Lower limb alactic anaerobic power output assessed with different techniques in morbid obesity

• Published in: Journal of endocrinological investigation Vol. 25; no. 2; pp. 134 - 141
• Main Authors: LAFORTUNA, C. L, FUMAGALLI, E, VANGELI, V, SARTORIO, A
• Format: Journal Article
• Language: English
• Published: Milano Kurtis 01.02.2002
• Subjects: Adult; Anaerobiosis; Biological and medical sciences; Body Mass Index; Female; Functional investigation of endocrine glands and genital system; Humans; Investigative techniques, diagnostic techniques (general aspects); Lactic Acid - metabolism; Leg; Male; Medical sciences; Metabolic diseases; Middle Aged; Motor Activity; Muscle, Skeletal - physiopathology; Obesity; Obesity, Morbid - physiopathology; Physical Exertion; Postural Balance; Regression Analysis; Running; Short term; Performance evaluation; Human; Obesity; Correlation; Force; Nutrition disorder; Effort; Sex; Lower limb; Leanness; Fat mass; Foot; Verticality; Specificity; Nutritional status; Age distribution
• ISSN: 0391-4097; 1720-8386
• DOI: 10.1007/BF03343977

Short-term alactic anaerobic performance in jumping (5 consecutive jumps with maximal effort), sprint running (8 m) and stair climbing (modified Margaria test) were measured in 75 obese subjects (BMI: 40.3+/-5.0 kg/m2) and in 36 lean control subjects (BMI: 22.4+/-3.2 kg/m2) of the same age and gender distribution. The results show that obese subjects attained a significantly lower specific (per unit body mass) power output both in jumping (W(spec,j); p<0.001) and stair climbing (W(spec,s); p<0.001) and run at a significantly lower average velocity (v; p<0.001) during sprinting. In spite of the different motor skillfulness required to accomplish the jumping and climbing tests, W(spec,s) (and hence the vertical velocity in climbing, v(v)) was closely correlated with W(spec,j) (R2=0.427, p<0.001). In jumping, although the average force during the positive work phase was significantly higher in obese subjects (p<0.001), no difference between the 2 groups was detected in absolute power. In stair climbing the absolute power output of obese resulted significantly higher (18%) than that of lean controls (p<0.001). In sprint running, the lower average horizontal velocity attained by obese subjects also entailed a different locomotion pattern with shorter step length (L(s); p<0.001), lower frequency (p<0.001) and longer foot contact time with ground (T(c,r); p<0.001). W(spec,j) seems to be a determinant of the poorer motor performance of obese, being significantly correlated with: I) the vertical displacement of the centre of gravity (R2=0.853, p<0.001) in jumping; II) with v(v) in stair climbing; and III) with T(c,r) (R2=0.492, p<0.001), L(s) (R2=0.266, p<0.001) and v (R2=0.454, p<0.001) in sprinting. The results suggest that obese individuals, although partially hampered in kinetic movements, largely rely on their effective specific power output to perform complex anaerobic tasks, and they suffer from the disproportionate excess of inert mass of fat. Furthermore, in view of the sedentary style of life and the consequent degree of muscle de-conditioning accompanying this condition, it may prove useful to implement rehabilitation programs for obesity with effective power training protocols.