Building Strong Foundations: Nonrandomized Interventional Study of a Novel, Digitally Delivered Fall Prevention Program for Older Adults.

IF 5 Q1 GERIATRICS & GERONTOLOGY

JMIR Aging Pub Date : 2025-02-26 DOI:10.2196/68957

David Wing, Jeanne F Nichols, Hava Shoshana Barkai, Olivia Culbert, Daniel Moreno, Michael Higgins, Anna O'Brien, Mariana Perez, Hope Davey, Ryan Moran

{"title":"Building Strong Foundations: Nonrandomized Interventional Study of a Novel, Digitally Delivered Fall Prevention Program for Older Adults.","authors":"David Wing, Jeanne F Nichols, Hava Shoshana Barkai, Olivia Culbert, Daniel Moreno, Michael Higgins, Anna O'Brien, Mariana Perez, Hope Davey, Ryan Moran","doi":"10.2196/68957","DOIUrl":null,"url":null,"abstract":"Background: Injuries from falls are a major concern among older adults. Targeted exercise has been shown to improve fall risk, and recommendations for identifying and referring older adults for exercise-based interventions exist. However, even when very inexpensive or free, many do not use available fall prevention programs, citing barriers related to convenience and safety. These issues are even greater among older adults residing in rural areas where facilities are less abundant. These realities highlight the need for different approaches to reducing falls in novel ways that increase reach and are safe and effective. Web-based delivery of exercise interventions offers some exciting and enticing prospects.Objective: Our objective was to assess the efficacy of the Strong Foundations exercise program to change markers of physical function, posture, balance, strength, and fall risk.Methods: Strong Foundations is a once weekly (60 minutes), 12-week iterative program with 3 core components: postural alignment and control, balance and mobility, and muscular strength and power. We used a quasi-experimental design to determine changes in physical function specific to balance, postural control, and muscular strength among older adults at low or moderate risk of falling.Results: A total of 55 low-risk and 37 moderate-risk participants were recruited. Participants significantly improved on the 30-second Chair Stand (mean change of 1, SD 3.3 repetitions; P=.006) and Timed Up and Go (mean change of 0.2, SD 0.7 seconds; P=.004), with the moderate-risk group generally improving to a greater degree than the low-risk group. Additionally, Short Physical Performance Battery performance improved significantly in the moderate-risk category (P=.02). The majority of postural measures showed statistically significant improvement for both groups (P<.05). Measures of \"relaxed\" posture showed improvements between 6% and 27%. When an \"as tall as possible\" posture was adopted, improvements were ~36%.Conclusions: In this 12-week, iterative, web-based program, we found older adults experienced improvement not only in measures used in clinical contexts, such as the 30-second Chair Stand and Timed Up and Go, but also contextualized gains by providing deeper phenotypical measurement related to posture, strength, and balance. Further, many of the physical improvements were attenuated by baseline fall risk level, with those with the highest level of risk having the greater gains, and, thus, the most benefit from such interventions.","PeriodicalId":36245,"journal":{"name":"JMIR Aging","volume":"8 ","pages":"e68957"},"PeriodicalIF":5.0000,"publicationDate":"2025-02-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11904367/pdf/","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"JMIR Aging","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2196/68957","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"GERIATRICS & GERONTOLOGY","Score":null,"Total":0}

引用次数: 0

Abstract

Background: Injuries from falls are a major concern among older adults. Targeted exercise has been shown to improve fall risk, and recommendations for identifying and referring older adults for exercise-based interventions exist. However, even when very inexpensive or free, many do not use available fall prevention programs, citing barriers related to convenience and safety. These issues are even greater among older adults residing in rural areas where facilities are less abundant. These realities highlight the need for different approaches to reducing falls in novel ways that increase reach and are safe and effective. Web-based delivery of exercise interventions offers some exciting and enticing prospects.

Objective: Our objective was to assess the efficacy of the Strong Foundations exercise program to change markers of physical function, posture, balance, strength, and fall risk.

Methods: Strong Foundations is a once weekly (60 minutes), 12-week iterative program with 3 core components: postural alignment and control, balance and mobility, and muscular strength and power. We used a quasi-experimental design to determine changes in physical function specific to balance, postural control, and muscular strength among older adults at low or moderate risk of falling.

Results: A total of 55 low-risk and 37 moderate-risk participants were recruited. Participants significantly improved on the 30-second Chair Stand (mean change of 1, SD 3.3 repetitions; P=.006) and Timed Up and Go (mean change of 0.2, SD 0.7 seconds; P=.004), with the moderate-risk group generally improving to a greater degree than the low-risk group. Additionally, Short Physical Performance Battery performance improved significantly in the moderate-risk category (P=.02). The majority of postural measures showed statistically significant improvement for both groups (P<.05). Measures of "relaxed" posture showed improvements between 6% and 27%. When an "as tall as possible" posture was adopted, improvements were ~36%.

Conclusions: In this 12-week, iterative, web-based program, we found older adults experienced improvement not only in measures used in clinical contexts, such as the 30-second Chair Stand and Timed Up and Go, but also contextualized gains by providing deeper phenotypical measurement related to posture, strength, and balance. Further, many of the physical improvements were attenuated by baseline fall risk level, with those with the highest level of risk having the greater gains, and, thus, the most benefit from such interventions.

查看原文本刊更多论文

建立坚实的基础：一种新颖的、数字化的老年人跌倒预防项目的非随机介入研究。

背景：跌倒损伤是老年人的主要问题。有针对性的锻炼已被证明可以提高跌倒风险，并且存在识别和推荐老年人进行基于锻炼的干预的建议。然而，即使在非常便宜或免费的情况下，许多人也没有使用现有的预防跌倒项目，理由是与方便和安全有关的障碍。这些问题在生活在设施较少的农村地区的老年人中更为严重。这些现实突出表明，需要采取不同的方法，以新颖的方式减少跌倒，增加覆盖面，安全有效。基于网络的运动干预提供了一些令人兴奋和诱人的前景。目的：我们的目的是评估Strong Foundations锻炼项目对改变身体功能、姿势、平衡、力量和跌倒风险指标的功效。方法：Strong Foundations是一个每周一次（60分钟），为期12周的迭代项目，有3个核心组成部分：姿势对准和控制，平衡和机动性，肌肉力量和力量。我们采用准实验设计来确定低或中等跌倒风险的老年人在平衡、姿势控制和肌肉力量等身体功能方面的变化。结果：共招募了55名低危参与者和37名中危参与者。参与者在30秒的椅子站立上显著改善(平均变化1，SD 3.3重复；P= 0.006)和Timed Up and Go(平均变化0.2,SD 0.7秒；P= 0.004)，中等风险组的改善程度普遍高于低风险组。此外，中等风险组的电池性能显著提高（P= 0.02）。结论：在这个为期12周，反复进行的基于网络的项目中，我们发现老年人不仅在临床环境中使用的测量（如30秒椅子站立和计时站起和走）中得到了改善，而且通过提供与姿势、力量和平衡相关的更深层次的表型测量也获得了情境化的收益。此外，许多身体上的改善被基线跌倒风险水平所削弱，风险水平最高的人获得了更大的改善，因此，从这些干预措施中获益最多。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