Leijnse J N A L, Han S-H, Kwon Y H
Department of Mechanical Engineering, Speed School of Engineering, University of Louisville, Louisville, Kentucky 40292, USA.
J Anat. 2008 Dec;213(6):733-42. doi: 10.1111/j.1469-7580.2008.01000.x.
This study provides a model of the complex deltoid origin and end tendons, as a basis for further anatomical, biomechanical and clinical research. Although the deltoid is used in transpositions with upper limb paralysis, its detailed morphology and segmentation has not been object of much study. Morphologically, the deltoid faces two distinct challenges. It closely envelops a ball joint, and it reduces its width over a short distance from a very wide origin along clavicle, acromion and spina scapula, to an insertion as narrow as the humerus. These challenges necessitate specific morphological tendon adaptations. A qualitative model for these tendons is developed by the stepwise transformation of a unipennate muscle model into a functional deltoid muscle. Each step is the solution to one of the mentioned morphological challenges. The final model is of an end tendon consisting of a continuous succession of bipennate end tendon blades centrally interspaced by unipennate tendon parts. The origin tendon consists of lamellae that interdigitate with the end tendon blades, creating a natural segmentation. The model is illustrated by qualitative dissection results. In addition, in view of a proliferation of terms found in the literature to describe deltoid tendons, tendon concepts are reviewed and the systematic use of the unique and simple terminology of 'origin and end tendons' is proposed.
本研究提供了一个复杂的三角肌起点和止点肌腱模型,作为进一步进行解剖学、生物力学和临床研究的基础。尽管三角肌在治疗上肢麻痹的转位手术中被使用,但其详细的形态学和分段情况尚未得到充分研究。从形态学上看,三角肌面临两个独特的挑战。它紧密包裹着一个球窝关节,并且在很短的距离内,其宽度从沿着锁骨、肩峰和肩胛冈的非常宽的起点,缩减至与肱骨一样窄的止点。这些挑战需要特定的形态学肌腱适应性变化。通过将单羽状肌模型逐步转变为功能性三角肌,建立了这些肌腱的定性模型。每一步都是针对上述形态学挑战之一的解决方案。最终模型的止点肌腱由连续排列的双羽状止点肌腱片组成,这些肌腱片在中央被单羽状肌腱部分隔开。起点肌腱由与止点肌腱片相互交错的薄片组成,形成自然的分段。通过定性解剖结果对该模型进行了说明。此外,鉴于文献中用于描述三角肌肌腱的术语繁多,对肌腱概念进行了综述,并建议系统地使用独特且简单的“起点和止点肌腱”术语。