Variability in Body Shape, Superficial Soft Tissue Geometry, and Seatbelt Fit Relative to the Pelvis in Automotive Postures-Methods for Volunteer Data Collection With Open Magnetic Resonance Imaging.

IF 1.7 4区 医学 Q4 BIOPHYSICS Journal of Biomechanical Engineering-Transactions of the Asme Pub Date : 2024-03-01 DOI:10.1115/1.4064477
Jason Forman, Gabrielle Booth, Olivia Mergler, Sarah Romani, Honglin Zhang, Carolyn Roberts, Gunter P Siegmund, Bengt Pipkorn, Peter Cripton
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Abstract

Variability in body shape and soft tissue geometry have the potential to affect the body's interaction with automotive safety systems. In this study, we developed a methodology to capture information on body shape, superficial soft tissue geometry, skeletal geometry, and seatbelt fit relative to the skeleton-in automotive postures-using Open Magnetic Resonance Imaging (MRI). Volunteer posture and belt fit were first measured in a vehicle and then reproduced in a custom MRI-safe seat (with an MR-visible seatbelt) placed in an Open MR scanner. Overlapping scans were performed to create registered three-dimensional reconstructions spanning from the thigh to the clavicles. Data were collected with ten volunteers (5 female, 5 male), each in their self-selected driving posture and in a reclined posture. Examination of the MRIs showed that in the males with substantial anterior abdominal adipose tissue, the abdominal adipose tissue tended to overhang the pelvis, narrowing in the region of the Anterior Superior Iliac Spine (ASIS). For the females, the adipose tissue depth around the lower abdomen and pelvis was more uniform, with a more continuous layer superficial to the ASIS. Across the volunteers, the pelvis rotated rearward by an average of 62% of the change in seatback angle during recline. In some cases, the lap belt drew nearer to the pelvis as the volunteer reclined (as the overhanging folds of adipose tissue stretched). In others, the belt-to-pelvis distance increased as the volunteer reclined. These observations highlight the importance of considering both interdemographic and intrademographic variability when developing tools to assess safety system robustness.

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体形、表层软组织几何形状和安全带与骨盆的贴合度在汽车姿势中的可变性--利用开放式磁共振成像收集志愿者数据的方法。
身体形状和软组织几何形状的变化有可能影响身体与汽车安全系统的互动。在这项研究中,我们开发了一种方法,利用开放式核磁共振成像捕捉汽车姿态下的身体形状、表层软组织几何形状、骨骼几何形状以及安全带相对于骨骼的贴合度等信息。首先在汽车中测量志愿者的姿势和安全带的贴合度,然后在开放式核磁共振扫描仪中的定制核磁共振安全座椅(配有核磁共振可视安全带)上进行重现。进行重叠扫描以创建从大腿到锁骨的注册三维重建。数据收集对象为 10 名志愿者(5 名女性,5 名男性),他们分别处于自己喜欢的驾驶姿势和斜躺姿势。在有大量前腹部脂肪组织的男性中,腹部脂肪组织倾向于悬挂在骨盆上,在髂前上棘(ASIS)区域变窄。女性下腹部和骨盆周围的脂肪组织深度更均匀,在 ASIS 表层有一层更连续的脂肪组织。在所有志愿者中,骨盆向后旋转的幅度平均为倾斜时座椅靠背角度变化的 62%。在某些情况下,随着志愿者身体后倾(因为悬垂的脂肪组织褶皱被拉伸),腹带更靠近骨盆。而在其他情况下,腰带与骨盆的距离会随着志愿者的倾斜而增加。这些观察结果突出表明,在开发评估安全系统稳健性的工具时,必须同时考虑人口统计学间和人口统计学内的变异性。
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来源期刊
CiteScore
3.40
自引率
5.90%
发文量
169
审稿时长
4-8 weeks
期刊介绍: Artificial Organs and Prostheses; Bioinstrumentation and Measurements; Bioheat Transfer; Biomaterials; Biomechanics; Bioprocess Engineering; Cellular Mechanics; Design and Control of Biological Systems; Physiological Systems.
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