OBJECTIVE: A decline of skeletal muscle mass and strength is seen with aging and immobilization. Growth hormone (GH) has been shown to increase muscle mass. In the present study the effects of a combination of mild exercise and GH on skeletal musculature tetanic tension, dry defatted weight (DDW), volume, water, fat and collagen concentrations were investigated in old rats. DESIGN: Recombinant human GH (2.7mg/kg per day) was injected subcutaneously for 73 days in 21-month-old female rats. Exercised rats ran on a treadmill, 8 m/min for 1 h/day. The in vivo maximal tetanic tension of the calf musculature (m. soleus, m. plantaris, m. gastrocnemius together) was analysed in anaesthetized rats by stimulating the ischiadic nerve. RESULTS: The maximal tetanic tension was increased by 23% in GH-injected compared to saline-injected rats. Mild exercise + GH in combination resulted in a further 18% increase in maximal tetanic tension. The mild exercise by itself did not influence the maximal tetanic tension significantly when compared with saline injected rats. The GH administration and/or mild exercise did not change skeletal muscle endurance, measured as tetanic tension during 30s of stimulation. Serum IGF-I concentration was increased twofold in GH-injected rats. CONCLUSION: The increased muscle mass induced by GH + mild exercise was associated with a corresponding increase in maximal tetanic tension. Combination of GH + mild exercise resulted in a substantial further increase of muscle mass and maximal tension compared with GH injections alone in these old rats.
OBJECTIVE: A decline of skeletal muscle mass and strength is seen with aging and immobilization. Growth hormone (GH) has been shown to increase muscle mass. In the present study the effects of a combination of mild exercise and GH on skeletal musculature tetanic tension, dry defatted weight (DDW), volume, water, fat and collagen concentrations were investigated in old rats. DESIGN: Recombinant humanGH (2.7mg/kg per day) was injected subcutaneously for 73 days in 21-month-old female rats. Exercised rats ran on a treadmill, 8 m/min for 1 h/day. The in vivo maximal tetanic tension of the calf musculature (m. soleus, m. plantaris, m. gastrocnemius together) was analysed in anaesthetized rats by stimulating the ischiadic nerve. RESULTS: The maximal tetanic tension was increased by 23% in GH-injected compared to saline-injected rats. Mild exercise + GH in combination resulted in a further 18% increase in maximal tetanic tension. The mild exercise by itself did not influence the maximal tetanic tension significantly when compared with saline injected rats. The GH administration and/or mild exercise did not change skeletal muscle endurance, measured as tetanic tension during 30s of stimulation. Serum IGF-I concentration was increased twofold in GH-injected rats. CONCLUSION: The increased muscle mass induced by GH + mild exercise was associated with a corresponding increase in maximal tetanic tension. Combination of GH + mild exercise resulted in a substantial further increase of muscle mass and maximal tension compared with GH injections alone in these old rats.
Authors: M Hameed; K H W Lange; J L Andersen; P Schjerling; M Kjaer; S D R Harridge; G Goldspink Journal: J Physiol Date: 2003-10-17 Impact factor: 5.182