坐姿下臀部的三维解剖结构与形变

3D anatomy and deformation of the seated buttocks.

作者信息

Sonenblum Sharon Eve, Sprigle Stephen H, Cathcart John McKay, Winder Robert John

机构信息

School of Applied Physiology, Georgia Institute of Technology, 490 10th Street NW, Atlanta, GA 30318, USA.

Schools of Applied Physiology and Industrial Design, Georgia Institute of Technology, 490 10th Street NW, Atlanta, GA 30318, USA.

出版信息

J Tissue Viability. 2015 May;24(2):51-61. doi: 10.1016/j.jtv.2015.03.003. Epub 2015 Apr 2.

DOI:10.1016/j.jtv.2015.03.003

PMID:25935874

Abstract

AIM

To describe the 3D anatomy and deformation of the buttocks during sitting.

MATERIALS AND METHODS

The buttocks of 4 able-bodied individuals and 3 individuals with spinal cord injury were scanned sitting in a FONAR Upright MRI. T1-weighted Fast Spin Echo scans were collected with the individuals seated on a custom wheelchair cushion to unload the ischial tuberosities (ITs) and seated on a 3 inch foam cushion. Multi-planar scans were analyzed, and the muscle, bone and adipose tissue was manually segmented for 3D rendering and analysis of the quantity, geometry, and location of tissues.

RESULTS

The gluteus maximus was positioned lateral and posterior to the IT, covering the inferior portion of the IT for only 2 able-bodied participants. Adipose thickness directly under the IT did not differ by diagnosis, nor did it have a consistent response to loading. However, the envelopment of the IT by the surrounding adipose tissue was much greater in two of the participants with spinal cord injuries. These two subjects also had the most curved skin surface as the tissue wrapped around the IT. Tissue strains around the ischium were most visible in the adipose and connective tissue. The gluteus maximus displaced and distorted upwards, posterior and lateral, away from the inferior IT.

CONCLUSIONS

Multi-planar imaging is necessary to investigate anatomy and deformation of the buttocks. 5 out of 7 participants did not sit directly on muscle. The tissue beneath their ITs was predominantly composed of fat and connective tissue, suggesting that these tissues might be most vulnerable to injury.

摘要

目的

描述坐姿时臀部的三维解剖结构及变形情况。

材料与方法

对4名身体健全者和3名脊髓损伤患者的臀部进行扫描，扫描时他们坐在FONAR直立式磁共振成像仪上。采用T1加权快速自旋回波扫描，参与者分别坐在定制的轮椅坐垫上以使坐骨结节卸载负荷，以及坐在3英寸厚的泡沫坐垫上。对多平面扫描图像进行分析，手动分割肌肉、骨骼和脂肪组织，以进行三维重建并分析组织的数量、几何形状和位置。

结果

对于仅2名身体健全的参与者，臀大肌位于坐骨结节的外侧和后方，仅覆盖坐骨结节的下部。坐骨结节正下方的脂肪厚度在不同诊断组之间无差异，对负荷的反应也不一致。然而，在两名脊髓损伤参与者中，坐骨结节周围脂肪组织的包绕程度要大得多。这两名受试者的皮肤表面也是最弯曲的，因为组织围绕着坐骨结节。坐骨周围的组织应变在脂肪和结缔组织中最为明显。臀大肌向上、向后和向外侧移位并变形，远离坐骨结节下部。

结论

需要进行多平面成像来研究臀部的解剖结构和变形情况。7名参与者中有5人并非直接坐在肌肉上。他们坐骨结节下方的组织主要由脂肪和结缔组织组成，这表明这些组织可能最易受伤。

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坐姿下臀部的三维解剖结构与形变

3D anatomy and deformation of the seated buttocks.

作者信息

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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