Add to ORKGThe response of biological tissue to impact like mechanical loading in sports is of vital interest in sports biomechanics, athletic training research and especially the development of an injury reduction model. Bone and articular cartilage react differently to mechanical loading in the long term. A strong association to the loading patterns for the response of bone but not for that of cartilage has been be identified. For the short term experimental results provide evidence on two different articular cartilage responses related to loading regimes (high frequent impact vs. low frequent impact). From the reported results the risk of overuse through impact loading was derived as a function of sports related impact loading patterns and subject ...
There is an increase in participation levels in sporting activities, paiticularly of the high intens...
We have recently developed a technology that enables studies of the firing properties of a large set...
The benefits of differentiating between the physiological and biomechanical load-response pathways i...
Impact loads have been implicated in the initiation of secondary osteoarthritis but in the absence o...
The articulations are subject to static and dynamic loads during daily living. Small impact forces c...
The original publication is available at www.springerlink.comNon peer reviewedPostprin
There are numerous variables used to assess musculoskeletal loading during human movement. This pres...
Abstract—Articular cartilage injury can cause post-traumatic osteoarthritis, but early processes lea...
Articular cartilage is a connective tissue that distributes mechanical loads within the knee. When i...
Articular cartilage is susceptible to impact injury. Impact may occur during events ranging from tra...
The effects of exercise on hyaline articular cartilage have traditionally been examined in animal mo...
Biomechanical and biological factors related to the performance enhancement in gymnastics indicate t...
Purpose: As a multifactorial disease, Osteoarthritis (OA) has many associated risk factors. One of w...
ABSTRACT: The articulations are subject to static and dynamic loads during daily living. Small impac...
Physical activity dependent on qualitative or quantitative stimuli leads to acute or chronic damage ...
There is an increase in participation levels in sporting activities, paiticularly of the high intens...
We have recently developed a technology that enables studies of the firing properties of a large set...
The benefits of differentiating between the physiological and biomechanical load-response pathways i...
Impact loads have been implicated in the initiation of secondary osteoarthritis but in the absence o...
The articulations are subject to static and dynamic loads during daily living. Small impact forces c...
The original publication is available at www.springerlink.comNon peer reviewedPostprin
There are numerous variables used to assess musculoskeletal loading during human movement. This pres...
Abstract—Articular cartilage injury can cause post-traumatic osteoarthritis, but early processes lea...
Articular cartilage is a connective tissue that distributes mechanical loads within the knee. When i...
Articular cartilage is susceptible to impact injury. Impact may occur during events ranging from tra...
The effects of exercise on hyaline articular cartilage have traditionally been examined in animal mo...
Biomechanical and biological factors related to the performance enhancement in gymnastics indicate t...
Purpose: As a multifactorial disease, Osteoarthritis (OA) has many associated risk factors. One of w...
ABSTRACT: The articulations are subject to static and dynamic loads during daily living. Small impac...
Physical activity dependent on qualitative or quantitative stimuli leads to acute or chronic damage ...
There is an increase in participation levels in sporting activities, paiticularly of the high intens...
We have recently developed a technology that enables studies of the firing properties of a large set...
The benefits of differentiating between the physiological and biomechanical load-response pathways i...