Risvang Linn Christin, Strøm Vegard, van Dijk Jan-Willem, Rice Hannah, Sandbakk Øyvind, Bovim Lars Peder, Baumgart Julia Kathrin, Bentzen Marte, Raastad Truls, Jonvik Kristin L
Department of Physical Performance, Norwegian School of Sport Sciences, Oslo, Norway.
Sunnaas Rehabilitation Hospital, Bjørnemyr, Norway.
JMIR Res Protoc. 2025 Aug 8;14:e70125. doi: 10.2196/70125.
Low mechanical loading of the bones of wheelchair users leads to low bone mineral density (BMD) and increased risk of bone fractures and associated complications. High-load resistance training of the upper body is one way to achieve mechanical loading of the lumbar spine and the hip bones. In addition, maintaining good nutritional status with key nutrients for bone remodeling, that is, vitamin D and calcium, is important for bone accrual.
This study aims to investigate the effect of 24 weeks of high-load resistance training combined with nutritional optimization on lumbar spine BMD. Secondary objectives are to investigate the effects of the intervention on (1) bone and physical health parameters, such as bone turnover blood markers, nutritional status, body composition, and maximal muscular strength, as well as (2) exercise motivation and mental health.
In this randomized controlled trial, we aimed to include 60 wheelchair users with nonprogressive impairments. Participants were randomly allocated to 24 weeks of either (1) high-load resistance training and nutrition optimization or (2) nutrition optimization only, stratified by sex and sport activity status. The training program consisted of 3 weekly sessions comprising 6 exercises periodized in low-, moderate-, and high-load phases. The nutritional optimization aimed to ensure sufficient intake of protein, vitamin D, and calcium. BMD and body composition; maximal muscular strength; and nutritional, physical, and mental health status were assessed at baseline, midpoint, and postintervention visits. Furthermore, follow-up assessments of a subgroup were conducted at 6 to 18 months after the intervention. This protocol was approved by the Regional Committee for Medical and Health Research Ethics South-East, Norway.
Recruitment occurred between November 2022 and 2023. A total of 68 wheelchair users were screened for eligibility, of whom 45 (66%) were enrolled and allocated to one of the study groups (n=24, 53% training group; n=21, 47% control group). At the midpoint and postintervention visits, 36 (n=17, 47% and n=19, 53%, respectively) and 33 (n=14, 42% and n=19, 58%, respectively) participants were assessed, respectively. Analysis of the data collected at the screening visit commenced in spring 2024, while analyses of data collected at the baseline and retest visits began in autumn 2024. Publication of the results of this study is expected by the end of 2025.
This protocol presents the first randomized controlled trial of a high-load resistance training intervention in wheelchair users, focusing on bone, physical, and mental health. The results will contribute to new knowledge in exercise science for this population and generate novel hypotheses for future studies.
轮椅使用者骨骼所承受的机械负荷较低,会导致骨矿物质密度(BMD)降低,骨折及相关并发症的风险增加。上半身的高负荷抗阻训练是实现腰椎和髋骨机械负荷的一种方法。此外,通过对骨重塑的关键营养素(即维生素D和钙)保持良好的营养状态,对于骨量积累很重要。
本研究旨在探讨24周的高负荷抗阻训练联合营养优化对腰椎骨密度的影响。次要目的是研究该干预对(1)骨骼和身体健康参数的影响,如骨转换血液标志物、营养状况、身体成分和最大肌肉力量,以及(2)运动动机和心理健康的影响。
在这项随机对照试验中,我们旨在纳入60名患有非进行性损伤的轮椅使用者。参与者被随机分配到以下两组之一,为期24周:(1)高负荷抗阻训练和营养优化组,或(2)仅营养优化组,按性别和运动活动状态分层。训练计划包括每周3次训练课,每次训练课包含6项练习,这些练习分为低负荷、中等负荷和高负荷阶段。营养优化旨在确保蛋白质、维生素D和钙的充足摄入。在基线、中期和干预后访视时评估骨密度和身体成分、最大肌肉力量以及营养、身体和心理健康状况。此外,在干预后6至18个月对一个亚组进行随访评估。本方案已获得挪威东南部地区医学和健康研究伦理委员会的批准。
招募工作于2022年11月至2023年期间进行。共有68名轮椅使用者接受了资格筛查,其中45名(66%)被纳入并分配到其中一个研究组(训练组n = 24,53%;对照组n = 21,47%)。在中期和干预后访视时,分别对36名(分别为n = 17,47%和n = 19,53%)和33名(分别为n = 14,42%和n = 19,58%)参与者进行了评估。对筛查访视时收集的数据的分析于2024年春季开始,而对基线和复测访视时收集的数据的分析于2024年秋季开始。本研究结果预计将于2025年底发表。
本方案展示了第一项针对轮椅使用者的高负荷抗阻训练干预的随机对照试验,重点关注骨骼、身体和心理健康。研究结果将为该人群的运动科学新知识做出贡献,并为未来研究提出新的假设。
