A multi-segment kinematic model of the foot was developed for use in a gait analysis laboratory. The foot was divided into hindfoot, talus, midfoot and medial and lateral forefoot segments. Six functional joints were defined: ankle and subtalar joints, frontal and transverse plane motions of the hindfoot relative to midfoot, supination/pronation twist of the forefoot relative to midfoot and medial longitudinal arch height-to-length ratio. Twelve asymptomatic subjects were tested during barefoot walking with a six-camera optical stereometric system and auto-reflective markers organized in triads. Repeatability of the joint motions was tested using coefficients of multiple correlation. Ankle and subtalar joint motions and twisting of the fore...
Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited i...
Gait analysis is presently a common and useful tool for both biomechanical research and clinical pra...
This study aims to develop a clinically useful multi-segment foot model that will enable the analysi...
A multi-segment kinematic model of the foot was developed for use in a gait analysis laboratory. The...
Gait analysis using optical tracking equipment has been demonstrated to be a clinically useful tool ...
We describe a multi-segmented foot model comprising lower leg, rearfoot, midfoot, lateral forefoot, ...
Multi-segment foot models (MSFMs) are often used in clinical gait analysis (CGA) for the diagnosis a...
Several surface based multi-segment foot models have been developed to investigate distal foot funct...
This study aimed to investigate both foot arch-shaped architecture and forefoot kinematics during ga...
Three-dimensional gait analysis is a frequently employed tool for surgical planning, motion characte...
While structure and function of the human foot and ankle have been studied anatomically, little info...
BACKGROUND: Assessing patients with foot and ankle disorders by observation of gait is dependent on ...
Purpose: Many patients who sustain an acute lateral ankle sprain develop chronic ankle instability (...
The foot is a complex structure, and thus it is difficult to analyse the joint movements in the foot...
A deeper investigation of foot anatomy and a more accurate biomechanical model can be objects of int...
Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited i...
Gait analysis is presently a common and useful tool for both biomechanical research and clinical pra...
This study aims to develop a clinically useful multi-segment foot model that will enable the analysi...
A multi-segment kinematic model of the foot was developed for use in a gait analysis laboratory. The...
Gait analysis using optical tracking equipment has been demonstrated to be a clinically useful tool ...
We describe a multi-segmented foot model comprising lower leg, rearfoot, midfoot, lateral forefoot, ...
Multi-segment foot models (MSFMs) are often used in clinical gait analysis (CGA) for the diagnosis a...
Several surface based multi-segment foot models have been developed to investigate distal foot funct...
This study aimed to investigate both foot arch-shaped architecture and forefoot kinematics during ga...
Three-dimensional gait analysis is a frequently employed tool for surgical planning, motion characte...
While structure and function of the human foot and ankle have been studied anatomically, little info...
BACKGROUND: Assessing patients with foot and ankle disorders by observation of gait is dependent on ...
Purpose: Many patients who sustain an acute lateral ankle sprain develop chronic ankle instability (...
The foot is a complex structure, and thus it is difficult to analyse the joint movements in the foot...
A deeper investigation of foot anatomy and a more accurate biomechanical model can be objects of int...
Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited i...
Gait analysis is presently a common and useful tool for both biomechanical research and clinical pra...
This study aims to develop a clinically useful multi-segment foot model that will enable the analysi...