Exploring the use of bimodal transcranial direct current stimulation to enhance movement in individuals with patellofemoral pain—A sham-controlled double blinded pilot study

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Kai-Yu Ho, Connan Wallace, Jeno Aquino, Bryce Broadwell, Makenzie Whimple, Jing Nong Liang
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Abstract

IntroductionIn individuals with patellofemoral pain (PFP), addressing increased knee valgus during weight-bearing activities typically involves strengthening weak hip muscles. However, recent literature highlights the role of altered descending central control in abnormal movements associated with PFP. While transcranial direct current stimulation (tDCS) has demonstrated the capacity to enhance neuroplasticity, its application targeting the corticomotor function of gluteal muscles in PFP remains unexplored. This study aimed to investigate the effects of combining bimodal tDCS with exercise on frontal plane kinematics in individuals with PFP. The hypothesis was that bimodal tDCS, specifically targeting the corticomotor function of the gluteal muscles, would augment the effectiveness of exercise interventions in improving frontal plane kinematics compared to sham stimulation.MethodsTen participants with PFP participated in two sessions involving either bimodal tDCS or sham stimulation, concurrently with hip strengthening exercises. Weight-bearing tasks, including single leg squat, single leg landing, single leg hopping, forward step-down, and lateral step-down, were performed and recorded before and after each session. Pain visual analog scale (VAS) scores were also documented. A one-way ANOVA with repeated measures was employed to compare kinematics, while a Friedman test was used to compare VAS across the three conditions (pre-test, post-tDCS, and post-Sham).ResultsWe observed no significant differences in trunk lean angle, hip and knee frontal plane projection angles, or dynamic valgus index among the three conditions during the five weight-bearing tasks. VAS scores did not differ across the three conditions.Discussion and conclusionA single session of tDCS did not demonstrate immediate efficacy in enhancing frontal plane kinematics or relieving pain in individuals with PFP. Considering observed positive outcomes in other neurological and orthopedic populations with multi-session tDCS applications, suggesting potential cumulative effects, further research is essential to explore the effects of multi-session tDCS on weight-bearing movement and underlying neurophysiology in individuals with PFP.
探索使用双模经颅直流电刺激增强髌骨股骨痛患者的运动能力--假对照双盲试验研究
导言:对于患有髌骨股骨痛(PFP)的患者,解决负重活动时膝关节外翻增加的问题通常需要加强薄弱的髋部肌肉。然而,最近的文献强调了下行中枢控制在与 PFP 相关的异常运动中的作用。虽然经颅直流电刺激(tDCS)已被证明具有增强神经可塑性的能力,但其针对 PFP 患者臀部肌肉皮质运动功能的应用仍有待探索。本研究旨在探讨双模 tDCS 与运动相结合对 PFP 患者额平面运动学的影响。研究假设:与假刺激相比,专门针对臀部肌肉皮质运动功能的双模 tDCS 将增强运动干预在改善额面运动学方面的效果。方法十名 PFP 患者参加了两个疗程的双模 tDCS 或假刺激治疗,同时进行髋关节强化训练。每次训练前后都要进行负重训练,包括单腿下蹲、单腿着地、单腿跳跃、向前下蹲和侧向下蹲,并进行记录。此外,还记录了疼痛视觉模拟量表(VAS)的评分。结果我们观察到,在五项负重任务中,三种条件下的躯干倾斜角、髋关节和膝关节额平面投影角或动态外翻指数没有显著差异。讨论与结论单次的 tDCS 治疗并不能立即改善前额平面运动学或缓解 PFP 患者的疼痛。考虑到在其他神经和骨科人群中观察到的多疗程 tDCS 应用的积极结果,表明可能存在累积效应,因此进一步的研究对于探索多疗程 tDCS 对 PFP 患者负重运动和潜在神经生理学的影响至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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