抗阻训练试验后3年青少年骨骼优势

IF 1.4 4区医学 Q3 PEDIATRICS Pediatric Exercise Science Pub Date : 2023-05-01 DOI:10.1123/pes.2022-0011

Jill Thein-Nissenbaum, Deena M Weiss, Stephanie A Kliethermes, Tamara A Scerpella

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引用次数: 2

摘要

目的:我们评估了一项为期2年、以学校为基础的青春期女孩对照运动试验完成3年后骨骼优势的维持情况。方法:中学女生参加体育课中嵌入的抗阻训练项目。分为低努力组[LO]和高努力组[HI];对照组(CON)在另一所学校参加标准的体育教育。6、18和54 (FU3)个月的基线和随访(FU)评估包括密度测量、人体测量、评估身体成熟度和无干预有组织的身体活动的问卷。拟合线性混合效应模型来评估CON与LO/HI在所有FU时间点的骨预后。结果:68名女孩(23名CON/25名HI/20名LO)在基线时为11.6(0.3)岁。除股骨颈骨密度(LO < HI/CON, P < 0.05)外，其他骨参数在基线时无差异。47名参与者进行了FU3评估:17名CON/16名HI/14名LO。在调整了身高、妇科年龄、基线骨量和有组织的体力活动后，HI组在所有时间点的骨质增加都大于CON组，腿部骨矿物质含量、股骨颈骨矿物质含量/骨密度和第三腰椎骨矿物质含量/骨密度(P≤0.05)。在FU3时，HI在头下、腿、股骨颈和第三腰椎的骨值高于CON (P < .03)。结论:在以学校为基础的阻力训练项目中付出高度努力的青春期女孩在项目完成3年后表现出显著的骨骼益处。

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Adolescent Bone Advantages 3 Years After Resistance Training Trial.

Purpose: We assessed maintenance of skeletal advantages 3 years after completion of a 2-year, school-based, controlled exercise trial in adolescent girls.

Method: Middle-school girls participated in a resistance training program embedded in physical education classes. Effort groups (low-effort group [LO] and high-effort group [HI]) were identified; the control group (CON) participated in standard physical education at a separate school. Baseline and follow-up (FU) assessments at 6, 18, and 54 (FU3) months included densitometry, anthropometry, and questionnaires assessing physical maturity and nonintervention organized physical activity. Linear mixed effects models were fit to evaluate bone outcomes across all FU time points for CON versus LO/HI.

Results: Sixty-eight girls (23 CON/25 HI/20 LO) were 11.6 (0.3) years at baseline. Bone parameters did not differ at baseline, except femoral neck bone mineral density (LO < HI/CON, P < .05). Forty-seven participants provided FU3 assessment: 17 CON/16 HI/14 LO. After adjusting for height, gynecologic age, baseline bone, and organized physical activity, bone gains across all time points were greater for HI versus CON for legs bone mineral content, femoral neck bone mineral content/bone mineral density, and third lumbar vertebra bone mineral content/bone mineral density (P ≤ .05). At FU3, bone values were greater for HI versus CON at subhead, legs, femoral neck, and third lumbar vertebra (P < .03).

Conclusion: Adolescent girls who exerted high effort in a school-based resistance training program demonstrated significant skeletal benefits 3 years after program completion.

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来源期刊

Pediatric Exercise Science 医学-生理学

CiteScore

2.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Pediatric Exercise Science is a journal committed to enriching the scientific knowledge of exercise during childhood and adolescence. To this end it publishes information that contributes to an understanding of (a) the unique aspects of the physiologic, physical, biochemical, and psychologic responses of children to exercise, (b) the role of exercise in the treatment of pediatric chronic diseases, (c) the importance of physical activity in the prevention of illness and preservation of wellness, and (d) the means by which participation in sports may be made safer and more enjoyable for children and youth. Consideration will be given for publication of work by various methodologies consistent with the scientific approach. Besides original research, the journal includes review articles, abstracts from other journals, book reviews, and editorial comments. Pediatric Exercise Science encourages the expression of conflicting opinions regarding children and exercise by providing a forum for alternative viewpoints. At the same time it serves as a means of accumulating a base of research information that will allow application of experimental data to clinical practice. The scientific disciplines contributing to this body of knowledge are diverse. Therefore it is the purpose of this journal to provide a common focus for disseminating advances in the science of exercise during childhood. In doing so, the journal allows the opportunity for cross-fertilization of ideas between disciplines that will potentiate the growth of knowledge in this field. Pediatric Exercise Science seeks to stimulate new ideas regarding exercise in children and to increase the awareness of scientists, health care providers, and physical educators of the importance of exercise during childhood.