The Different Effects of Fluid with and without Carbohydrate Ingestion on Subjective Responses of Untrained Men during Prolonged Exercise in a Hot Environment

Ishijima, Toshimichi; Hashimoto, Hideki; Satou, Katsuhiko; Muraoka, Isao; Higuchi, Mitsuru

doi:10.3177/jnsv.55.506

Cited by 13 publications

(11 citation statements)

References 25 publications

(37 reference statements)

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“…Similar results have been reported in other studies investigating the effects of progressive dehydration on RPE (16,20). It is speculated that hypovolemia associated with exercise dehydration leading to a reduction in brain blood flow may exasperate the displeasure associated with exercising without fiuid leading to greater perceived exertion (18). More simply, it may be that the elevations in Tc, HR, and reduced Pvol in the DEH trial are sensed, and the feedback to the brain results in the greater RPE during exercise at the same relative intensity in a mildly dehydrated state.…”

Section: Discussionsupporting

confidence: 88%

Effects of Dehydration during Cycling on Skeletal Muscle Metabolism in Females

Logan-Sprenger

Heigenhauser

Killian

et al. 2012

Medicine &Amp; Science in Sports &Amp; Exercise

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Progressive dehydration significantly increased HR, Tc, RPE, Pvol loss, whole body CHO oxidation, and muscle glycogenolysis, and these changes were already apparent in the first hour of exercise when body mass losses were ≤ 1%. The increased muscle glycogenolysis with DEH appeared to be due to increased core and muscle temperature, secondary to less efficient movement of heat from the core to the periphery.

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Section: Discussionsupporting

confidence: 88%

Effects of Dehydration during Cycling on Skeletal Muscle Metabolism in Females

Logan-Sprenger

Heigenhauser

Killian

et al. 2012

Medicine &Amp; Science in Sports &Amp; Exercise

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“…In this study, RPE became significantly higher in the DEH trial after only 30 min of cycling when subjects had lost <1% body mass. Similar results have been reported in other studies investigating the effects of progressive dehydration on RPE (Ishijima et al, 2009;McGregor, Nicholas, Lakomy, & Williams, 1999). It is speculated that hypovolumia associated with exercise dehydration leading to a reduction in brain blood flow may exacerbate the sense of effort associated with exercising without fluid leading to greater perceived exertion (Maughan, Shirreffs, & Watson, 2007).…”

Section: Effects Of Dehydration On Rpesupporting

confidence: 85%

Increase in Skeletal-Muscle Glycogenolysis and Perceived Exertion With Progressive Dehydration During Cycling in Hydrated Men

Logan-Sprenger

Heigenhauser²,

Jones³

et al. 2013

International Journal of Sport Nutrition and Exercise Metabolism

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This study investigated the effects of progressive mild dehydration during cycling on whole-body substrate oxidation and skeletal-muscle metabolism in recreationally active men. Subjects (N = 9) cycled for 120 min at ~65% peak oxygen uptake (VO2peak 22.7 °C, 32% relative humidity) with water to replace sweat losses (HYD) or without fluid (DEH). Blood samples were taken at rest and every 20 min, and muscle biopsies were taken at rest and at 40, 80, and 120 min of exercise. Subjects lost 0.8%, 1.8%, and 2.7% body mass (BM) after 40, 80, and 120 min of cycling in the DEH trial while sweat loss was not significantly different between trials. Heart rate was greater in the DEH trial from 60 to 120 min, and core temperature was greater from 75 to 120 min. Rating of perceived exertion was higher in the DEH trial from 30 to 120 min. There were no differences in VO2, respiratory-exchange ratio, total carbohydrate (CHO) oxidation (HYD 312 ± 9 vs. DEH 307 ± 10 g), or sweat rate between trials. Blood lactate was significantly greater in the DEH trial from 20 to 120 min with no difference in plasma free fatty acids or epinephrine. Glycogenolysis was significantly greater (24%) over the entire DEH vs. HYD trial (433 ± 44 vs. 349 ± 27 mmol · kg-1 · dm-1). In conclusion, dehydration of <2% BM elevated physiological parameters and perceived exertion, as well as muscle glycogenolysis, during exercise without affecting whole-body CHO oxidation.

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“…These data support the contention that consuming a volume of fluid equal to sweat losses attenuates cardiovascular drift. Ishijima et al (2009) data also suggest that fluid replacement alone (i.e. with no carbohydrate) may reduce _ VO 2 drift, the effect of which was not measured in the present study.…”

Section: Discussioncontrasting

confidence: 64%

“…In addition, body mass changes do not necessarily reflect a measure of hydration status (Maughan et al 2007). Ishijima et al (2009) showed that during 90 min of cycling at 55% _ VO 2max drinking a hypotonic carbohydrate beverage or mineral water equal to the volume of estimated sweat loss (1.92 ± 0.02 L) reduced cardiovascular and _ VO 2 drift compared with no fluid consumption. These data support the contention that consuming a volume of fluid equal to sweat losses attenuates cardiovascular drift.…”

Section: Discussionmentioning

confidence: 98%

The effect of a carbohydrate beverage on the physiological responses during prolonged load carriage

Blacker

Williams

Fallowfield³

et al. 2011

Eur J Appl Physiol

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Effects of a carbohydrate beverage on the physiological responses to load carriage were examined. Ten fit male participants (age: 28 ± 9 years, body mass: 81.5 ± 10.5 kg, VO(2max): 55.0 ± 5.5 mL kg(-1) min(-1)) completed two test conditions in random order, walking on a treadmill (6.5 km h(-1)) for 120 min, carrying a 25-kg backpack. At 0 and 60 min of exercise participants consumed 250 mL of a placebo (flavoured water) (PLA) or 6.4% carbohydrate (CHO) beverage. There were no differences in VO(2,) respiratory exchange ratio (RER), heart rate or EMG activity of m. rectus femoris, m. vastus lateralis, m. semitendinosus and m. biceps femoris between conditions at minute 5 of exercise. The increase in VO(2) between minutes 5 and 120 was less during CHO than PLA (8 ± 5 vs. 14 ± 6%, P = 0.036). RER decreased during PLA, from 0.96 ± 0.05 at minute 5 to 0.87 ± 0.04 at minute 120 (P < 0.001), but not during CHO (P = 0.056). Heart rate increased between minutes 5 and 120 during PLA (16 ± 10%, P< 0.001) and CHO (12 ± 6%, P < 0.001), with no difference between conditions (P = 0.251). EMG peak RMS did not change between minutes 7 and 107 during PLA or CHO for the leg muscles. However, individual responses in EMG were highly variable (i.e. both increases and decreases in RMS). It was concluded that carbohydrate intake during load carriage reduced the VO(2) drift, which could be partially attributed to higher carbohydrate oxidation rates. Despite muscle fatigue/damage previously being identified as a cause of VO(2) drift, it appears that carbohydrate had no effect on neuromuscular responses during load carriage.

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The Different Effects of Fluid with and without Carbohydrate Ingestion on Subjective Responses of Untrained Men during Prolonged Exercise in a Hot Environment

Cited by 13 publications

References 25 publications

Effects of Dehydration during Cycling on Skeletal Muscle Metabolism in Females

Effects of Dehydration during Cycling on Skeletal Muscle Metabolism in Females

Increase in Skeletal-Muscle Glycogenolysis and Perceived Exertion With Progressive Dehydration During Cycling in Hydrated Men

The effect of a carbohydrate beverage on the physiological responses during prolonged load carriage

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