Anthony Manzon scite author profile

We compared glucoregulatory responses to intense exercise (14 min at 88% maximum O(2) uptake) between genders (16 men, 12 women). Analysis of covariance of maximum O(2) uptake showed no gender effect, with 82% of variance due to fat-free mass (FFM). Glycemia rose comparably during exercise but was higher in women during recovery (P = 0.02). Glucose production [rate of appearance (R(a)); in mg/min] increased markedly in both; stepwise multiple regression and analysis of covariance of R(a) (peak and incremental area under the curve) showed no effect of gender, body weight, or FFM. Glucose uptake [rate of disappearance (R(d))] increased less than R(a) and slower in women. R(d) area under the curve related to FFM (P = 0.01) but not gender or body weight. Norepinephrine and epinephrine responses (13-18x baseline) were the same and correlated significantly with R(a). Exercise insulin and glucagon changes were slight, but postexercise hyperinsulinemia was greater in women (P = 0.018), along with higher R(d). Therefore, intense exercise glucoregulation is qualitatively similar between genders, with a "feed-forward" regulation of R(a) (consistent with catecholamine mediation). However, women have a lesser R(d) response, related to FFM. This combination leads to greater recovery-period hyperglycemia and hyperinsulinemia.

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Glucose infusion partially attenuates glucose production and increases uptake during intense exercise

Manzon

Fisher

Morais

et al. 1998

Journal of Applied Physiology

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Glucose infusion can prevent the increase in glucose production (Ra) and increase glucose uptake (Rd) during exercise of moderate intensity. We postulated that 1) because in postabsorptive intense exercise (>80% maximal O2 uptake) the eightfold increase in Ra may be mediated by catecholamines rather than by glucagon and insulin, exogenous glucose infusion would not prevent the Ra increment, and 2) such infusion would cause greater Rd. Fit young men were exercised at >85% maximal O2 uptake for 14 min in the postabsorptive state [controls (Con), n = 12] or at minute 210 of a 285-min glucose infusion. In seven subjects, the infusion was constant (CI; 4 mg . kg-1 . min-1), and in seven subjects it was varied (VI) to mimic the exercise Ra response in Con. Although glucose suppressed Ra to zero (with glycemia approximately 6 mM and insulin approximately 150 pM), an endogenous Ra response to exercise occurred, to peak increments two-thirds those in Con, in both CI and VI. Glucagon was unchanged, and very small increases in the glucagon-to-insulin ratio occurred in all three groups. Catecholamine responses were similar in all three groups, and correlation coefficients of Ra with plasma norepinephrine and epinephrine were significant in all. In all CI and VI, Rd at rest was 2x Con, increased earlier in exercise, and was higher for the 1 h of recovery with glucose infusion. Thus the Ra response was only partly attenuated, and the catecholamines are likely to be the regulators. This suggests that an acute endogenous Ra rise is possible even in the postprandial state. Furthermore, the fact that more circulating glucose is used by muscle during exercise and early recovery suggests that muscle glycogen is spared.

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Glucoregulation during and after intense exercise: Effects of α-adrenergic blockade

et al. 2000

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Anthony Manzon

Gender differences in glucoregulatory responses to intense exercise

Glucose infusion partially attenuates glucose production and increases uptake during intense exercise

Glucoregulation during and after intense exercise: Effects of α-adrenergic blockade

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