It has been proposed that one mechanism for nerve and muscle dysfunction with age involves the mitochondria. Mitochondria contain the only DNA outside the nucleus in mammalian cells. Mitochondrial DNA (mtDNA) has a high mutation rate, and low levels of pathogenic mutations have been found in tissues from elderly subjects. However, the role of these mutations in the aging process is uncertain unless a mechanism can be identified that would lead to a biochemical defect. In muscle tissue from normal elderly subjects we show that there are muscle fibers with very low activity of cytochrome c oxidase, suggestive of a mtDNA defect. In these cytochrome c oxidase-deficient fibers we have found very high levels of mutant mtDNA. In addition, different mtDNA mutations are present in different fibers, which explains why there is a low overall incidence of an individual mutation in tissues from elderly subjects. These studies show a direct age-related correlation between a biochemical and genetic defect in normal human tissues and that mtDNA abnormalities are involved in the aging process in human muscle.
It has been proposed that ageing results from the accumulation of mitochondrial DNA mutations with age which interfere with respiratory chain ATP production. Insufficient ATP production impairs cell function, and tissue dysfunction ensues, leading to morbidity, decline and eventually death. Supporting this theory, mitochondrial DNA mutations accumulate with age and respiratory chain function declines dramatically in human skeletal muscle. However, the extent of decline in respiratory chain function is greater (50%) than anticipated from the low levels of mitochondrial DNA mutations (< 1%) observed in aged muscle. We hypothesized that an age-related reduction in physical activity could be an important factor in this decline and thus studied the influence of chronological age on muscle mitochondria in subjects matched for levels of physical activity. In this carefully selected group, there was little correlation between oxidative metabolism and age. However, several parameters of respiratory chain function did correlate with markers of physical activity (activity score and handgrip strength). Our results suggest that reduced physical activity is a major contribution to the decline in mitochondrial oxidations during ageing. Physical activity ameliorates and may even mask mitochondrial 'ageing' in muscle.
Elderly haemodialysis patients have a high incidence of hypotensive symptoms between dialysis sessions, recalled falls in the previous year and significant postural hypotension post-dialysis. Physicians supervising elderly haemodialysis patients should ask about symptoms between dialysis sessions and explore the possibility of hypotensive events in symptomatic patients.
Older haemodialysis patients have a high incidence of falls. Falls can be prevented by addressing modifiable risk factors. Whether existing guidelines are applicable to this specialised population is uncertain. There is a high incidence of syncope in dialysis patients of all ages and the cause of this needs further exploration.
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