B. MahaisavariyaB. SaekeeK. SitthiseripratipP. OrisT. TongdeeE. L.J. BohezJ. Vander SlotenMahidol UniversityAsian Institute of Technology ThailandKU Leuven2018-07-242018-07-242004-01-01Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine. Vol.218, No.1 (2004), 79-84095441192-s2.0-1242329810https://repository.li.mahidol.ac.th/handle/20.500.14594/21320The proximal part of the radius has a complex shape and dimension that cannot be precisely determined by standard roentgenogram for real three-dimensional anatomical shape which is important for prosthesis design. This study presents a method by which computer tomography (CT) images are combined with the reverse engineering technique to obtain and analyse the three-dimensional inner and outer geometry of the proximal radius. The three-dimensional models were reconstructed from CT images obtained from 40 radial bones and approximated with two- and three-dimensional fitting algorithms based on reverse engineering methods. The mean total length of the radius was 240.0 mm [standard deviation (SD) = 17.3]. The radial head in this study is more likely to be circular with an average diameter of 20.5 mm (SD = 1.9). The outer diameter of the radial neck averages 14.7 mm (SD = 1.0). The thickness of the radial head averages 12.9 mm (SD = 1.4). The intramedullary canal diameter of the radial neck averages 7.4 mm (SD = 1.4). The depth of the fossa at the articular surface averages 1.5 mm (SD = 0.4).Mahidol UniversityEngineeringConference PaperSCOPUS10.1243/095441104322807785