Archive for November, 2015
Non-invasive measurement of bone
Bone adaptation is understood to be driven by mechanical stimuli that are related to bone strain. Logically, if bone strain is a driver of adaptation and osteogenic response, then knowing how human bone is strained in vivo during certain activities might help us to identify specific strategies that could be used to help people naturally […]
Bone Health after Spinal Cord Injury
Spinal cord injury (SCI) causes paralysis and as a result, the mechanical stimulation to the skeleton normally provided by muscle activity and weight bearing is severely attenuated. Bone loss is a prominent feature of the immediate post-injury period, however fracture rate does not increase significantly until 5-10 years post-injury. These features make individuals with SCI […]
Bone Adaptation in Healthy People
Healthy bone adapts to best resist its habitual mechanical loading environment. When the applied daily mechanical stimulus drops below some minimum threshold, bone loss occurs. Similarly, when the stimulus exceeds some threshold, bone will adapt to become stronger through a combination of increased bone mass and changes to bone geometry that are associated with increased […]
Musculoskeletal Biomechanics Laboratory Projects
Our research focus is on understanding how forces applied to the musculoskeletal system can influence bone and joint health and function in adult men and women in health and disease.
