Prediction of the metabolic cost of walking with and without loads.

Measurement of the metabolic cost of walking inconveniences subjects, and requires skilled technical support and expensive equipment. These factors have stimulated interest in predictive equations. The present study assessed existing equations. Under each of 17 combinations of gradient (0-6%) and carried load (4.1-37.4 kg), 7-12 men undertook treadmill walking at 1.67 m/s. Measured oxygen consumption and respiratory exchange ratio were used to calculate metabolic rate (MRobserved). Metabolic rate was also predicted from the equation of Pandolf et al. (1977) (MRpandolf) and, where appropriate, from another five equations relating to walking without loads. MRobserved and MRpandolf did not differ significantly (p greater than 0.05) under any combination of gradient and load. The overall mean MRobserved and MRpandolf of 609 W and 602 W, respectively, also did not differ significantly (p greater than 0.05). These variables were highly correlated (r = 0.94) with a standard deviation about the prediction error of 47 W. For level walking without loads, the mean predictions from the equations of Pandolf et al. (1977) and Cotes and Meade (1960) did not differ significantly (p greater than 0.05) from the mean MRobserved of 428 Watts, but four other equations overestimated by 17-74 W. In conclusion, the Pandolf et al. (1977) equation has given good results across the range of combinations of load and gradient tested, and the errors are considered acceptable for most practical purposes.

[1]  R G Soule,et al.  Energy cost of loads carried on the head, hands, or feet. , 1969, Journal of applied physiology.

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

[3]  J. B. Weir New methods for calculating metabolic rate with special reference to protein metabolism , 1949, The Journal of physiology.

[4]  K B Pandolf,et al.  Energy expenditure during load carriage at high altitude. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.

[5]  A Duggan,et al.  Energy cost of stepping in protective clothing ensembles. , 1988, Ergonomics.

[6]  J M Adam,et al.  Food intake and energy expenditure of army recruits , 1970, British Journal of Nutrition.

[7]  C. H. Wyndham,et al.  An equation for prediction of energy expenditure of walking and running. , 1973, Journal of applied physiology.

[8]  M H Harrison,et al.  The 'Oxylog': an evaluation. , 1982, Ergonomics.

[9]  E. P. Cathcart,et al.  Army Hygiene Advisory Committee Report No. 3. , 1923 .

[10]  R W Norman,et al.  Metabolic measures to ascertain the optimal load to be carried by man. , 1981, Ergonomics.

[11]  J E Cotes,et al.  Relationships of oxygen consumption, ventilation and cardiac frequency to body weight during standardized submaximal exercise in normal subjects. , 1969, Ergonomics.

[12]  J. E. Cotes,et al.  The energy expenditure and mechanical energy demand in walking. , 1960 .

[13]  P Webb,et al.  Human calorimetry with a water-cooled garment. , 1972, Journal of applied physiology.

[14]  J V Durnin,et al.  Variations in total body metabolism during 'overfeeding' in man. , 1969, The Journal of physiology.

[15]  R F Goldman,et al.  Increased energy cost with multiple clothing layers. , 1972, Journal of applied physiology.

[16]  Corcoran Pj,et al.  Oxygen uptake in normal and handicapped subjects, in relation to speed of waing beside velocity-controlled cart. , 1970 .

[17]  N G Norgan,et al.  The energy and nutrient intake and the energy expenditure of 204 New Guinean adults. , 1974, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[18]  K B Pandolf,et al.  Comparison of uphill and downhill walking and concentric and eccentric cycling. , 1982, Ergonomics.

[19]  K B Pandolf,et al.  Metabolic energy expenditure and terrain coefficients for walking on snow. , 1976, Ergonomics.

[20]  S. Legg,et al.  Energy cost of backpacking in heavy boots. , 1986, Ergonomics.

[21]  J. Workman,et al.  Oxygen cost of treadmill walking. , 1963, Journal of applied physiology.

[22]  J W Redfearn,et al.  The Metabolic Cost of Load-Carrying: A Discussion of Experimental Findings , 1956 .

[23]  R. F. Goldman,et al.  Predicting energy expenditure with loads while standing or walking very slowly. , 1977, Journal of applied physiology: respiratory, environmental and exercise physiology.

[24]  J. Durnin,et al.  Individual variations in the energy expenditure of standardized activities , 1958, The Journal of physiology.

[25]  C F Consolazio,et al.  Energy expenditure studies in military populations using Kofranyi-Michaelis respirometers. , 1971, The American journal of clinical nutrition.

[26]  G GRIMBY,et al.  Energy expenditure of men in different age groups during level walking and bicycle ergometry. , 1962, Scandinavian journal of clinical and laboratory investigation.

[27]  R F Goldman,et al.  Effect of terrain on the energy cost of walking with back loads and handcart loads. , 1974, Journal of applied physiology.

[28]  D. B. Dill,et al.  TRAINING AND ITS EFFECTS ON MAN AT REST AND AT WORK , 1942 .

[29]  S Ganguli,et al.  Ergonomic study on above-knee prosthetic rehabilitees carrying graded loads. , 1976, Ergonomics.

[30]  K B Pandolf,et al.  Energy expenditure while standing or walking slowly uphill or downhill with loads. , 1979, Ergonomics.

[31]  J. Cotes,et al.  PHYSICAL TRAINING IN RELATION TO THE ENERGY EXPENDITURE OF WALKING AND TO FACTORS CONTROLLING RESPIRATION DURING EXERCISE , 1959 .

[32]  R. F. Goldman,et al.  Energy cost of load carriage. , 1962, Journal of applied physiology.

[33]  V. Mikulicic,et al.  THE INFLUENCE OF GRADED EXERCISES ON THE OXYGEN CONSUMPTION, PULMONARY VENTILATION AND HEART RATE OF YOUNG AND ELDERLY MEN , 1956 .

[34]  J. Durnin,et al.  Energy, work and leisure. , 1967 .

[35]  W L Daniels,et al.  The energy cost and heart-rate response of trained and untrained subjects walking and running in shoes and boots. , 1984, Ergonomics.

[36]  R. F. Goldman,et al.  Terrain coefficients for energy cost prediction. , 1972, Journal of applied physiology.

[37]  R. F. Goldman,et al.  Predicting metabolic energy cost. , 1971, Journal of applied physiology.

[38]  R. F. Goldman,et al.  Predicting rectal temperature response to work, environment, and clothing. , 1972, Journal of applied physiology.

[39]  S. R. Datta,et al.  Ergonomic comparison of seven modes of carrying loads on the horizontal plane. , 1971, Ergonomics.