Preliminary study of a robotic foot-ankle prosthesis with active alignment

Robotic prosthetic foot-ankle prostheses typically aim to replace the lost joint with revolute joints aimed at replicating normal joint biomechanics. In this paper, a previously developed robotic ankle prosthesis with active alignment is evaluated. It uses a four-bar mechanism to inject positive power into the gait cycle while altering the kinematics of the ankle joint and pylon segment to reduce loading on the residual limb. In a single-subject biomechanics analysis, there was a 10% reduction in peak limb pressures and evidence of greater gait symmetry in ground reaction forces when active alignment was implemented compared to walking with the daily use prosthesis. These results provide preliminary evidence that an alternative lower limb prosthesis may be capable of improving gait characteristics over traditional revolute designs.

[1]  B. Persson,et al.  Prevalence of back pain, its effect on functional ability and health-related quality of life in lower limb amputees secondary to trauma or tumour: a comparison across three levels of amputation , 2011, Prosthetics and orthotics international.

[2]  Andrew K. LaPre,et al.  Simulation of a powered ankle prosthesis with dynamic joint alignment , 2014, 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[3]  Andrew K. LaPre,et al.  A Control Strategy for an Active Alignment Transtibial Prosthesis , 2015 .

[4]  H. Seelen,et al.  Effects of prosthesis alignment on pressure distribution at the stump/socket interface in transtibial amputees during unsupported stance and gait , 2003, Clinical rehabilitation.

[5]  R. Hébert,et al.  Lower limb prosthesis utilisation by elderly amputees , 2000, Prosthetics and orthotics international.

[6]  C. Beekman,et al.  Prosthetic use in elderly patients with dysvascular above-knee and through-knee amputations. , 1987, Physical therapy.

[7]  E. Mackenzie,et al.  Use and Satisfaction with Prosthetic Devices Among Persons with Trauma-Related Amputations: A Long-Term Outcome Study , 2001, American journal of physical medicine & rehabilitation.

[8]  Alena M. Grabowski,et al.  Does Use of a Powered Ankle-foot Prosthesis Restore Whole-body Angular Momentum During Walking at Different Speeds? , 2014, Clinical orthopaedics and related research.

[9]  M. Nash,et al.  The amputee mobility predictor: an instrument to assess determinants of the lower-limb amputee's ability to ambulate. , 2002, Archives of physical medicine and rehabilitation.

[10]  D. Winter,et al.  Biomechanics of below-knee amputee gait. , 1988, Journal of biomechanics.

[11]  C. V. van Heugten,et al.  The prevalence of osteoarthritis of the intact hip and knee among traumatic leg amputees. , 2009, Archives of physical medicine and rehabilitation.

[12]  A. Gefen,et al.  Internal mechanical conditions in the soft tissues of a residual limb of a trans-tibial amputee. , 2008, Journal of biomechanics.

[13]  J. Sanders,et al.  Effects of alignment changes on stance phase pressures and shear stresses on transtibial amputees: measurements from 13 transducer sites. , 1998, IEEE transactions on rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society.

[14]  H. Chadderton Prostheses, pain and sequelae of amputation, as seen by the amputee∗ , 1978, Prosthetics and orthotics international.

[15]  R. Waters,et al.  The energy expenditure of normal and pathologic gait. , 1999, Gait & posture.

[16]  Andrew K. LaPre,et al.  Redefining prosthetic ankle mechanics: Non-anthropomorphic ankle design , 2013, 2013 IEEE 13th International Conference on Rehabilitation Robotics (ICORR).

[17]  Philip E. Martin,et al.  Lower extremity kinematic and kinetic adaptations in unilateral below-knee amputees during walking , 1997 .

[18]  Andrew K. LaPre,et al.  A Lower Limb Prosthesis with Active Alignment for Reduced Limb Loading , 2016 .

[19]  J. Czerniecki,et al.  The prevalence of knee pain and symptomatic knee osteoarthritis among veteran traumatic amputees and nonamputees. , 2005, Archives of physical medicine and rehabilitation.

[20]  B. R. Umberger,et al.  A Robotic Ankle–Foot Prosthesis With Active Alignment , 2016 .