Altered Ground Reaction Force and Dynamic Stability During a Single-Leg Stabilization Task in Female Athletes With Lateral Ankle Sprain History and Dysfunctional Breathing Patterns.

IF 1.5 4区医学 Q3 REHABILITATION

Journal of Sport Rehabilitation Pub Date : 2025-08-28 DOI:10.1123/jsr.2025-0026

Masafumi Terada, Yuka Shimozawa, Takashi Sugiyama, Yuki Kusagawa, Takahiro Tanaka, Miyuki Hori, Toshiyuki Kurihara, Tadao Isaka

{"title":"Altered Ground Reaction Force and Dynamic Stability During a Single-Leg Stabilization Task in Female Athletes With Lateral Ankle Sprain History and Dysfunctional Breathing Patterns.","authors":"Masafumi Terada, Yuka Shimozawa, Takashi Sugiyama, Yuki Kusagawa, Takahiro Tanaka, Miyuki Hori, Toshiyuki Kurihara, Tadao Isaka","doi":"10.1123/jsr.2025-0026","DOIUrl":null,"url":null,"abstract":"Context: Female athletes frequently experience lateral ankle sprains (LAS) during unilateral jump-landing activities and face a significant risk of recurrent ankle injury. LAS has been associated with reduced diaphragm contractility and altered breathing mechanics. The diaphragm and breathing mechanics are crucial for mitigating landing impact, which is typically impaired in individuals with LAS. Given this connection, innovative rehabilitation approaches that address dysfunctional breathing mechanics may be warranted. To date, no research has investigated associations between breathing mechanics and landing kinetics in adolescent female athletes with LAS. This study aimed to compare ground reaction force (GRF) and dynamic stability during a single-leg stabilization task between female athletes with a history of LAS who exhibited diaphragmatic breathing patterns and those who had dysfunctional breathing patterns.Design: Case-control study.Methods: Two hundred eighty-three competitive female athletes with a previous history of LAS were recruited from middle school, high school, and Division I college teams. The Hi-Lo test was utilized to categorize participants as dysfunctional breathers or diaphragmatic breathers according to their breathing patterns. Each participant completed 3 trials of a single-leg drop-landing task. Normalized peak vertical and posterior GRF data were extracted, and the average loading rate was calculated from the normalized vertical GRF. The norm of the horizontal component of the GRF was used to calculate time to stabilization.Results: Forty female athletes with LAS history (14.1%) were classified as diaphragmatic breathers, and 243 (85.9%) were classified as dysfunctional breathers. Female athletes with LAS history who exhibited dysfunctional breathing patterns demonstrated a greater peak posterior GRF (P = .01) and longer time to stabilization (P = .04) compared with those who had diaphragmatic breathing patterns.Conclusions: Dysfunctional breathing patterns may contribute to decreased dynamic stability and force attenuation capabilities during single-leg landing tasks following LAS. Assessing the biomechanical dimension of breathing patterns may help clinicians identify patient-specific impairments in individuals with LAS, particularly those with deficits in dynamic postural stability and force attenuation.","PeriodicalId":50041,"journal":{"name":"Journal of Sport Rehabilitation","volume":" ","pages":"1-8"},"PeriodicalIF":1.5000,"publicationDate":"2025-08-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Sport Rehabilitation","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1123/jsr.2025-0026","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"REHABILITATION","Score":null,"Total":0}

引用次数: 0

Abstract

Context: Female athletes frequently experience lateral ankle sprains (LAS) during unilateral jump-landing activities and face a significant risk of recurrent ankle injury. LAS has been associated with reduced diaphragm contractility and altered breathing mechanics. The diaphragm and breathing mechanics are crucial for mitigating landing impact, which is typically impaired in individuals with LAS. Given this connection, innovative rehabilitation approaches that address dysfunctional breathing mechanics may be warranted. To date, no research has investigated associations between breathing mechanics and landing kinetics in adolescent female athletes with LAS. This study aimed to compare ground reaction force (GRF) and dynamic stability during a single-leg stabilization task between female athletes with a history of LAS who exhibited diaphragmatic breathing patterns and those who had dysfunctional breathing patterns.

