Department of Cell and Developmental Biology, University of Colorado School of Medicine, Aurora, Colorado, USA.
Department of Anthropology, University of Colorado Denver, Denver, Colorado, USA.
Am J Biol Anthropol. 2024 Mar;183(3):e24728. doi: 10.1002/ajpa.24728. Epub 2023 Mar 16.
Primates employ wrist ulnar deviation during a variety of locomotor and manipulative behaviors. Extant hominoids share a derived condition in which the ulnar styloid process has limited articulation or is completely separated from the proximal carpals, which is often hypothesized to increase ulnar deviation range of motion. Acute angulation of the hamate's triquetral facet is also hypothesized to facilitate ulnar deviation mobility and mechanics. In this study, we test these longstanding ideas.
Three-dimensional (3D) carpal kinematics were examined using a cadaveric sample of Pan troglodytes, Pongo sp., and five monkey species. Ulnar styloid projection and orientation of the hamate's triquetral facet were quantified using 3D models.
Although carpal rotation patterns in Pan and Pongo were uniquely similar in some respects, P. troglodytes exhibited overall kinematic similarity with large terrestrial cercopithecoids (Papio and Mandrillus). Pongo, Macaca, and Ateles had high wrist ulnar deviation ranges of motion, but Pongo did this via a unique mechanism. In Pongo, the triquetrum functions as a distal carpal rather than part of the proximal row. Ulnar styloid projection and wrist ulnar deviation range of motion were not correlated but ulnar deviation range of motion and the triquetrohamate facet orientation were correlated.
Increased ulnar deviation mobility is not the function of ulnar styloid withdrawal in hominoids. Instead, this feature probably reduces stress on the ulnar side wrist or is a byproduct of adaptations that increase supination. Orientation of the hamate's triquetral facet offers some potential to reconstruct ulnar deviation mobility in extinct primates.
灵长类动物在各种运动和操作行为中使用腕部尺侧偏斜。现存的人科动物具有一种衍生状态,即尺骨茎突的关节有限或完全与近侧腕骨分离,这通常被假设为增加尺侧偏斜的运动范围。钩骨的三角骨面的急性倾斜也被假设为促进尺侧偏斜的活动性和力学。在这项研究中,我们检验了这些长期存在的观点。
使用 Pan troglodytes、Pongo sp. 和五种猴科动物的尸体样本检查了三维(3D)腕骨运动学。使用 3D 模型量化了尺骨茎突的投影和钩骨的三角骨面的方向。
尽管 Pan 和 Pongo 的腕骨旋转模式在某些方面具有独特的相似性,但 P. troglodytes 在整体运动学上与大型陆生猕猴科(Papio 和 Mandrillus)相似。Pongo、Macaca 和 Ateles 的腕部尺侧偏斜运动范围较大,但 Pongo 通过独特的机制实现了这一点。在 Pongo 中,三角骨起远端腕骨的作用,而不是近端列的一部分。尺骨茎突投影和腕部尺侧偏斜运动范围没有相关性,但尺侧偏斜运动范围和三角骨钩骨面的方向具有相关性。
人科动物中增加的尺侧偏斜活动性不是尺骨茎突退缩的功能。相反,这个特征可能减轻了尺侧腕部的压力,或者是增加旋前的适应的副产品。钩骨的三角骨面的方向为重建已灭绝灵长类动物的尺侧偏斜活动性提供了一些潜力。
