Cardiometabolic responses of body-weight exercises with and without vibration

IF 0.9 4区 医学 Q4 REHABILITATION
Kinesiology Pub Date : 2019-03-27 DOI:10.26582/K.51.1.12
Jie Kang, Elizabeth A. O'Grady, A. Faigenbaum, J. Bush, Ira T. Vought, Nicole L. Ellis, Jeremy D. Kuper, N. Ratamess
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引用次数: 1

Abstract

This investigation examined the interactive effect of body-weight (BW) exercises and vibration on cardiometabolic responses. Fourteen subjects performed a BW exercise protocol with (BW+V) and without (BW‒V) vibration in a randomized order. The BW exercise protocol consisted of three circuits of eight calisthenics-based exercises including prisoner squat, push-up, isometric squat, reverse dip, lunge, flutter kicks, isometric lunge, and T push-up. Vibratory frequency and amplitude were set at 40 Hz and 4 mm, respectively. Oxygen uptake (VO2), heart rate (HR), expired ventilation (VE), and blood lactate [La] were determined during the protocol and 30-minute recovery. The mean VO2 reached 48% and 50% of VO2max and the mean HR reached 80% and 83% of HRmax in BW‒V and BW+V, respectively. During the protocol, while the mean VE was greater (p=.031) in BW+V than BW‒V, no differences were seen for VO2 and HR between the two conditions. During recovery, while mean VO2 was greater (p=.002) in BW+V than BW-V, no differences were seen for VE and HR between the two conditions. [La] values were significantly elevated but remained similar between the two conditions. Exercise-specific VO2 was higher during the prisoner squat (p=.003) and isometric squat (p=.042) in BW+V than BW‒V, while no differences in VO2 were observed for all other exercises. Performing three circuits of eight BW exercises in a rapid-and-intense manner produced a sufficient increase in cardiometabolic responses. Metabolic potentiation associated with combining vibration with BW exercises seemed to be influenced by how the exercises were carried out on a vibration plate.
有振动和无振动的体重运动的心脏代谢反应
本研究考察了体重(BW)运动和振动对心脏代谢反应的相互作用。14名受试者按随机顺序进行(BW+V)和(BW - V)振动的BW运动方案。BW运动方案由三个循环组成,包括囚犯深蹲、俯卧撑、等距深蹲、反向俯卧、弓步、扑动踢腿、等距弓步和T型俯卧撑。振动频率和振幅分别设置为40 Hz和4 mm。在方案和恢复30分钟期间测定摄氧量(VO2)、心率(HR)、过期通气(VE)和血乳酸[La]。BW - V和BW+V组的平均VO2分别达到VO2max的48%和50%,平均HRmax分别达到HRmax的80%和83%。在治疗过程中,虽然BW+V组的平均VE大于BW - V组(p= 0.031),但两种情况下的VO2和HR没有差异。在恢复期间,虽然BW+V组的平均VO2大于BW-V组(p= 0.002),但两种情况下的VE和HR没有差异。[La]值显著升高,但在两种情况下保持相似。BW+V组囚犯蹲(p= 0.003)和等距蹲(p= 0.042)时的运动特异性VO2高于BW - V组,而其他所有运动的VO2均无差异。以快速和高强度的方式进行三次八次体重训练,可充分增加心脏代谢反应。将振动与体重锻炼相结合的代谢增强似乎受到如何在振动板上进行锻炼的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Kinesiology
Kinesiology REHABILITATION-SPORT SCIENCES
CiteScore
1.90
自引率
8.30%
发文量
16
审稿时长
>12 weeks
期刊介绍: Kinesiology – International Journal of Fundamental and Applied Kinesiology (print ISSN 1331- 1441, online ISSN 1848-638X) publishes twice a year scientific papers and other written material from kinesiology (a scientific discipline which investigates art and science of human movement; in the meaning and scope close to the idiom “sport sciences”) and other adjacent human sciences focused on sport and exercise, primarily from anthropology (biological and cultural alike), medicine, sociology, psychology, natural sciences and mathematics applied to sport in its broadest sense, history, and others. Contributions of high scientific interest, including also results of theoretical analyses and their practical application in physical education, sport, physical recreation and kinesitherapy, are accepted for publication. The following sections define the scope of the journal: Sport and sports activities, Physical education, Recreation/leisure, Kinesiological anthropology, Training methods, Biology of sport and exercise, Sports medicine and physiology of sport, Biomechanics, History of sport and Book reviews with news.
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