Body segment parameters such as segment mass, center of mass, and radius of gyration are used as inputs in static and dynamic ergonomic and biomechanical models used to predict joint and muscle forces, and to assess risks of musculoskeletal injury. Previous work has predicted body segment parameters (BSPs) in the general population using age and obesity levels as statistical predictors (Merrill et al., 2017). Estimated errors in the prediction of BSPs can be as large as 40%, depending on age, and the prediction method employed (Durkin and Dowling, 2003). Thus, more accurate and representative segment parameter inputs are required for attempting to predict modeling outputs such as joint contact forces, muscle forces, and injury risk in indiv...
Multiple linear stepwise regression was used to generate equations to predict bone mineral content (...
The validity of the “segment-zone” anthropometric method for calculating segmental volume was studi...
To facilitate the use of wobbling mass models in biomechanical research, accurate and reliable quant...
Body segment parameters such as segment mass, centre of mass and moment of inertia, serve as importa...
Ergonomic modelling programmes such as the Three Dimensional Static Strength Prediction Programme (3...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
The knowledge of human body proportions and segmental properties of limbs, head and trunk is of fund...
Three approaches to estimate body segment parameters (BSP) are compared, a volumescanning photograp...
Current anthropometric models do not account for the variations of age, obesity, and individual body...
The aim of this study was to evaluate the accuracy between the measured and predicted body mass, usi...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
Most research studies in biomechanics directly measure body segment lengths via anthropometry or dig...
Lean body mass (LBM) and muscle mass remains difficult to quantify in large epidemiological studies ...
42ième congrès de la Sociéte de Biomécanique francophone, REIMS, FRANCE, 02-/11/2017 - 03/11/2017Bod...
Background: Regression equations using anthropometric measurements to predict soft (fat mass [FM], l...
Multiple linear stepwise regression was used to generate equations to predict bone mineral content (...
The validity of the “segment-zone” anthropometric method for calculating segmental volume was studi...
To facilitate the use of wobbling mass models in biomechanical research, accurate and reliable quant...
Body segment parameters such as segment mass, centre of mass and moment of inertia, serve as importa...
Ergonomic modelling programmes such as the Three Dimensional Static Strength Prediction Programme (3...
The purpose of this study was to validate a new geometric solids model, developed to address the lac...
The knowledge of human body proportions and segmental properties of limbs, head and trunk is of fund...
Three approaches to estimate body segment parameters (BSP) are compared, a volumescanning photograp...
Current anthropometric models do not account for the variations of age, obesity, and individual body...
The aim of this study was to evaluate the accuracy between the measured and predicted body mass, usi...
Body segment inertial parameters (BSIPs) of the human body are key parameters in biomechanics to stu...
Most research studies in biomechanics directly measure body segment lengths via anthropometry or dig...
Lean body mass (LBM) and muscle mass remains difficult to quantify in large epidemiological studies ...
42ième congrès de la Sociéte de Biomécanique francophone, REIMS, FRANCE, 02-/11/2017 - 03/11/2017Bod...
Background: Regression equations using anthropometric measurements to predict soft (fat mass [FM], l...
Multiple linear stepwise regression was used to generate equations to predict bone mineral content (...
The validity of the “segment-zone” anthropometric method for calculating segmental volume was studi...
To facilitate the use of wobbling mass models in biomechanical research, accurate and reliable quant...