Journal of Sports Science and Medicine
Journal of Sports Science and Medicine
ISSN: 1303 - 2968   
Ios-APP Journal of Sports Science and Medicine
Androit-APP Journal of Sports Science and Medicine
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©Journal of Sports Science and Medicine ( 2019 ) 18 , 427 - 437

Research article
Living High-Training Low for 21 Days Enhances Exercise Economy, Hemodynamic Function, and Exercise Performance of Competitive Runners
Hun-Young Park1, Wonil Park2, Kiwon Lim1,3, 
Author Information
1 Physical Activity and Performance Institute, Konkuk University, Seoul, Republic of Korea
2 Department of Physical Education, Korea University, Seoul, Republic of Korea
3 Department of Physical Education, Konkuk University, Seoul, Republic of Korea

Kiwon Lim
✉ Department of Physical Education, Konkuk University, 120 Neungdong-ro, Gwangjin-gu, Seoul 143-701, Korea
Email: exercise@konkuk.ac.kr
Publish Date
Received: 22-01-2019
Accepted: 16-05-2019
Published (online): 01-08-2019
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ABSTRACT

Living high-training low (LHTL) is performed by competitive athletes expecting to improve their performance in competitions at sea level. However, the beneficial effects of LHTL remain controversial. We sought to investigate whether 21 days of LHTL performed at a 3,000 m simulated altitude (fraction of inspired oxygen [FIO2]=14.5%) and at sea level can improve hematological parameters, exercise economy and metabolism, hemodynamic function, and exercise performance compared with living low-training low (LLTL) among competitive athletes. All participants (age = 23.5 ± 2.1 years, maximal oxygen consumption [VO2max] = 55.6 ± 2.5 mL·kg-1·min-1, 3,000 m time trial performance=583.7 ± 22.9 seconds) were randomly assigned to undergo LHTL (n = 12) or LLTL (n = 12) and evaluated before and after the 21 days of intervention. During the 21-day intervention period, the weekly routine for all athletes included 6-day training and 1-day rest. The daily training programs consisted of >4 hours of various exercise programs (i.e., jogging, high-speed running, interval running, and 3,000 m or 5,000-m time trial). The LHTL group resided in a simulated environmental chamber (FIO2 = 14.5%) for >12 hours per day and the LLTL group at sea level under comfortable conditions. The hematological parameters showed no significant interaction. However, LHTL yielded more improved exercise economy, metabolic parameters (oxygen consumption=-152.7 vs 32.4 mL·kg-1·30min-1, η2 = 0.457, p = 0.000; tissue oxygenation index=6.18 vs .66%, η2 = 0.250, p = 0.013), and hemodynamic function (heart rate = -234.5 vs -49.7 beats·30min-1, η2 = 0.172, p = 0.044; stroke volume = 136.4 vs -120.5 mL/30 min, η2 = 0.191, p = 0.033) during 30 minutes of submaximal cycle ergometer exercise corresponding to 80% maximal heart rate before training than did LLTL. Regarding exercise performance, LHTL also yielded more improved VO2max (5.40 vs 2.35 mL·kg-1·min-1, η2 = 0.527, p = 0.000) and 3,000 m time trial performance (-34.0 vs -19.5 seconds, η2 = 0.527, p = 0.000) than did LLTL. These results indicate that compared with LLTL, LHTL can have favorable effects on exercise performance by improving exercise economy and hemodynamic function in competitive runners.

Key words: Living high-training low, erythropoietin, exercise economy, hemodynamic function, exercise performance, competitive runner


           Key Points
  • Twenty-one days of LHTL involving more than 12 hours per day of residence at 3,000 m (F1O2=14.5%) in a normobaric hypoxic environment and more than 4 hours per day of training at sea level improves exercise performance compared with LLTL in moderately trained, competitive runners.
  • The improvement in exercise performance (e.g., VO2max and 3,000 m time trial performance) observed after 21 days of LHTL might be attributed to the increase in exercise economy (e.g., VO2 and TOI) and hemodynamic function (e.g., HR and SV) during submaximal exercise compared with that in LLTL.
 
 
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