不同运动方式对超重男性青年心肺适能和身体成分的影响

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摘要目的比较高强度间歇运动(HIIT)和中等强度持续运动(MICT)对超重成年人心肺适能和身体成分的影响。方法通过电话、现场招募等方式选取2022年5-8月北京市某社区64名无规律运动习惯的超重男性青年,按照随机数字表法将其分为HIIT组、MICT组和对照组(C组),12周干预前后分别利用递增负荷试验测定最大摄氧量(VO_2max),双能X线吸收仪测量身体成分。结果试验后,HIIT组和MICT组VO_2max均升高(P<0.05),MICT组全身脂肪含量、体脂百分比、android区域脂肪含量与百分比下降(P<0.05),去脂体重增加(P<0.05),而HIIT组身体成分的变化均无统计学差异(P>0.05);C组所有参数的变化均无统计学差异。结论超重男性青年采用不同运动方式进行体力活动时,HIIT在提升心肺适能方面具有时效性,MICT则是改善身体成分的主要手段。

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	刘静
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关键词 ：高强度间歇运动, 中等强度持续运动, 超重, 心肺适能, 身体成分

Abstract：Objective To compare the effects of high intensity interval training (HIIT) and moderate intensity continuous training (MICT) on cardiopulmonary fitness and body composition in obese male youth. Methods Sixty-four overweight young men with irregular exercise habits in a community of Beijing were selected by telephone or on-site recruitment from May to August in 2022, and were randomly divided into HIIT group, MICT group and control group (C group) according to the random number table method. The maximum oxygen uptake (VO_2max) was measured by graded exercise test and body composition was measured by dual energy X-ray absorptiometry before and after 12-week intervention. Results After the experiment, VO_2max increased in both HIIT and MICT groups (P<0.05), the total body fat mass, percentage of body fat, and fat mass and percentage of android area decreased, while free fat mass increased in MICT group (P<0.05), but there was no significant change in body composition in HIIT group (P>0.05). There was no significant change of all parameters in C group (P>0.05). Conclusions HIIT is time-effective in improving cardiopulmonary fitness, and MICT is the main means to improve body composition in overweight young men who use different physical activities.

Key words： high intensity interval training moderate intensity continuous training overweight cardiopulmonary fitness body composition

收稿日期: 2023-03-09

ZTFLH:	R875
	G804.3

通讯作者: 万琼,E-mail:wanqiongsun@126.com

作者简介: 刘静,博士,副主任医师。

引用本文:

刘静, 刘亚华, 陈迪, 万琼. 不同运动方式对超重男性青年心肺适能和身体成分的影响[J]. 武警医学, 2023, 34(11): 930-934. LIU Jing, LIU Yahua, CHEN Di, WAN Qiong. Effects of different training modes on cardiopulmonary fitness and body composition in overweight male youth. Med. J. Chin. Peop. Armed Poli. Forc., 2023, 34(11): 930-934.

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http://journal08.magtechjournal.com/Jwk_wjyx/CN/ 或 http://journal08.magtechjournal.com/Jwk_wjyx/CN/Y2023/V34/I11/930

[1]	Carbone S, Lavie C J, Elagizi A, et al. The impact of obesity in heart failure[J]. Heart Fail Clin, 2020, 16(1): 71-80.
[2]	Silveira E A, Mendonça C R, Delpino F M, et al. Sedentary behavior, physical inactivity, abdominal obesity and obesity in adults and older adults: a systematic review and meta-analysis[J]. Clin Nutr ESPEN, 2022, 50(9): 63-73.
[3]	Celik O, Yildiz B O. Obesity and physical exercise[J]. Minerva Endocrinol (Torino), 2021, 46(2): 131-144.
[4]	Yalman A, TelliAtalay O, Ünver F, et al. The sub-acute effects of high-intensity interval training in healthy young adults: respiratory parameters, aerobic capacity and perceived stress[J]. J Sports Med Phys Fitness, 2021, 61(5): 617-624.
[5]	Terada T, Cotie L, Noda T, et al. Effects of high-intensity interval training, moderate-to-vigorous intensity continuous training, and nordic walking on functional fitness in patients with coronary artery disease[J]. J Cardiopulm Rehabil Prev, 2023, 43(3): 224-226.
[6]	Baarts R B, Jensen M R, Hansen O M, et al. Age-and sex-specific changes in visceral fat mass throughout the life-span[J]. Obesity (Silver Spring), 2023, 31(7): 1953-1961.
[7]	Paquette M, Bieuzen F, Billaut F. The effect of HIIT vs. SIT on muscle oxygenation in trained sprint kayakers[J]. Eur J Appl Physiol, 2021, 121(10): 2743-2759.
[8]	Gilson N D, Andersson D, Papinczak Z E, et al. High intensity and sprint interval training, and work-related cognitive function in adults: a systematic review[J]. Scand J Med Sci Sports, 2023, 33(6): 814-833.
[9]	Thompson P D, Arena R, Riebe D, et al. ACSM′s new preparticipation health screening recommendations from ACSM′s guidelines for exercise testing and prescription, ninth edition[J]. Curr Sports Med Rep, 2013, 12(4): 215-217.
[10]	Lee D C, Sui X, Artero E G, et al. Long-term effects of changes in cardiorespiratory fitness and body mass index on all cause and cardiovascular disease mortality in men: the aerobics center longitudinal study[J]. Circulation, 2011, 124(23): 2483-2490.
[11]	Grasta S L, Pozgaj S M, Valent M B, et al. Association between cardiorespiratory fitness level and insulin resistance in adolescents with various obesity categories[J]. World J Diabetes, 2023, 14(7): 1126-1136.
[12]	Hansen D, Marinus N, Remans M, et al. Exercise tolerance in obese lean adolescents: a systematic review and meta-analysis[J]. Obes Rev, 2014, 15(11): 894-904.
[13]	Bai J, Gao C, Li X, et al. Correlation analysis of the abdominal visceral fat area with the structure and function of the heart and liver in obesity: a prospective magnetic resonance imaging study[J]. Cardiovasc Diabetol, 2023, 22(1): 206-219.
[14]	Stroh A M, Stanford K I. Exercise-induced regulation of adipose tissue[J]. Curr Opin Genet Dev, 2023, 81(10): 102-118.
[15]	Lövfors W, Ekström J, Jönsson C, et al. A systems biology analysis of lipolysis and fatty acid release from adipocytes in vitro and from adipose tissue in vivo[J]. PLos One, 2021, 16(12): e0261681.
[16]	Zhang H, Tong T K, Kong Z, et al. Exercise training-induced visceral fat loss in obese women: the role of training intensity and modality[J]. Scand J Med Sci Sports, 2021, 31(1): 30-43.