Halsne EG, Turner AT, Curran CS, Caputo JM, Hansen AH, Hafner BJ, Morgenroth DC. (2020) Annual Meeting of the American Society of Biomechanics.
Turner AT, Halsne EG, Hansen AH, Walker NR, Behrens KM, Childers WL, Brousseau LM, Caputo JM, Curran CS, Hafner BJ, Morgenroth DC. (2020) Military Health System Research Symposium.
Cooper KJ, Childers WL, Behrens KM, Brousseau LM, Caputo JM, Curran CS, Hafner BJ, Halsne EG, Hansen AH, Turner AT, Walker NR, Morgenroth DC. (2020) Military Health System Research Symposium.
Brousseau LM, Childers WL, Hansen AH, Walker NR, Behrens KM, Caputo JM, Curran CS, Hafner BJ, Turner AT, Halsne EG, Morgenroth DC. (2020) Military Health System Research Symposium.
She received an award at SAMC’s Omer Day for Most Outstanding Research in the Field of #Neuromusculoskeletal #Rehabilitation for her work investigating the predictive validity of in-lab test-driving of #prosthetic feet.
Congratulations to all of our fellow graduates along with the final pitch competition winner,@CerebroscopeSPP! #Pittsburgh #Entrepreneurs #MadeInPGH #LifeSciences
Beth Halsne was the recipient of an Orthotic & #Prosthetic Education & Research Foundation (OPERF) 2020 Fellowship Award for research on gait #biomechanics with commercial and emulated feet. The one-year fellowship recognizes outstanding graduate students and their excellence in research related to the O&P profession. Beth and her advisor David Morgenroth will use this award […]
We are working to enhance the provision of appropriate #prosthetic / #orthotic technology by developing user-centric tools for assessment, fitting & training. Learn more about the importance of the WHO’s GATE initiative at https://t.co/ZsouoljPnS?amp=1
The system is a tethered #robotic ankle-foot prosthesis designed for research & development aimed at discovering new ways of enhancing #mobility for persons with lower-limb amputation. https://t.co/TcVvNXWSda?amp=1
Researchers at Stanford University have created a completely open source robotic perturbation system (Bump’em). The system simulates various modes of fall-inducing perturbations in a repeatable way, enabling fundamental research on human gait and balance and facilitate the development of devices to assist human balance. To facilitate use by researchers from all backgrounds, the team designed […]