从后足过渡到前足着地能更有效地降低负荷率，而改变步频则不然。

Transition to forefoot strike reduces load rates more effectively than altered cadence.

机构信息

Department of Physical Therapy, Springfield College, Springfield, MA 01109, USA; Spaulding National Running Center, Harvard Medical School, Cambridge, MA 02138, USA.

Department of Physical Therapy, MGH Institute of Health Professions, Boston, MA 02129, USA.

出版信息

J Sport Health Sci. 2020 May;9(3):248-257. doi: 10.1016/j.jshs.2019.07.006. Epub 2019 Jul 17.

DOI:10.1016/j.jshs.2019.07.006

PMID:32444149

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7242218/

Abstract

BACKGROUND

Excessive vertical impacts at landing are associated with common running injuries. Two primary gait-retraining interventions aimed at reducing impact forces are transition to forefoot strike and increasing cadence. The objective of this study was to compare the short- and long-term effects of 2 gait-retraining interventions aimed at reducing landing impacts.

METHODS

A total of 39 healthy recreational runners using a rearfoot strike and a cadence of ≤170 steps/min were randomized into cadence (CAD) or forefoot strike (FFS) groups. All participants performed 4 weeks of strengthening followed by 8 sessions of gait-retraining using auditory feedback. Vertical average load rates (VALR) and vertical instantaneous load rates (VILR) were calculated from the vertical ground reaction force curve. Both cadence and foot strike angle were measured using 3D motion analysis and an instrumented treadmill at baseline and at 1 week, 1 month, and 6 months post retraining.

RESULTS

ANOVA revealed that the FFS group had significant reductions in VALR (49.7%) and VILR (41.7%), and changes were maintained long term. Foot strike angle in the FFS group changed from 14.2° dorsiflexion at baseline to 3.4° plantarflexion, with changes maintained long term. The CAD group exhibited significant reduction only in VALR (16%) and only at 6 months. Both groups had significant and similar increases in cadence at all follow-ups (CAD, +7.2% to 173 steps/min; and FFS, +6.1% to 172 steps/min).

CONCLUSION

Forefoot strike gait-retraining resulted in significantly greater reductions in VALR and similar increases in cadence compared to cadence gait-retraining in the short and long term. Cadence gait-retraining resulted in small reductions in VALR at only the 6-month follow-up.

摘要

背景

落地时过度的垂直冲击与常见的跑步损伤有关。两种主要的步态再训练干预措施旨在减少冲击力量，即过渡到前脚掌着地和增加步频。本研究的目的是比较两种旨在减少着地冲击的步态再训练干预措施的短期和长期效果。

方法

共有 39 名使用后足着地和步频≤170 步/分钟的健康休闲跑者被随机分为步频（CAD）或前脚掌着地（FFS）组。所有参与者都进行了 4 周的强化训练，然后进行了 8 次使用听觉反馈的步态再训练。垂直平均负荷率（VALR）和垂直瞬时负荷率（VILR）是根据垂直地面反力曲线计算得出的。在基线和再训练后 1 周、1 个月和 6 个月，使用 3D 运动分析和仪器化跑步机测量步频和足着地角度。

结果

方差分析显示，FFS 组的 VALR（49.7%）和 VILR（41.7%）显著降低，且长期保持。FFS 组的足着地角度从基线时的 14.2°背屈变为 3.4°跖屈，且长期保持。CAD 组仅在 6 个月时 VALR 显著降低（16%）。两组在所有随访中步频均显著增加（CAD，增加 7.2%至 173 步/分钟；FFS，增加 6.1%至 172 步/分钟）。

结论

与短期和长期的步频步态再训练相比，前脚掌着地步态再训练可显著降低 VALR，并使步频相似增加。只有在 6 个月的随访中，步频步态再训练才会使 VALR 略有降低。

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从后足过渡到前足着地能更有效地降低负荷率，而改变步频则不然。

Transition to forefoot strike reduces load rates more effectively than altered cadence.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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