750, 900, 1100, 1200 and full extension. These angles were chosen partly because most movements during racket sporting activities take place at higher angles (Regan et al 1991). The angles were determined by hand held goniometer while the arm was firmly held in a retort stand. Results: The RCL is more able to absorb stress and strain because of its greater flexibility enhanced by its attachment at the annular ligament. However, LUCL a thickened mass, in both valgus and varus stresses was taut throughout most of the entire arc of flexion. It is a much stronger ligament that effectively stabilizes elbow joint in both routine and forceful movement. Conclusion: This study has been able to establish that LUCL is more prone to stress and strain. Being attached from bone to bone, it equally provides greater stability at the lateral aspect of elbow joint. KEY WORDS: Elbow joint; Ulna and Radial Collateral Ligament; stress and strain.

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肘关节外侧副韧带复合体的应力与应变

背景:以前认为桡侧副韧带是肘关节外侧唯一存在的韧带，直到Morrey和An(1976)将韧带分为桡侧副韧带(RCL)和尺侧副韧带(LUCL)。因此有必要评估这些韧带对肘关节稳定性的影响。目的:探讨下肢常规运动和有力运动中应力应变对RCL和LUCL的影响。材料与方法:采用8条经防腐处理的上肢进行研究。肘关节被解剖，小心保存外侧尺侧副韧带在7个肢体。在外翻和内翻应力作用下对韧带张力进行定性评价。施加应力的角度分别为450、700、750、900、1100、1200和完全延伸。之所以选择这些角度，部分原因是球拍运动中的大多数动作都是在较高的角度进行的(Regan et al, 1991)。角度由手持测角仪确定，而手臂被牢牢地握在一个倒立架上。结果:RCL因其附着于环状韧带处而具有更大的柔韧性，能够更好地吸收应力和应变。然而，在外翻和内翻中，LUCL是一个增厚的肿块，在整个屈曲弧度的大部分时间内应力都是绷紧的。它是一个更强的韧带，在常规和有力的运动中有效地稳定肘关节。结论:本研究已经能够确定LUCL更容易受到压力和应变。由于从骨头连接到骨头，它同样在肘关节的外侧提供了更大的稳定性。关键词:肘关节;尺骨和桡骨副韧带;压力和紧张。

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Nigerian Journal of Medical Rehabilitation

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