Ulf Bergh scite author profile

The influence of muscle temperature (Tm) on maximal muscle strength, power output, jumping, and sprinting performance was evaluated in four male subjects. In one of the subjects the electromyogram (EMG) was recorded from M. vastus lateralis, M. biceps femoris, and M. semitendinosus. Tm ranged from 30.0 degrees C to 39 degrees C. Maximal dynamic strength, power output, jumping, and sprinting performance were positively related to Tm. The changes were in the same order of magnitude for all these parameters (4-6% x degrees C-1) Maximal isometric strength decreased by 2% x degrees C-1 with decreasing Tm. The force-velocity relationship was shifted to the left at subnormal Tm. Thus in short term exercises, such as jumping and sprinting, performance is reduced at low Tm and enhanced at Tm above normal, primarily as a result of a variation in maximal dynamic strength.

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The relationship between body mass and oxygen uptake during running in humans

Bergh¹,

Sjödin²,

Forsberg³

et al. 1991

Medicine & Science in Sports & Exercise

183

103

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Maximal oxygen uptake during exercise with various combinations of arm and leg work

Bergh¹,

Kanstrup²,

Ekblom³

1976

Journal of Applied Physiology

176

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Oxygen uptake (VO2) was determined in 10 males during the following types of maximal exercise (work time: about 5 min): uphill running, bicycling, arm work (cranking), and combined arm work and bicycling (A + L). The A + L exercise was performed in four different ways, the arms doing 10%, 20%, 30%, or 40% of the same total rate of work; and also with the maximal bicycle work load plus either maximal or submaximal arm work. VO2 was the same in running as in all types of A + L exercise, except when the arm work load was 10% and 40% of the total rate of work, where VO2 was 2.5% (P less than 0.05) and 9.4% (P less than 0.001) lower, respectively. Bicycle VO2 was lower than VO2 in running but equal to A + L VO2 when arm work intensity was 40% of the total rate of work. It is concluded that VO2 during maximal exercise a) to a certain extent depends on the exercising muscle mass, b) is lower than the oxygen-consuming potential of the muscles involved in A + L exercise, and c) in A + L exercise is influenced by the ratio of arm work to total rate of work and the subject's fitness for arm work and bicycling.

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The influence of body mass in cross-country skiing

Bergh

1987

Medicine & Science in Sports & Exercise

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Energy exchanges of swimming man.

Nadel¹,

Holmér²,

Bergh³

et al. 1974

Journal of Applied Physiology

140

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Physical performance and peak aerobic power at different body temperatures

Bergh¹,

Ekblom²

1979

Journal of Applied Physiology

116

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In eight male subjects we studied the effect of different core (esophageal, (Tes 34.9--38.4 degrees C) and muscle (Tm 35.1--39.3 degrees C) temperature on 1) physical performance (time to exhaustion at a standard maximal rate of work, WT), 2) aerobic power (VO2), 3) heart rate (HR), and 4) blood lactate (LA) concentration during exhaustive combined arm and leg exercise. In three subjects the effects at different mean skin temperatures (Tsk 27 and 31 degrees C, respectively) were also studied. Peak VO2 was positively correlated to both Tes (r = 0.88) and Tm (r = 0.91). None of the subjects attained control VO2max at Tes and Tm lower than 37.5 and 38.0 degrees C, respectively. HR was correlated to both Tes (r = 0.97) and Tm (r = 0.95). Different Tsk did not affect peak VO2 and HR at subnormal body temperatures. Pulmonary ventilation was independent of Tes and Tm in all experimental situations. LA was significantly higher at Tes 37.5 degrees C compared to both Tes 34.9 and 38.5 degrees C, respectively. At Tes less than 37.5 degrees C and Tm less than 38.0 degrees C, there was a linear reduction in WT (20%.degrees C-1), peak VO2 (5--6%.degrees C-1), and HR (8 beats.min-1.degrees C-1) with lowered Tes and Tm.

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Body temperatures and sweating during exhaustive exercise.

Saltin¹,

Gagge²,

Bergh³

et al. 1972

Journal of Applied Physiology

100

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Metabolic and thermal response to swimming in water at varying temperatures.

Holmér¹,

Bergh²

1974

Journal of Applied Physiology

103

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Ulf Bergh

Influence of muscle temperature on maximal muscle strength and power output in human skeletal muscles

The relationship between body mass and oxygen uptake during running in humans

Maximal oxygen uptake during exercise with various combinations of arm and leg work

The influence of body mass in cross-country skiing

Energy exchanges of swimming man.

Physical performance and peak aerobic power at different body temperatures

Body temperatures and sweating during exhaustive exercise.

Metabolic and thermal response to swimming in water at varying temperatures.

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