Your search keyword '"Andrew Garrett"' showing total 3 results

1. Effectiveness of short-term heat acclimation for highly trained athletes

Author

James D. Cotter, Mark J. Patterson, Nancy J. Rehrer, Robert H. Creasy, and Andrew Garrett

Subjects

Male, Hyperthermia, medicine.medical_specialty, Fever, Physiology, Acclimatization, Rowing, Body Temperature, Young Adult, chemistry.chemical_compound, Heat acclimation, Physiology (medical), Internal medicine, Humans, Medicine, Orthopedics and Sports Medicine, Dehydration, Plasma Volume, Exercise physiology, Aldosterone, Exercise, biology, business.industry, Athletes, Public Health, Environmental and Occupational Health, General Medicine, medicine.disease, biology.organism_classification, Endocrinology, chemistry, Exercise Test, Physical Endurance, business, Heat-Shock Response, Body Temperature Regulation

Abstract

Effectiveness of short-term acclimation has generally been undertaken using untrained and moderately-trained participants. The purpose of this study was to determine the impact of short-term (5-day) heat acclimation on highly trained athletes. Eight males (mean ± SD age 21.8 ± 2.1 years, mass 75.2 ± 4.6 kg, VO(2peak) 4.9 ± 0.2 L min(-1) and power output 400 ± 27 W) were heat acclimated under controlled hyperthermia (rectal temperature 38.5 °C), for 90-min on five consecutive days (T(a) = 39.5 °C, 60% relative humidity). Acclimation was undertaken with dehydration (no fluid-intake) during daily bouts. Participants completed a rowing-specific, heat stress test (HST) 1 day before and after acclimation (T(a) = 35 °C, 60% relative humidity). HST consisted 10-min rowing at 30% peak power output (PPO), 10 min at 60% PPO and 5-min rest before a 2-km performance test, without feedback cues. Participants received 250 mL fluid (4% carbohydrate; osmolality 240-270 mmol kg(-1)) before the HST. Body mass loss during acclimation bouts was 1.6 ± 0.3 kg (2.1%) on day 1 and 2.3 ± 0.4 kg (3.0%) on day 5. In contrast, resting plasma volume increased by 4.5 ± 4.5% from day 1 to 5 (estimated from [Hb]Hct). Plasma aldosterone increased at rest (52.6 pg mL(-1); p = 0.03) and end-exercise (162.4 pg mL(-1); p = 0.00) from day 1 to 5 acclimation. During the HST T(re) and f(c) were lowered 0.3 °C (p = 0.00) and 14 b min(-1) (p = 0.00) after 20-min exercise. The 2-km performance time (6.52.7 min) improved by 4 s (p = 0.00). Meaningful physiological and performance improvements occurred for highly trained athletes using a short-term (5-day) heat acclimation under hyperthermia control, with dehydration.

Published

2011

2. Induction and decay of short-term heat acclimation

Author

Nancy G. Rehrer, Andrew Garrett, Niels G. Goosens, James D. Cotter, and Mark J. Patterson

Subjects

Adult, Male, Hyperthermia, medicine.medical_specialty, Hot Temperature, Hydrocortisone, Physiology, Acclimatization, Peak power output, Heat Stress Disorders, Young Adult, Oxygen Consumption, Animal science, Heat acclimation, Heart Rate, Physiology (medical), Heart rate, medicine, Humans, Orthopedics and Sports Medicine, Aldosterone, Carbon Monoxide, Blood Volume, Chemistry, Public Health, Environmental and Occupational Health, Heat losses, Rectal temperature, General Medicine, medicine.disease, Bicycling, Surgery, Heat stress

Abstract

The purpose of this work was to investigate adaptation and decay from short-term (5-day) heat acclimation (STHA). Ten moderately trained males (mean +/- SD age 28 +/- 7 years; body mass 74.6 +/- 4.4 kg; VO2peak 4.26 +/- 0.37 l min(-1)) underwent heat acclimation (Acc) for 90-min on 5-days consecutively (T (a) = 39.5 degrees C, 60% RH), under controlled hyperthermia (rectal temperature 38.5 degrees C). Participants completed a heat stress test (HST) 1 week before acclimation (Acc), then on the 2nd and 8th day (1 week) following Acc (T (a) = 35 degrees C, 60% RH). Seven participants completed HSTs 2 and 3 weeks after Acc. HST consisted of 90-min cycling at 40% peak power output before an incremental performance test. Rectal temperature at rest (37.1 +/- 0.4 degrees C) was not lowered by Acc (95% CI -0.3 to 0.2 degrees C), after 90-min exercise (38.6 +/- 0.5 degrees C) it reduced 0.3 degrees C (-0.5 to -0.1 degrees C) and remained at this level 1 week later (-0.5 to -0.1 degrees C), but not two (0.1 degrees C -0.4 to 0.5 degrees C; n = 7) or 3 weeks. Similarly, heart rate after 90-min exercise (146 +/- 21 b min(-1)) was reduced (-13: -6 to -20 b min(-1)) and remained at this level after 1 week (-13: -6 to -20 b min(-1)) but not two (-9: 6 to -23 b min(-1); n = 7) or 3 weeks. Performance (746 s) increased 106 s: 59 to 152 s after Acc and remained higher after one (76 s: 31 to 122) but not two (15 s: -88 to 142 s; n = 7) or 3 weeks. Therefore, STHA (5-day) induced adaptations permitting increased heat loss and this persisted 1 week but not 2 weeks following Acc.

Published

2009

3. Erratum to: Induction and decay of short-term heat acclimation

Author

Nancy J. Rehrer, Mark J. Patterson, Andrew Garrett, Niels G. Goosens, and James D. Cotter

Subjects

Heat acclimation, Physiology, Physiology (medical), Public Health, Environmental and Occupational Health, Orthopedics and Sports Medicine, General Medicine, Human physiology, Biology, Cell biology, Term (time)

Published

2009