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A relationship between impaired fetal growth and reduced muscle glycolysis revealed by 31P magnetic resonance spectroscopy (1995)

Taylor, D. J. ; Thompson, C. H. ; Kemp, G. J. ; [et al.]

Springer

Diabetologia 38 (1995), S. 1205-1212

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ISSN: 1432-0428

Keywords: 31P nuclear magnetic resonance spectroscopy ; skeletal muscle ; glucose metabolism ; fetal growth ; programming

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Thinness at birth is associated with insulin resistance and an increased prevalence of non-insulin-dependent diabetes mellitus in adult life. As muscle is an important site of insulin resistance, and because thin babies have reduced muscle mass, thinness at birth may affect muscle structure and function and impair carbohydrate metabolism. We have therefore used 31P magnetic resonance spectroscopy to investigate the bioenergetics of gastrocnemius and flexor digitorum superficialis muscles in 16 normoglycaemic women who had a low (≤ 23 kg/m3) and 9 women who had a high (〉23 kg/m3) ponderal index at birth. In the flexor digitorum superficialis study anaerobic metabolism was stressed with a constant heavy workload. Low ponderal index subjects fatigued more rapidly (3.3 vs 5.8 min); as phosphocreatine decreased, the accompanying drop in muscle pH was less than in the high ponderal index group. In the first minute of exercise phosphocreatine fell and adenosine diphosphate rose more rapidly (p=0.04 and 0.03, respectively). Gastrocnemius showed a similar trend late in exercise (this exercise was more oxidative, becoming more anaerobic with increasing workload). These changes were not explained by differences in body composition, muscle mass or blood flow. The findings are consistent with a decreased lactic acid and glycolytic adenosine triphosphate production in the low ponderal index group and suggest the possibility that the mechanisms which control substrate utilisation and metabolism in adult life be programmed during prenatal life.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00422370

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A relationship between impaired fetal growth and reduced muscle glycolysis revealed by 31P magnetic resonance spectroscopy (1995)

Taylor, D. J. ; Thompson, C. H. ; Kemp, G. J. ; [et al.]

Springer

Diabetologia 38 (1995), S. 1205-1212

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Details

ISSN: 1432-0428

Keywords: Key words31P nuclear magnetic resonance spectroscopy ; skeletal muscle ; glucose metabolism ; fetal growth ; programming.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Thinness at birth is associated with insulin resistance and an increased prevalence of non-insulin-dependent diabetes mellitus in adult life. As muscle is an important site of insulin resistance, and because thin babies have reduced muscle mass, thinness at birth may affect muscle structure and function and impair carbohydrate metabolism. We have therefore used 31P magnetic resonance spectroscopy to investigate the bioenergetics of gastrocnemius and flexor digitorum superficialis muscles in 16 normoglycaemic women who had a low (≤ 23 kg/m3) and 9 women who had a high (〉 23 kg/m3) ponderal index at birth. In the flexor digitorum superficialis study anaerobic metabolism was stressed with a constant heavy workload. Low ponderal index subjects fatigued more rapidly (3.3 vs 5.8 min); as phosphocreatine decreased, the accompanying drop in muscle pH was less than in the high ponderal index group. In the first minute of exercise phosphocreatine fell and adenosine diphosphate rose more rapidly (p = 0.04 and 0.03, respectively). Gastrocnemius showed a similar trend late in exercise (this exercise was more oxidative, becoming more anaerobic with increasing workload). These changes were not explained by differences in body composition, muscle mass or blood flow. The findings are consistent with a decreased lactic acid and glycolytic adenosine triphosphate production in the low ponderal index group and suggest the possibility that the mechanisms which control substrate utilisation and metabolism in adult life be programmed during prenatal life. [Diabetologia (1995) 38: 1205–1212]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00422370

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Proton efflux in human skeletal muscle during recovery from exercise (1997)

Kemp, G. J. ; Thompson, C. H. ; Taylor, D. J. ; [et al.]

Springer

European journal of applied physiology 76 (1997), S. 462-471

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ISSN: 1439-6327

Keywords: Key words Exercise ; Mitochondrial oxidation ; Muscle ; 31P magnetic resonance spectroscopy ; Proton efflux

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In recovery from exercise, phosphocreatine resynthesis results in the net generation of protons, while the net efflux of protons restores pH to resting values. Because proton efflux rate declines as pH increases, it appears to have an approximately linear pH-dependence. We set out to examine this in detail using recovery data from human calf muscle. Proton efflux rates were calculated from changes in pH and phosphocreatine concentration, measured by 31P magnetic resonance spectroscopy, after incremental dynamic exercise to exhaustion. Results were collected post hoc into five groups on the basis of end-exercise pH. Proton efflux rates declined approximately exponentially with time. These were rather similar in all groups, even when pH changes were small, so that the apparent rate constant (the ratio of efflux rate to pH change) varied widely. However, all groups showed a consistent pattern of decrease with time; the halftimes of both proton efflux rate and the apparent rate constant were longer at lower pH. At each time-point, proton efflux rates showed a significant pH-dependence [slope 17 (3) mmol · l−1 · min−1 · pH unit−1 at the start of recovery, mean (SEM)], but also a significant intercept at resting pH [16 (3) mmol · l−1 · min−1 at the start of recovery]. The intercept and the slope both decreased with time, with halftimes of 0.37 (0.06) and 1.4 (0.4) min, respectively. We conclude that over a wide range of end-exercise pH, net proton efflux during recovery comprises pH-dependent and pH-independent components, both of which decline with time. Comparison with other data in the literature suggests that lactate/proton cotransport can be only a small component of this initial recovery proton efflux.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050276

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