Add to ORKGAbstract The domestic dog is interesting to investigate because of the wide range of body size, body mass, and physique in the many breeds. In the last several years, the number of clinical and biomechanical studies on dog locomotion has increased. However, the relationship between body structure and joint load during locomotion, as well as between joint load and degenerative diseases of the locomotor system (e.g. dysplasia), are not sufficiently understood. Collecting this data through in vivo measurements/records of joint forces and loads on deep/small muscles is complex, invasive, and sometimes unethical. The use of detailed musculoskeletal models may help fill the knowledge gap. We describe here the methods we used to create a detailed ...
BACKGROUND:Skin marker-based three-dimensional kinematic gait analysis were commonly used to assess ...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
Muscles move and stabilize the body. People with motor deficits, regardless of the deficit’s origin,...
Musculoskeletal models have proven to be a valuable tool in human orthopaedics research. Recently, v...
Musculoskeletal models have proven to be a valuable tool in human orthopaedics research. Recently, v...
Background: Among other causes the long-term result of hip prostheses in dogs is determined by asept...
This paper describes a three dimensional musculoskeletal model of the feline hindlimb based on digit...
Mice are often used as animal models of various human neuromuscular diseases, and analysis of these ...
For many years Canis familiaris, the domestic dog, has drawn particular interest as a model of osteo...
Animal locomotion is influenced by a combination of constituent joint torques (e.g., due to limb ine...
Stability during locomotion arises from many complex interactions which are not yet fully understood...
Musculoskeletal modelling has become a valuable tool with which to understand how neural, muscular, ...
Terrestrial animals are complex, high dimensional, dynamical systems. They have the ability to adap...
Copyright © 2013 Maxim Moreau et al.This is an open access article distributed under the Creative Co...
It is well known that bone adapts its microstructure in response to loading. Based on this form-foll...
BACKGROUND:Skin marker-based three-dimensional kinematic gait analysis were commonly used to assess ...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
Muscles move and stabilize the body. People with motor deficits, regardless of the deficit’s origin,...
Musculoskeletal models have proven to be a valuable tool in human orthopaedics research. Recently, v...
Musculoskeletal models have proven to be a valuable tool in human orthopaedics research. Recently, v...
Background: Among other causes the long-term result of hip prostheses in dogs is determined by asept...
This paper describes a three dimensional musculoskeletal model of the feline hindlimb based on digit...
Mice are often used as animal models of various human neuromuscular diseases, and analysis of these ...
For many years Canis familiaris, the domestic dog, has drawn particular interest as a model of osteo...
Animal locomotion is influenced by a combination of constituent joint torques (e.g., due to limb ine...
Stability during locomotion arises from many complex interactions which are not yet fully understood...
Musculoskeletal modelling has become a valuable tool with which to understand how neural, muscular, ...
Terrestrial animals are complex, high dimensional, dynamical systems. They have the ability to adap...
Copyright © 2013 Maxim Moreau et al.This is an open access article distributed under the Creative Co...
It is well known that bone adapts its microstructure in response to loading. Based on this form-foll...
BACKGROUND:Skin marker-based three-dimensional kinematic gait analysis were commonly used to assess ...
Knowledge of the musculoskeletal loading is essential for the design of orthopaedic implants and sur...
Muscles move and stabilize the body. People with motor deficits, regardless of the deficit’s origin,...