Effects of prosthetic stiffness and added mass on metabolic power and asymmetry in female runners with a leg amputation | Journal of Applied Physiology https://t.co/ANeFMBDRTF
Greater than recommended stiffness and power setting of a stance-phase powered leg prosthesis can improve step-to-step transition work and effective foot length ratio during walking in people with transtibial amputation https://t.co/dSASO9Pgnk
Prosthetic Stiffness and Added Mass Affect Metabolic Power and Asymmetry in Female Runners with a Leg Amputation | Journal of Applied Physiology https://t.co/9JHrFXCT3W
Equivalent running leg lengths require prosthetic legs to be longer than biological legs during standing | @Janet_H_Zhang @Joshuatacca @PaoloTaboga_79 @AlenaGrabowski
Link: https://t.co/CroSJzXNmS
Effects of powered versus passive-elastic ankle foot prostheses on leg muscle activity during level, uphill and downhill walking | Royal Society Open Science https://t.co/5uRuebKKZr
We’re looking for a post-doc, research engineer, and lab technician to join our lab!
Please share with anyone interested in working on lower limb wearable robotics and AI for improving mobility in clinical populations.
More info on all positions here: https://t.co/47ups82DZF