Blodgett Joanna M, Hardy Rebecca, Davis Daniel H J, Peeters Geeske, Hamer Mark, Kuh Diana, Cooper Rachel
Institute of Sport, Exercise & Health, Division of Surgery & Interventional Science, University College London, London, UK.
School of Sport, Exercise and Health Sciences, Loughborough University, Loughborough, UK.
Front Sports Act Living. 2023 Jan 9;4:1066913. doi: 10.3389/fspor.2022.1066913. eCollection 2022.
The one-legged balance test is a common screening tool for fall risk. Yet, there is little empirical evidence assessing its prognostic ability. The study aims were to assess the prognostic accuracy of one-legged balance performance in predicting falls and identify optimal cut-points to classify those at greater risk.
Data from up to 2,000 participants from a British birth cohort born in 1,946 were used. The times an individual could stand on one leg with their eyes open and closed were recorded (max: 30 s) at ages 53 and 60-64. Number of falls in the past year was self-reported at ages 53, 60-64 and 68; recurrent falls (0-1 vs. 2+) and any fall (0 vs. 1+) were considered binary outcomes. Four longitudinal associations between balance times and subsequent falls were investigated (age 53 → 60-64; age 53 → 68; age 60-64 → 68; age 53 & 60-64 → 68). For each temporal association, areas under the curve (AUC) were calculated and compared for a base sex-only model, a sex and balance model, a sex and fall history model and a combined model of sex, balance and fall history. The Liu method was used to identify optimal cut-points and sensitivity, specificity, and AUC at corresponding cut-points.
Median eyes open balance time was 30 s at ages 53 and 60-64; median eyes closed balance times were 5 s and 3 s, respectively. The predictive ability of balance tests in predicting either fall outcome was poor (AUC range for sex and balance models: 0.577-0.600). Prognostic accuracy consistently improved by adding fall history to the model (range: 0.604-0.634). Optimal cut-points ranged from 27 s to 29 s for eyes open and 3 s to 5 s for eyes closed; AUC consistently indicated that using "optimal" cut-points to dichotomise balance time provided no discriminatory ability (AUC range:0.42-0.47), poor sensitivity (0.38-0.61) and poor specificity (0.23-0.56).
Despite previous observational evidence showing associations between better one-legged balance performance and reduced fall risk, the one-legged balance test had limited prognostic accuracy in predicting recurrent falls. This contradicts ongoing translation of this test into clinical screening tools for falls and highlights the need to consider new and existing screening tools that can reliably predict fall risk.
单腿平衡测试是一种常用的跌倒风险筛查工具。然而,评估其预测能力的实证证据很少。本研究的目的是评估单腿平衡表现预测跌倒的预后准确性,并确定用于对高风险人群进行分类的最佳切点。
使用了来自1946年出生的英国出生队列中多达2000名参与者的数据。在53岁以及60 - 64岁时记录个体睁眼和闭眼单腿站立的时间(最长30秒)。过去一年的跌倒次数由参与者在53岁、60 - 64岁和68岁时自我报告;反复跌倒(0 - 1次与2次及以上)和任何跌倒(0次与1次及以上)被视为二元结局。研究了平衡时间与随后跌倒之间的四种纵向关联(53岁→60 - 64岁;53岁→68岁;60 - 64岁→68岁;53岁和60 - 64岁→68岁)。对于每种时间关联,计算并比较了仅基于性别的基础模型、性别与平衡模型、性别与跌倒史模型以及性别、平衡和跌倒史的组合模型的曲线下面积(AUC)。使用刘法确定最佳切点以及相应切点处的敏感性、特异性和AUC。
53岁和60 - 64岁时,睁眼平衡时间的中位数均为30秒;闭眼平衡时间的中位数分别为5秒和3秒。平衡测试对任何一种跌倒结局的预测能力都很差(性别与平衡模型的AUC范围:0.577 - 0.600)。通过在模型中加入跌倒史,预后准确性持续提高(范围:0.604 - 0.634)。睁眼的最佳切点范围为27秒至29秒,闭眼为3秒至5秒;AUC始终表明,使用“最佳”切点对平衡时间进行二分法没有区分能力(AUC范围:0.42 - 0.47),敏感性差(0.38 - 0.61),特异性差(0.23 - 0.56)。
尽管先前的观察证据表明单腿平衡表现越好与跌倒风险降低之间存在关联,但单腿平衡测试在预测反复跌倒方面的预后准确性有限。这与该测试正在转化为跌倒临床筛查工具的现状相矛盾,并凸显了需要考虑能够可靠预测跌倒风险的新的和现有的筛查工具。
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