慢性失眠中使用依赖可塑性增加。
Increased use-dependent plasticity in chronic insomnia.
作者信息
Salas Rachel E, Galea Joseph M, Gamaldo Alyssa A, Gamaldo Charlene E, Allen Richard P, Smith Michael T, Cantarero Gabriela, Lam Barbara D, Celnik Pablo A
机构信息
Department of Neurology, Johns Hopkins Medical Institution, Baltimore, MD.
Department of Physical Medicine and Rehabilitation, Johns Hopkins Medical Institution, Baltimore, MD.
出版信息
Sleep. 2014 Mar 1;37(3):535-44. doi: 10.5665/sleep.3492.
STUDY OBJECTIVES
During normal sleep several neuroplasticity changes occur, some of which are considered to be fundamental to strengthen memories. Given the evidence linking sleep to neuroplasticity, it is conceivable that individuals with chronic sleep disruption, such as patients with chronic insomnia (CI), would experience abnormalities in neuroplastic processes during daytime. Protocols testing use-dependent plasticity (UDP), one of the mechanisms underlying formation of motor memories traces, provide a sensitive measure to assess neuroplasticity in the context of motor training.
DESIGN AND PARTICIPANTS
A well-established transcranial magnetic stimulation (TMS) paradigm was used to evaluate the ability of patients with CI and age-matched good sleeper controls to undergo UDP. We also investigated the effect of insomnia on intracortical motor excitability measures reflecting GABAergic and glutamatergic mechanisms.
SETTING
Human Brain Physiology Laboratory, Johns Hopkins Medical Institutions.
MEASUREMENTS AND RESULTS
We found that patients with CI experienced increased UDP changes relative to controls. This effect was not due to differences in motor training. In addition, patients with CI showed enhanced intracortical facilitation relative to controls, in the absence of changes in intracortical inhibitory measures.
CONCLUSION
This study provides the first evidence that patients with chronic insomnia have an increased plasticity response to physical exercise, possibly due to larger activation of glutamatergic mechanisms. This suggests a heightened state of neuroplasticity, which may reflect a form of maladaptive plasticity, similar to what has been described in dystonia patients and chronic phantom pain after amputation. These results could lead to development of novel treatments for chronic insomnia.
研究目的
在正常睡眠期间会发生多种神经可塑性变化,其中一些被认为是强化记忆的基础。鉴于睡眠与神经可塑性之间的关联证据,可以设想,患有慢性睡眠中断的个体,如慢性失眠(CI)患者,在白天会经历神经可塑性过程的异常。测试使用依赖性可塑性(UDP)的方案是运动记忆痕迹形成的潜在机制之一,它提供了一种在运动训练背景下评估神经可塑性的灵敏方法。
设计与参与者
采用一种成熟的经颅磁刺激(TMS)范式来评估CI患者以及年龄匹配的良好睡眠者对照组进行UDP的能力。我们还研究了失眠对反映γ-氨基丁酸能和谷氨酸能机制的皮质内运动兴奋性指标的影响。
地点
约翰霍普金斯医疗机构人类脑生理学实验室。
测量与结果
我们发现,与对照组相比,CI患者经历的UDP变化增加。这种效应并非由于运动训练的差异所致。此外,在皮质内抑制指标无变化的情况下,CI患者相对于对照组表现出增强的皮质内易化作用。
结论
本研究提供了首个证据,即慢性失眠患者对体育锻炼的可塑性反应增强,这可能是由于谷氨酸能机制的更大激活所致。这表明神经可塑性处于增强状态,这可能反映了一种适应不良的可塑性形式,类似于在肌张力障碍患者和截肢后慢性幻肢痛中所描述的情况。这些结果可能会促成慢性失眠新治疗方法的开发。
Zotero 插件