Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited in part by the physical dimensions of the foot. Existing kinematic foot models solve this problem by combining multiple bones into idealized rigid segments. This study presents a novel foot model that allows the motion of the 26 bones to be individually estimated via a combination of partial joint constraints and coupling the motion of separate joints using kinematic rhythms. Methods: Segmented CT data from one healthy subject was used to create a template Glasgow-Maastricht foot model (GM-model). Following this, the template was scaled to produce subject-specific models for five additional healthy participants using a surface scan of the foot...
Background: Foot and ankle joint kinematics are measured during clinical gait analyses with marker-b...
There is a dearth of information on navicular, cuboid, cuneiform and metatarsal kinematics during wa...
The goal of this project was to characterize the kinetic patterns of the foot and ankle during norma...
Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited i...
This thesis describes the development of the Glasgow-Maastricht foot model, which allows the measure...
We describe a multi-segmented foot model comprising lower leg, rearfoot, midfoot, lateral forefoot, ...
The human foot is structurally complicated and its basic load-carrying mechanisms remain a subject o...
The foot is a complex structure, and thus it is difficult to analyse the joint movements in the foot...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
The aim was to compare kinematic data from an experimental foot model comprising four segments ((i) ...
Musculoskeletal models used in gait analysis require coordinate systems to be identified for the bod...
Multi-segment foot models (MSFMs) are often used in clinical gait analysis (CGA) for the diagnosis a...
Background and Rationale: Multi-segment foot models allow measurement of the movement (kinematics) o...
A multi-segment kinematic model of the foot was developed for use in a gait analysis laboratory. The...
Background: Foot and ankle joint kinematics are measured during clinical gait analyses with marker-b...
There is a dearth of information on navicular, cuboid, cuneiform and metatarsal kinematics during wa...
The goal of this project was to characterize the kinetic patterns of the foot and ankle during norma...
Accurately measuring of intrinsic foot kinematics using skin mounted markers is difficult, limited i...
This thesis describes the development of the Glasgow-Maastricht foot model, which allows the measure...
We describe a multi-segmented foot model comprising lower leg, rearfoot, midfoot, lateral forefoot, ...
The human foot is structurally complicated and its basic load-carrying mechanisms remain a subject o...
The foot is a complex structure, and thus it is difficult to analyse the joint movements in the foot...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
Although various foot models were proposed for kinematics assessment using skin makers, no objective...
The aim was to compare kinematic data from an experimental foot model comprising four segments ((i) ...
Musculoskeletal models used in gait analysis require coordinate systems to be identified for the bod...
Multi-segment foot models (MSFMs) are often used in clinical gait analysis (CGA) for the diagnosis a...
Background and Rationale: Multi-segment foot models allow measurement of the movement (kinematics) o...
A multi-segment kinematic model of the foot was developed for use in a gait analysis laboratory. The...
Background: Foot and ankle joint kinematics are measured during clinical gait analyses with marker-b...
There is a dearth of information on navicular, cuboid, cuneiform and metatarsal kinematics during wa...
The goal of this project was to characterize the kinetic patterns of the foot and ankle during norma...