Mandell Center for Multiple Sclerosis, Mount Sinai Rehabilitation Hospital, Trinity Health Of New England, 490 Blue Hills Avenue, Hartford, CT, 06112, United States; Department of Rehabilitative Medicine, Frank H. Netter MD School of Medicine at Quinnipiac University, 370 Bassett Road, North Haven, CT, 06473, United States.
Department of Physical Therapy, School of Health Sciences at Quinnipiac University, 370 Bassett Road, North Haven, CT, 06473, United States.
Mult Scler Relat Disord. 2023 Jul;75:104772. doi: 10.1016/j.msard.2023.104772. Epub 2023 May 24.
Limb weakness is a major impairment that affects mobility in persons with multiple sclerosis (PwMS). Specifically, lower limb (LL) weakness can greatly affect gait and balance, while increasing fall risk and decreasing quality of life. Numerous studies have compared LL strength of PwMS to healthy controls, however none have objectively measured strength in all major LL joints (hip, knee, and ankle) in a large number of PwMS. Additionally, while discrete normative values exist for knee extensors in PwMS, there has yet to be regression-based normative isometric strength values for all major LL muscle groups. Therefore, this study aimed to develop gender-specific regression-based normative prediction equations, with 95% confidence intervals, for maximal isometric peak torque of major LL muscles in PwMS. A secondary aim was to characterize the prevalence of LL weakness in PwMS, defined as ≥ 2 SD below values reported for healthy individuals.
A convenience sample of 175 (women: n = 135) PwMS participated in a prospective, cross-sectional study where isometric peak torque of hip flexors, extensors, and abductors, knee flexors and extensors, and ankle plantarflexors and dorsiflexors were measured using the Biodex System 4 Pro-Dynamometer®. Demographics (age, height, and weight) and disease characteristics (disease duration and disability) were collected. Performances were separated for each muscle group into strongest limb and weakest limb. For each gender, regression-based equations were generated for the LL muscle groups by limb with age, height, weight, disability, and disease duration as the covariates. Descriptive statistics were used to examine the frequency of LL weakness by gender and disability level. For comparison purposes, age-stratified (<30, 30-39, 40-49, 50-59, 60-69, >70 years) and disability-stratified (mild, moderate, and severe ambulant) discrete peak torque values were also generated for each gender.
Regression-based normative data are presented for men and women, accounting for age, height, weight, disability, and disease duration. Men were significantly stronger (P < 0.001) than women for all LL, with the men's models accounting for a greater percent of muscle strength variation than women's models for all muscle groups, except for hip extension. Disability was inversely related to strength in all of the models. LL weakness was prevalent in hip flexion (m: 47.5%; w: 63.0%) and extension (m: 92.5%; w: 88.1%), knee extension (m: 30.0%; w: 33.3%) and flexion (m: 25.0%; w: 34.8%), and ankle plantarflexion (m: 15.0%; w: 10.4%) and dorsiflexion (m: 100.0%; w: 96.3%). PwMS with mild disability had a high prevalence of ankle dorsiflexion (94.9-100.0%) and hip extension (81.4-90.0%) weakness.
This study is the first to provide regression-based normative data of bilateral strength in all major LL muscle groups and clinically useful prevalence data on the occurrence of weakness in these muscles. Of note, PwMS had a high prevalence of ankle dorsiflexion and hip extension weakness even when they were only mildly disabled. These findings can help guide the direction of future interventions and treatments to improve muscle function in PwMS.
肢体无力是影响多发性硬化症(MS)患者活动能力的主要障碍。具体来说,下肢(LL)无力会极大地影响步态和平衡,增加跌倒风险并降低生活质量。许多研究比较了 MS 患者的 LL 力量与健康对照组,但没有一项研究在大量 MS 患者中客观地测量所有主要 LL 关节(髋、膝和踝)的力量。此外,虽然有离散的膝关节伸肌正常值,但目前还没有基于回归的所有主要 LL 肌肉群等长峰值力矩的正常值。因此,本研究旨在为 MS 患者开发基于回归的性别特异性正常值预测方程,并带有 95%置信区间,用于测量主要 LL 肌肉的最大等长峰值力矩。次要目标是描述 MS 患者 LL 无力的发生率,定义为低于健康个体报告值的 2 个标准差。
一个方便的 175 名 MS 患者(女性:n=135)参与了一项前瞻性、横断面研究,使用 Biodex System 4 Pro-Dynamometer® 测量了髋关节屈肌、伸肌和外展肌、膝关节屈肌和伸肌以及踝关节跖屈肌和背屈肌的等长峰值力矩。收集了人口统计学(年龄、身高和体重)和疾病特征(疾病持续时间和残疾)。将每个肌肉组的表现分为最强侧和最弱侧。对于每个性别,根据年龄、身高、体重、残疾和疾病持续时间作为协变量,为 LL 肌肉群生成基于回归的方程。使用描述性统计数据按性别和残疾水平检查 LL 无力的频率。为了比较目的,还为每个性别生成了基于年龄分层(<30、30-39、40-49、50-59、60-69、>70 岁)和残疾分层(轻度、中度和重度步行)的离散峰值力矩值。
为男性和女性提供了基于回归的正常值数据,考虑了年龄、身高、体重、残疾和疾病持续时间。男性的力量明显强于女性(P<0.001),除了髋关节伸展外,男性模型解释了所有肌肉群中更大比例的肌肉力量变化。残疾与所有模型中的力量呈负相关。在髋关节屈曲(男性:47.5%;女性:63.0%)和伸展(男性:92.5%;女性:88.1%)、膝关节伸展(男性:30.0%;女性:33.3%)和屈曲(男性:25.0%;女性:34.8%)以及踝关节跖屈(男性:15.0%;女性:10.4%)和背屈(男性:100.0%;女性:96.3%)中,LL 无力普遍存在。轻度残疾的 MS 患者踝关节背屈(94.9-100.0%)和髋关节伸展(81.4-90.0%)无力的发生率很高。
这项研究首次提供了所有主要 LL 肌肉群双侧力量的基于回归的正常值数据,以及这些肌肉无力发生的临床有用的患病率数据。值得注意的是,即使 MS 患者只有轻度残疾,他们的踝关节背屈和髋关节伸展无力的发生率也很高。这些发现可以帮助指导未来干预和治疗的方向,以改善 MS 患者的肌肉功能。
