Energy Expenditure of Transfemoral Amputees Walking on a Horizontal and Tilted Treadmill Simulating Different Outdoor Walking Conditions

Transfemoral amputees often report that walking on tilted pavements or on terrain with the prosthesis on the side of higher elevation is quite strenuous. This study investigates the energy expenditure of transfemoral amputees (n = 8) on a motorized treadmill, simulating different strenuous outdoor walking conditions. Oxygen uptake at self-selected speed of gait was measured during walking at three different treadmill positions: (i) Horizontal treadmill, (ii) 3% tilt in the sagittal plane and (iii) 3% tilt in both the sagittal and frontal plane of the treadmill. The difference in median values of oxygen uptake between position (i) and (ii) was 4.3%, and 16.4% between position (ii) and (iii) (p ≤ 0.05, for both comparisons). The subjects utilized about 50% of their VO2max when walking in position (i) and (ii), with an increase to about 60% of their VO2max when walking in position (iii). Transfemoral amputees use significantly more energy when walking on a moderately tilted surface in the frontal plane compared to walking with a tilt in the sagittal plane. This is probably because the prosthetic leg becomes functionally too long when the walking surface is tilted sideways, and the transfemoral amputees adopt a more energy consuming gait pattern.

[1]  Smith Dg,et al.  Atlas Of Amputations and Limb Deficiencies : Surgical, Prosthetic, and Rehabilitation Principles , 2004 .

[2]  T. Chin,et al.  Comparison of Different Microprocessor Controlled Knee Joints on the Energy Consumption during Walking in Trans-Femoral Amputees: Intelligent Knee Prosthesis (IP) Versus C-Leg , 2006, Prosthetics and orthotics international.

[3]  J. Czerniecki,et al.  Rehabilitation in limb deficiency. 1. Gait and motion analysis. , 1996, Archives of physical medicine and rehabilitation.

[4]  L. M. Sheldahl,et al.  Physiological comparison of walking among bilateral above-knee amputee and able-bodied subjects, and a model to account for the differences in metabolic cost. , 1997, Archives of physical medicine and rehabilitation.

[5]  C. Roberts,et al.  A review of the energy expenditure of disabled locomotion with special reference to lower limb amputees , 1992 .

[6]  Denise Polit-O'Hara,et al.  Nursing Research: Principles and Methods , 1978 .

[7]  T. Schmalz,et al.  Energy expenditure and biomechanical characteristics of lower limb amputee gait: the influence of prosthetic alignment and different prosthetic components. , 2002, Gait & posture.

[8]  Seishi Sawamura,et al.  Physical Fitness of Lower Limb Amputees , 2002, American journal of physical medicine & rehabilitation.

[9]  Michael W. Whittle,et al.  Gait Analysis: An Introduction , 1986 .

[10]  S. Fox,et al.  Exercise tests in patients with chronic disease. , 1971, Journal of chronic diseases.

[11]  K. Hagberg,et al.  Consequences of non-vascular trans-femoral amputation: A survey of quality of life, prosthetic use and problems , 2001, Prosthetics and orthotics international.

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

[13]  B E Ainsworth,et al.  Measurement of daily walking distance-questionnaire versus pedometer. , 2000, Medicine and science in sports and exercise.

[14]  M Rabuffetti,et al.  Trans-Femoral Amputee Gait: Socket – pelvis Constraints and Compensation Strategies , 2005, Prosthetics and orthotics international.

[15]  J. Durnin,et al.  Human energy expenditure. , 1955, Physiological reviews.

[16]  Donald G. Shurr,et al.  Transfemoral Amputee Physiological Requirements: Comparisons Between SACH Foot Walking and Flex-Foot Walking , 1997 .

[17]  F. Péronnet,et al.  Table of nonprotein respiratory quotient: an update. , 1991, Canadian journal of sport sciences = Journal canadien des sciences du sport.

[18]  R. Waters,et al.  Energy cost of walking of amputees: the influence of level of amputation. , 1976, The Journal of bone and joint surgery. American volume.

[19]  E. Shvartz,et al.  Aerobic fitness norms for males and females aged 6 to 75 years: a review. , 1990, Aviation, space, and environmental medicine.

[20]  Stefano Brunelli,et al.  Energy cost of walking measurements in subjects with lower limb amputations: a comparison study between floor and treadmill test. , 2008, Gait & posture.

[21]  S. Compton,et al.  Nursing research. Principles and methods: 7th edition , 2005 .