The Effects of Whole-Body Compression Garments on Prolonged High-Intensity Intermittent Exercise

Sear, JA, Hoare, TK, Scanlan, AT, Abt, GA, and Dascombe, BJ. The effects of whole-body compression garments on prolonged high-intensity intermittent exercise. J Strength Cond Res 24(7)1901-1910, 2010-The current study investigated the effects of wearing whole-body compression garments (WBCGs) on pro...

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Published in:Journal of strength and conditioning research 2010-07, Vol.24 (7), p.1901-1910
Main Authors: Sear, Joshua A, Hoare, Trent K, Scanlan, Aaron T, Abt, Grant A, Dascombe, Benjamin J
Format: Article
Language:English
Subjects:
Athletic Performance - physiology
Compression therapy
Exercise - physiology
Exercise Test
Heart Rate - physiology
Hemoglobins - analysis
Humans
Lactic Acid - blood
Male
Muscle, Skeletal - physiology
Oxygen Consumption - physiology
Running - physiology
Sample size
Studies
Young Adult
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Summary:Sear, JA, Hoare, TK, Scanlan, AT, Abt, GA, and Dascombe, BJ. The effects of whole-body compression garments on prolonged high-intensity intermittent exercise. J Strength Cond Res 24(7)1901-1910, 2010-The current study investigated the effects of wearing whole-body compression garments (WBCGs) on prolonged high-intensity intermittent exercise (PHIIE) performance. Eight male team-sport athletes ([ ± SD] 20.6 ± 1.2 years; 72.9 ± 5.9 kg; 57.5 ± 3.7 ml·kg·min) completed a prescribed 45-minute PHIIE protocol on a nonmotorized treadmill in randomly assigned WBCG and control (typical soccer apparel) conditions. Subjects were given verbal and visual cues for movement categories, and they followed set target speeds, except when instructed of a variable run or sprint where the aim was to run as fast as possible. Total distance, velocity-specific distance, and high-intensity self-paced running speeds were taken as performance indicators. Heart rate, o2, tissue oxygenation index (TOI), and tissue hemoglobin index (nTHi) were continuously monitored across the protocol. Blood-lactate concentration ([BLa]) was measured every 15 minutes. Magnitude-based inferences suggested that wearing WBCGs provided moderate strength likely improvements in total distance covered (5.42 ± 0.63 vs. 5.88 ± 0.64 km; 88:10:2%; and η = 0.6) and low-intensity activity distance (4.21 ± 0.51 vs. 4.56 ± 0.57 km; 83:14:3%; and η = 0.6) compared with the control. A similar likely increase was also observed in the average TOI of the WBCG condition (53.5 ± 8.3% vs. 55.8 ± 7.2%; 87:11:2%; and η = 0.6). The current data demonstrated that wearing WBCGs likely increased physical performance, possibly because of improvements in muscle oxygenation and associated metabolic benefits. Therefore, wearing WBCGs during PHIIE may benefit the physical performance of team-sport athletes by likely metabolic changes within the muscle between high-intensity efforts.
ISSN:1064-8011
1533-4287
DOI:10.1519/JSC.0b013e3181db251b