T. M. Ruden scite author profile

T. M. Ruden

5Publications

59Citation Statements Received

96Citation Statements Given

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Iowa State University

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Effect of sodium in a rehydration beverage when consumed as a fluid or meal

Ray

Bryan

Ruden

et al. 1998

Journal of Applied Physiology

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To investigate the impact of fluid composition on rehydration effectiveness, 30 subjects (15 men and 15 women) were studied during 2 h of rehydration after a 2.5% body weight loss. In a randomized crossover design, subjects rehydrated with water (H2O), chicken broth (CB: 109.5 mmol/l Na, 25.3 mmol/l K), a carbohydrate-electrolyte drink (CE: 16.0 mmol/l Na, 3.3 mmol/l K), and chicken noodle soup (Soup: 333.8 mmol/l Na, 13.7 mmol/l K). Subjects ingested 175 ml at the start of rehydration and 20 min later; H2O was given every 20 min thereafter for a total volume equal to body weight loss during dehydration. At the end of the rehydration period, plasma volume was not significantly different from predehydration values in the CB (-1.6 +/- 1.1%) and Soup (-1.4 +/- 0.9%) trials. In contrast, plasma volume remained significantly (P < 0.01) below predehydration values in the H2O (-5.6 +/- 1.1%) and CE (-4.2 +/- 1.0%) trials after the rehydration period. Urine volume was greater in the CE (310 +/- 30 ml) than in the CB (188 +/- 20 ml) trial. Urine osmolality was higher in the CB and Soup trials than in the CE trial. Urinary sodium concentration was higher in the Soup and CB trials than in the CE and H2O trials. These results provide evidence that the inclusion of sodium in rehydration beverages, as well as consumption of a sodium-containing liquid meal, increases fluid retention and improves plasma volume restoration.

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Effects of Oral Creatine Supplementation on Performance and Muscle Metabolism During Maximal Exercise 484

Ruden¹

1996

Medicine & Science in Sports &amp Exercise

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The Effect of Encapsulated Soluble Fiber on Carbohydrate Metabolism during Exercise

Parcell¹,

Ray²,

Moss³

et al. 1999

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Previous investigations have reported that soluble fiber reduces the plasma glucose and insulin changes after an oral glucose load. To improve the payability of a soluble-fiber feeding, this study addressed how a combined, soluble fiber (delivered in capsule form) and a preexercise CHO feeding would affect metabolic responses during exercise. On 3 different days, participants ingested a placebo (CON), 75 g liquid CHO (GLU), or 75 g liquid CHO with 14.5 g encapsulated guar gum (FIB) 45 min before cycling for 60 min at 70% VO2peak. Peak concentrations of plasma glucose and insulin were similar and significantly greater than CON preexercise (p < .05). Similarities in carbohydrate reliance were observed in GLU and FIB. Muscle glycogen use did not differ significantly among trials. These results demonstrate that encapsulated soluble fiber delivered with a liquid CHO feeding does not affect plasma glucose, insulin, or muscle glycogen utilization during exercise.

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Effects of oral creatine supplementation on performance and muscle metabolism during maximal exercise

Ruden

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Rehydration After Exercise and Thermal-Induced Dehydration: Effect of Sodium Concentration 1199

Ray

Sharp

Moss

et al. 1996

Medicine & Science in Sports &amp Exercise

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T. M. Ruden

Effect of sodium in a rehydration beverage when consumed as a fluid or meal

Effects of Oral Creatine Supplementation on Performance and Muscle Metabolism During Maximal Exercise 484

The Effect of Encapsulated Soluble Fiber on Carbohydrate Metabolism during Exercise

Effects of oral creatine supplementation on performance and muscle metabolism during maximal exercise

Rehydration After Exercise and Thermal-Induced Dehydration: Effect of Sodium Concentration 1199

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