The ability to develop muscle force rapidly may be a very important factor to prevent a fall and to perform other tasks of daily life. However, information is still lacking on the range of training-induced neuromuscular adaptations in elderly humans recovering from a period of disuse. Therefore, the present study examined the effect of three types of training regimes after unilateral prolonged disuse and subsequent hip-replacement surgery on maximal muscle strength, rapid muscle force [rate of force development (RFD)], muscle activation, and muscle size. Thirty-six subjects (60-86 yr) were randomized to a 12-wk rehabilitation program consisting of either 1) strength training (3 times/wk for 12 wk), 2) electrical muscle stimulation (1 h/day for 12 wk), or 3) standard rehabilitation (1 h/day for 12 wk). The nonoperated side did not receive any intervention and thereby served as a within-subject control. Thirty subjects completed the trial. In the strength-training group, significant increases were observed in maximal isometric muscle strength (24%, P < 0.01), contractile RFD (26-45%, P < 0.05), and contractile impulse (27-32%, P < 0.05). No significant changes were seen in the two other training groups or in the nontrained legs of all three groups. Mean electromyogram signal amplitude of vastus lateralis was larger in the strength-training than in the standard-rehabilitation group at 5 and 12 wk (P < 0.05). In contrast to traditional physiotherapy and electrical stimulation, strength training increased muscle mass, maximal isometric strength, RFD, and muscle activation in elderly men and women recovering from long-term muscle disuse and subsequent hip surgery. The improvement in both muscle mass and neural function is likely to have important functional implications for elderly individuals.
Postoperative resistance training effectively increased maximal muscle strength, muscle mass, and muscle function more than a standard rehabilitation regime. Furthermore, it markedly reduced LOS in elderly postoperative patients.
The goal of the present study was twofold: (1) to detect the possible storage of dietary polyamines (PAs) in various tissues and (2) to investigate the role of dietary PAs in the differentiation of the pig intestinal epithelium. A first experimental series was designed to assess the accumulation of either milk PAs (mostly spermidine) or orally administered spermine (SPM) in piglet red blood cells (RBCs) and plasma, a preliminary stage in their distribution to growing and storage organs. Though PA concentrations of piglet RBCs and plasma were generally significantly higher than their sow counterparts, our experimental conditions failed to demonstrate that this increase could stem from ingested PAs. A second experimental series dealt with the determination of disaccharidase specific activities in proximal and distal parts of piglet gut on the 26th and 29th days after birth (preweaning time). In agreement with observations made previously on rat pups, we observed an increase in maltase specific activity (SA) at the end of the suckling period (the observed increase in sucrase SA was not significant). However, orally administered SPM did not affect this activity. Compared to the constant protein concentrations observed in both parts of the gut, the pancreatic protein content decreased sharply between the 26th and 29th postnatal days. At the same time pancreatic concentrations of spermidine (SPD) also decreased, suggesting that some pancreatic PAs were released as the organ secreted its proteins. In accordance with this hypothesis, we recorded SPM and SPD in pancreatic juice. The increases in PA concentrations seemed to follow the protein secretion pattern (i.e. PA concentrations reached a maximal value when the protein concentration was highest). The presence of PAs in pancreatic juice could be indicative of a control mechanism exerted by the pancreas on PA-induced growth and differentiation of porcine intestinal epithelium.
A case of hepatic actinomycosis contracted one year after removal of an intrauterine device during ongoing Actinomyces cervicitis is reported. During active disease, lymphocytes from the apparently fully immunocompetent patient were able to proliferate but not to produce the proinflammatory lymphokine γ‐interferon in response to Actinomyces antigen. This ability was only partly restored during antibiotic therapy.
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