通过反馈控制刺激人类瘫痪的股四头肌增强肌肉力量和股骨压缩负荷。
Enhancing muscle force and femur compressive loads via feedback-controlled stimulation of paralyzed quadriceps in humans.
作者信息
Dudley-Javoroski Shauna, Littmann Andrew E, Chang Shuo-Hsiu, McHenry Colleen L, Shields Richard K
机构信息
Physical Therapy and Rehabilitation Science, Carver College of Medicine, The University of Iowa, Iowa City, IA, USA.
出版信息
Arch Phys Med Rehabil. 2011 Feb;92(2):242-9. doi: 10.1016/j.apmr.2010.10.031.
OBJECTIVE
To compare paralyzed quadriceps force properties and femur compressive loads in an upright functional task during conventional constant-frequency stimulation and force feedback-modulated stimulation.
DESIGN
Crossover trial.
SETTING
Research laboratory.
PARTICIPANTS
Subjects (N=13; 12 men, 1 woman) with motor-complete spinal cord injury.
INTERVENTIONS
Subjects performed 2 bouts of 60 isometric quadriceps contractions while supported in a standing frame. On separate days, subjects received constant-frequency stimulation at 20Hz (CONST) or frequency-modulated stimulation triggered by a change in force (FDBCK). During FDBCK, a computer algorithm responded to each 10% reduction in force with a 20% increase in stimulation frequency.
MAIN OUTCOME MEASURES
A biomechanical model was used to derive compressive loads on the femur, with a target starting dose of load equal to 1.5 times body weight.
RESULTS
Peak quadriceps force and fatigue index were higher for FDBCK than CONST (P<.05). Within-train force decline was greater during FDBCK bouts, but mean force remained above CONST values (P<.05). As fatigue developed during repetitive stimulation, FDBCK was superior to CONST for maintenance of femur compressive loads (P<.05).
CONCLUSIONS
Feedback-modulated stimulation in electrically activated stance is a viable method to maximize the physiologic performance of paralyzed quadriceps muscle. Compared with CONST, FDBCK yielded compressive loads that were closer to a targeted dose of stress with known osteogenic potential. Optimization of muscle force with FDBCK may be a useful tactic for future training-based antiosteoporosis protocols.
目的
比较在传统恒频刺激和力反馈调制刺激下,直立功能任务中瘫痪股四头肌的力量特性和股骨压缩负荷。
设计
交叉试验。
地点
研究实验室。
参与者
运动完全性脊髓损伤的受试者(N = 13;12名男性,1名女性)。
干预措施
受试者在站立架支撑下进行2组,每组60次股四头肌等长收缩。在不同日期,受试者接受20Hz的恒频刺激(CONST)或由力变化触发的频率调制刺激(FDBCK)。在FDBCK期间,计算机算法会在每次力量降低10%时,将刺激频率提高20%。
主要观察指标
使用生物力学模型得出股骨上的压缩负荷,目标起始负荷剂量等于体重的1.5倍。
结果
FDBCK的股四头肌峰值力量和疲劳指数高于CONST(P <.05)。在FDBCK组的训练过程中,组内力下降更大,但平均力量仍高于CONST组的值(P <.05)。随着重复刺激过程中疲劳的发展,FDBCK在维持股骨压缩负荷方面优于CONST(P <.05)。
结论
电激活站立时的反馈调制刺激是一种可行的方法,可使瘫痪股四头肌的生理性能最大化。与CONST相比,FDBCK产生的压缩负荷更接近具有已知成骨潜力的目标应力剂量。利用FDBCK优化肌肉力量可能是未来基于训练的抗骨质疏松方案的一种有用策略。
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