Below-knee amputee gait with dynamic elastic response prosthetic feet: a pilot study.

The purpose of this pilot study was to investigate some of the new dynamic elastic response (DER) prosthetic feet compared to the SACH foot and determine if any demonstrated trends of producing the most optimum gait. We investigated the gait of five below-knee amputees while wearing four different DER feet (Flex-Foot, Carbon Copy II, SEATTLE, STEN) and a standard SACH foot. Each subject used each foot for 1 month prior to in-depth gait analysis and energy expenditure testing at the Pathokinesiology Laboratory. Minimal differences in either free or fast walking were noted between the five feet. The Flex-Foot resulted in significantly different gait kinematics at the "ankle" compared to the other four feet, however, this foot did not produce an increased velocity nor an improved energy cost. The results of this pilot study indicated that during free or fast-paced walking on level ground there were no clinically significant advantages of any one of the feet tested. Based on this pilot data, recommendations are made for future studies including appropriate sample size.

[1]  J W Michael Re: Below-knee amputee gait with dynamic elastic response prosthetic feet: a pilot study. , 1992, Journal of rehabilitation research and development.

[2]  J. Mcelhaney,et al.  A system to measure the forces and moments at the knee and hip during level walking , 1984, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[3]  E. Culham,et al.  Below-Knee Amputation: A Comparison of the Effect of the Sach Foot and Single Axis Foot on Electromyographic Patterns During Locomotion , 1986, Prosthetics and orthotics international.

[4]  Robert E. Arbogast,et al.  The Carbon Copy II—From Concept to Application , 1988 .

[5]  JoAnne K. Gronley,et al.  Timing and relative intensity of hip extensor and abductor muscle action during level and stair ambulation. An EMG study. , 1983, Physical therapy.

[6]  J. Basmajian,et al.  A new bipolar electrode for electromyography , 1962 .

[7]  Corcoran Pj,et al.  Energy expenditure in below-knee amputees: correlation with stump length. , 1974 .

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

[9]  S. Simon,et al.  Role of the posterior calf muscles in normal gait. , 1978, The Journal of bone and joint surgery. American volume.

[10]  H. Skinner,et al.  Gait analysis in amputees. , 1985, American journal of physical medicine.

[11]  J Perry,et al.  Functional demands on the stance limb in walking. , 1985, Orthopedics.

[12]  N. Adler,et al.  Electromyography of the vastus medialis oblique and vasti in normal subjects during gait. , 1983, Electromyography and clinical neurophysiology.

[13]  C. Michael Schuch Dynamic Alignment Options for the Flex-Foot™ , 1988 .

[14]  D. Sutherland,et al.  The role of the ankle plantar flexors in normal walking. , 1980, The Journal of bone and joint surgery. American volume.

[15]  J E Edelstein Prosthetic feet. State of the Art. , 1988, Physical therapy.

[16]  Skinner Hb,et al.  Gait analysis in amputees. , 1985 .

[17]  S. E. Solomonidis,et al.  Biomechanical evaluation of SACH and uniaxial feet , 1984, Prosthetics and orthotics international.