Partner Institution

University of Calgary

The University of Calgary is home to one of Canada’s top research facilities for joint health, the McCaig Institute of Joint and Bone Health. At its Centre for Mobility and Joint Health, clinical researchers have access to the most current imaging, movement assessment and diagnostic resources. The Institute also houses the latest biomechanical equipment and expertise at its Biomechanics Lab. In addition to its state-of-the-art facilities, the Institute is also positioned within a broad clinical research network through its affiliations with the Cumming School of Medicine and Arthritis Research Canada, North America’s largest clinical arthritis research institution.

Collaborators

Dr. Emily L. Bishop

University of Calgary

Dr. Gregor Kuntze

University of Calgary

Dr. Janet L. Ronsky

University of Calgary

Milestones

2018 

Mitacs grants funding to the University of Calgary and Spring Loaded to support their joint research projects on the biomechanics and clinical effects of the Levitation knee brace.

December 2019 

Research agreement between University of Calgary and Spring Loaded signed into effect.

December 2019 

Researchers commence data collection for a biomechanics study and a clinical study on the Levitation knee brace.

April 2020 

Abstract summarizing the biomechanical effects of the Levitation knee brace in patients with knee arthritis published in Osteoarthritis and Cartilage.

2020

Full paper on the biomechanical effects of the Levitation knee brace in patients with knee arthritis under peer review at Osteoarthritis and Cartilage.

2020

Results from a preliminary evaluation of the Levitation knee brace under peer review at the Journal of Prosthetics and Orthotics.

Today

Data collection ongoing.

Affiliated Projects

Second biomechanical study of a tri-compartment unloader

By using a biomechanical model of the knee, this study demonstrated a tri-compartment unloader brace (TCU) can reduce a number of contact and ligament forces across the knee during a deep knee bend. The results replicate and extend the findings of Budarick et al. 2020, which demonstrated that a TCU can reduce knee joint loading.

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