1. The digital human forearm and hand
- Author
-
Evie Vereecke, Faes Kerkhof, and Timo van Leeuwen
- Subjects
Male ,Models, Anatomic ,3D model ,Computer science ,Datasets as Topic ,02 engineering and technology ,0302 clinical medicine ,LENGTH ,BIOMECHANICAL ANALYSIS ,open access ,Hand muscles ,thumb anatomy ,JOINT ,Biomechanics ,Middle Aged ,Anatomy & Morphology ,LIMB ,Tendon ,Forearm ,medicine.anatomical_structure ,SKELETAL-MUSCLE ,Anatomy ,hand muscles ,Life Sciences & Biomedicine ,Histology ,0206 medical engineering ,medical imaging ,PREDICTIONS ,Muscle volume ,03 medical and health sciences ,Imaging, Three-Dimensional ,Digital human ,Medical imaging ,medicine ,Humans ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics ,CROSS-SECTIONAL AREA ,Science & Technology ,THUMB ,Original Articles ,Cell Biology ,Hand ,020601 biomedical engineering ,MODEL ,FORCES ,Cadaveric spasm ,030217 neurology & neurosurgery ,Developmental Biology ,Biomedical engineering - Abstract
How changes in anatomy affect joint biomechanics can be studied using musculoskeletal modelling, making it a valuable tool to explore joint function in healthy and pathological joints. However, gathering the anatomical, geometrical and physiological data necessary to create a model can be challenging. Very few integrated datasets exist and even less raw data is openly available to create new models. Therefore, the goal of the present study is to create an integrated digital forearm and make the raw data available via an open-access database. An un-embalmed cadaveric arm was digitized using 7T MRI and CT scans. 3D geometrical models of bones, cartilage, muscle and muscle pathways were created. After MRI and CT scanning, physiological muscle parameters (e.g. muscle volume, mass, length, pennation angle, physiological cross-sectional area, tendon length) were obtained via detailed dissection. After dissection, muscle biopsies were fixated and confocal microscopy was used to visualize and measure sarcomere lengths. This study provides an integrated anatomical dataset on which complete and accurate musculoskeletal models of the hand can be based. By creating a 3D digital human forearm, including all relevant anatomical parameters, a more realistic musculoskeletal model can be created. Furthermore, open access to the anatomical dataset makes it possible for other researchers to use these data in the development of a musculoskeletal model of the hand. ispartof: Journal of Anatomy vol:233 issue:5 pages:557-566 ispartof: location:England status: published
- Published
- 2018