Changes in renal blood flow measured by radionuclide angiography following exhausting exercise in humans

Suzuki, Masato; Sudoh, Masamichi; Matsubara, Shigeru; Kawakami, Kenji; Shiota, Masatoshi; S, Ikawa

doi:10.1007/bf00376487

Cited by 30 publications

(18 citation statements)

References 11 publications

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“…The increase in plasma volume also might be due to impairment in renal function as plasma urea and urinary specific gravity was significantly increased (Table 2). An exercise-induced reduction in renal blood flow can be considered as the underlying mechanism of an impaired renal function (Neumayr et al 2003;Neumayr et al 2005;Suzuki et al 1996). We found no association, however, between Δ plasma urea and Δ urinary specific gravity (r = −0.11, p > 0.05) and between Δ plasma volume and Δ urinary specific gravity (r = 0.13, p > 0.05).…”

Section: Why Does Plasma Volume Increase?contrasting

confidence: 52%

An Ironman Triathlon Does Not Lead to a Change in Body Mass in Female Triathletes

Knechtle¹,

Wirth

Baumann³

et al. 2010

Research in Sports Medicine

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In 16 female nonprofessional Ironman triathletes, body mass, percent body fat, and skeletal muscle mass were determined before and after an Ironman race in order to detect changes. Selected hematological and urinary variables as well as percent total body water were measured in order to quantify a change in hydration status. Body mass, skeletal muscle mass, percent body fat, and percent body water did not change (p > 0.05). Plasma volume increased significantly by 8.1 (13.7) % (p < 0.05). The significant increase in plasma volume, plasma urea concentration, and urinary specific gravity after the race was associated with a significant fall in hematocrit and plasma sodium concentration (p < 0.05). In contrast to studies of male Ironman triathletes, we could not detect a decrease in body mass in female Ironman triathletes. The statistically insignificant loss of 0.6 kg in body mass was smaller than reported in studies of male athletes.

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Section: Why Does Plasma Volume Increase?contrasting

confidence: 52%

An Ironman Triathlon Does Not Lead to a Change in Body Mass in Female Triathletes

Knechtle¹,

Wirth

Baumann³

et al. 2010

Research in Sports Medicine

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“…During a prolonged endurance performance, extensive fluid losses through sweat and respiration may lead to dehydration and hypovolemia accompanied by an exercise-induced impairment of renal blood flow and renal function (Suzuki et al 1996). Severe cases were considered to be the Female Ultraendurance Runner and Performance 181 result of renal hypoperfusion aggravated by hemolysis and rhabodmyolysis as a result of a considerable amount of sports-specific, eccentric loads of running (Ounpuu 1990).…”

Section: Dehydration and Impaired Renal Function Due To Skeletal Muscmentioning

confidence: 99%

The Effects of Running 1,200 km Within 17 Days on Body Composition in a Female Ultrarunner—Deutschlandlauf 2007

Knechtle¹,

Duff²,

Schulze³

et al. 2008

Research in Sports Medicine

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We describe the changes of body composition in the female overall winner of the Deutschlandlauf 2007 over 17 stages from the northeast to the southwest of Germany with average daily running stages of 70.9 km to cover the total distance of 1,200 km. Determined by bioelectrical impedance analysis, body mass (BM) increased, percent body fat (% BF) decreased, and percent body water as well as lean body mass (LBM) increased. Skeletal muscle mass and % BF as determined by an anthropometric method showed no changes. This data show, that this female runner achieved an excellent performance and that it is possible for a woman to beat all the men. This type of analysis provides a unique opportunity to gain insight into the physiological changes during multiday running in ultraendurance athletes.

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“…15 In one study in which participants were exercised to exhaustion, renal blood flow decreased by 53% and had only returned to 80% of preexercise levels at 1-hour postexercise. 25 Drugs most likely affected by exercise are those that are primarily excreted unchanged in the urine or whose elimination is dependent on renal function. 3 Exercise studies showing significant pharmacokinetic changes have occurred with atenolol, procainamide, and sulphadimidine.…”

Section: Drug Excretion and Exercisementioning

confidence: 99%

Pharmacokinetic Drug Interactions With Physical Activity

Lenz

2010

American Journal of Lifestyle Medicine

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Physical activity produces many positive physiological changes. Some of these physiological changes, however, can adversely affect the absorption, distribution, metabolism, and/or excretion of certain medications when taken concurrently. Blood flow distribution is fundamental to the study of pharmacokinetics and can vary dramatically during rest compared with exercise. The liver and the kidney play significant roles in calculating the pharmacokinetic parameters of medications. Blood flow to these organs is significant at rest but decreases during exercise. These changes in blood flow, as well as other physiological changes during exercise, have shown to alter the pharmacokinetics of some drugs. Medications that require extra therapeutic monitoring may be affected by this drug-exercise interaction. Health care professionals and patients should be aware of these potential drug-exercise interactions.

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Changes in renal blood flow measured by radionuclide angiography following exhausting exercise in humans

Cited by 30 publications

References 11 publications

An Ironman Triathlon Does Not Lead to a Change in Body Mass in Female Triathletes

An Ironman Triathlon Does Not Lead to a Change in Body Mass in Female Triathletes

The Effects of Running 1,200 km Within 17 Days on Body Composition in a Female Ultrarunner—Deutschlandlauf 2007

Pharmacokinetic Drug Interactions With Physical Activity

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