Design: Case-control study.

Methods: Two hundred eighty-three competitive female athletes with a previous history of LAS were recruited from middle school, high school, and Division I college teams. The Hi-Lo test was utilized to categorize participants as dysfunctional breathers or diaphragmatic breathers according to their breathing patterns. Each participant completed 3 trials of a single-leg drop-landing task. Normalized peak vertical and posterior GRF data were extracted, and the average loading rate was calculated from the normalized vertical GRF. The norm of the horizontal component of the GRF was used to calculate time to stabilization.

Results: Forty female athletes with LAS history (14.1%) were classified as diaphragmatic breathers, and 243 (85.9%) were classified as dysfunctional breathers. Female athletes with LAS history who exhibited dysfunctional breathing patterns demonstrated a greater peak posterior GRF (P = .01) and longer time to stabilization (P = .04) compared with those who had diaphragmatic breathing patterns.

Conclusions: Dysfunctional breathing patterns may contribute to decreased dynamic stability and force attenuation capabilities during single-leg landing tasks following LAS. Assessing the biomechanical dimension of breathing patterns may help clinicians identify patient-specific impairments in individuals with LAS, particularly those with deficits in dynamic postural stability and force attenuation.

查看原文本刊更多论文

在有侧踝关节扭伤史和呼吸模式不正常的女运动员的单腿稳定任务中，地面反作用力和动态稳定性的改变。

背景：女运动员在单侧起跳活动中经常经历外侧踝关节扭伤（LAS），并且面临复发性踝关节损伤的重大风险。LAS与膈肌收缩性降低和呼吸机制改变有关。横隔膜和呼吸机制对于减轻着陆冲击至关重要，这在LAS患者中是典型的受损。鉴于这种联系，解决功能失调呼吸机制的创新康复方法可能是必要的。到目前为止，还没有研究调查了患有LAS的青春期女运动员的呼吸力学和着陆动力学之间的关系。本研究旨在比较具有LAS病史、表现出膈呼吸模式和呼吸模式不正常的女运动员在单腿稳定任务中的地面反作用力（GRF）和动态稳定性。设计：病例对照研究。方法：从初中、高中和大学队招募了283名有LAS病史的竞技女运动员。Hi-Lo测试被用来根据参与者的呼吸模式将他们分为呼吸功能障碍者或膈呼吸者。每个参与者完成了3次单腿落地任务。提取归一化峰值垂直和后验GRF数据，并根据归一化垂直GRF计算平均加载率。采用GRF水平分量范数计算稳定化时间。结果：有LAS病史的女运动员40例（14.1%）为膈呼吸者，243例（85.9%）为功能障碍呼吸者。与膈呼吸模式的运动员相比，有LAS病史且呼吸模式不正常的女运动员表现出更高的后GRF峰值（P = 0.01）和更长的稳定时间（P = 0.04）。结论：在LAS后的单腿着陆任务中，功能失调的呼吸模式可能导致动态稳定性和力衰减能力下降。评估呼吸模式的生物力学维度可以帮助临床医生识别LAS患者的患者特异性损伤，特别是那些在动态姿势稳定性和力衰减方面存在缺陷的患者。

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

Journal of Sport Rehabilitation 医学-康复医学

CiteScore

3.20

自引率

5.90%

发文量

143

审稿时长

>12 weeks

期刊介绍： The Journal of Sport Rehabilitation (JSR) is your source for the latest peer-reviewed research in the field of sport rehabilitation. All members of the sports-medicine team will benefit from the wealth of important information in each issue. JSR is completely devoted to the rehabilitation of sport and exercise injuries, regardless of the age, gender, sport ability, level of fitness, or health status of the participant. JSR publishes peer-reviewed original research, systematic reviews/meta-analyses, critically appraised topics (CATs), case studies/series, and technical reports that directly affect the management and rehabilitation of injuries incurred during sport-related activities, irrespective of the individual’s age, gender, sport ability, level of fitness, or health status. The journal is intended to provide an international, multidisciplinary forum to serve the needs of all members of the sports medicine team, including athletic trainers/therapists, sport physical therapists/physiotherapists, sports medicine physicians, and other health care and medical professionals.