References
- Jensen JS, Heim S. Evaluation of polypropylene prostheses designed by the International Committee of the Red Cross for trans‐tibial amputees. Prosthet Orthot Int 2000; 24: 47–54
- Jensen JS, Raab W. Clinical field testing of ATLAS prosthetic system for trans‐femoral amputees. Prosthet Orthot Int 2003; 27: 55–62
- Jensen JS, Raab W. Clinical field testing of trans‐femoral prosthetic technologies: resin‐wood and ICRC‐polypropylene. Prosthet Orthot Int 2004; 28: 141–151
- Machin D, Campbell MJ, Fayers PM, Pinol APY. Sample size tables for clinical studies./2nd edition. Blackwell Science, ‐London 1997
- Meanley S. The development of a prototype patella tendon bearing prosthesis using high‐density polyethylene piping (The drainpipe leg). Proc Instn Mech Engrs 1991; 205: 121–3
- Mittal RL, Bedi GPS, Gulati A. A follow up study of above knee prosthesis manufactured in Artificial Limb Centre, Rajendra Hospital, Patiala (1987). J Rehabil Asia 1987; 28: 5–9
- Mohan D, Sethi PK, Ravi R. Mathematical modelling and field trials of an inexpensive endoskeletal above‐knee prosthesis. Prosthet Orthot Int 1992; 16: 118–23
- Narang IC, Mathur BP, Singh P, Jape VS. Functional capabilities of lower limb amputees. Prosthet Orthot Int 1984; 8: 43–51
- Sethi PK, Enna CD. Lower limb prosthesis for amputees in rural areas. Surgical rehabilitation in leprosy./, F McDowell. ‐Baltimore, Williams & Wilkins. 1974; 396–402
- Sethi PK. Prosthetic and orthotic services in India. AOPA Almanac 1983; 32: 21–22
- Sethi PK. Technological choices in prosthetics and orthotics for developing countries. Prosthet Orthot Int 1989; 13: 117–24
- Sethi PK, Udawat MP, Kasliwal SC, Chandra R. Vulcanized rubber foot for lower limb amputees. Prosthet Orthot Int 1978; 2: 125–36
- Upadhaya M, Sharma SR, Sharma S. Structural modification of Jaipur foot with high density polyethylene shank. J Rehabil Asia 1988; 29: 13–16