Computer Methods and Programs in Biomedicine ( IF 6.1 ) Pub Date : 2020-05-06 , DOI: 10.1016/j.cmpb.2020.105515 Wang Xi 1 , Yang Bao 2 , Li Qiao 3 , Guo Xia 2 , Tao Xiaoming 4
Background and objective
Accurate dose of compression imposed by functional compression garments, such as medical compression stockings, is critical for medical treatment or rehabilitation. To evaluate or provide fitted compression stockings for individuals, the real curved calf shapes other than just anthropometric parameters are required.
Methods
This paper proposes and verifies a simple 3D parametric model of human calf that can fast and efficiently construct representative calves for evaluation or size-design purposes. Instead of selecting feature points, shape parameters were used to characterize the real calves.
Results
Based on principal component analysis and a database of 220 scanned Chinese subjects, the proposed parametric model was found as capable of largely reducing the data complexity to only the 1st order principal component with a major variance percentage of as high as 96%. A methodological framework of parametric modeling was then proposed. Results show that the proposed parametric model and method can fast produce valid representative shapes of patients’ calves, with which commercial stockings can be evaluated and customized stockings can be designed.
Conclusions
It can be concluded that the proposed parametric model and method can highly boost evaluation/size customization of MCSs, and will also inspire the research on customization of other compression garments.