与未受伤成年人相比,轻度烧伤幸存者的神经可塑性降低:一项针对 45 岁及以上烧伤幸存者的初步研究。
Decreased neuroplasticity in minor burn injury survivors compared to non-injured adults: A pilot study in burn injury survivors aged 45 years and older.
机构信息
Burn Injury Research Unit, School of Surgery, University of Western Australia, Crawley, Western Australia, Australia.
Psychology, Murdoch University, Western Australia, Australia; Centre for Healthy Ageing, Health Futures Institute, Murdoch University, Western Australia, Australia; Centre for Molecular Medicine and Innovative Therapeutics, Murdoch University, Western Australia, Australia.
出版信息
Burns. 2021 Mar;47(2):327-337. doi: 10.1016/j.burns.2020.10.024. Epub 2020 Nov 9.
OBJECTIVE
Neuroplasticity is the capacity of the brain to change or adapt with experience: brain changes occur with use, disuse, and injury. Repetitive transcranial magnetic stimulation (rTMS) can be used to induce neuroplasticity in the human brain. Here, we examined rTMS-induced neuroplasticity in the primary motor cortex in burns survivors and controls without injury, and whether neuroplasticity is associated with functional recovery in burns survivors.
METHODS
Sixteen burn injury survivors (total body surface area of burn injury <15%) and 13 non-injured control participants were tested. Repetitive TMS (specifically, spaced continuous theta-burst stimulation[cTBS]) was applied to induce neuroplasticity 6 and 12 weeks after injury in burn survivors and in two sessions separated by 6 weeks in controls. Motor evoked potentials (MEPs) elicited by single-pulse TMS were measured before and after rTMS to measure neuroplasticity. Burns survivors completed a functional assessment 12 weeks after injury.
RESULTS
Non-injured controls showed decreased MEP amplitude 15-30 min after spaced cTBS in both experimental sessions. Burn survivors showed a smaller change in MEP amplitude after spaced cTBS compared to controls 6 weeks after burn injury but no difference compared to controls 12 weeks after burn injury. In burn survivors, there was a significant positive association between general health outcome (Short-Form Health Survey) and the change in MEP amplitude after spaced cTBS 12 weeks after injury (r=.73, p = .01).
CONCLUSIONS
The current findings suggest that burn survivors have a reduced capacity for neuroplasticity early in the recovery period (6 weeks after injury), which normalizes later in the recovery period (12 weeks after injury). Furthermore, the results provide preliminary evidence to suggest that burn survivors with normalized neuroplasticity 12 weeks after injury recover faster after burn injury.
目的
神经可塑性是大脑随经验改变或适应的能力:大脑变化发生于使用、不用和损伤。重复经颅磁刺激(rTMS)可用于诱导人脑的神经可塑性。在这里,我们研究了烧伤幸存者和无损伤对照者初级运动皮层中 rTMS 诱导的神经可塑性,以及神经可塑性是否与烧伤幸存者的功能恢复相关。
方法
16 名烧伤幸存者(烧伤总面积<15%)和 13 名无损伤对照者接受了测试。重复 TMS(具体为,间隔连续 theta 爆发刺激[cTBS])在烧伤幸存者受伤后 6 和 12 周,以及对照者在 6 周间隔的两次治疗中施加,以诱导神经可塑性。单脉冲 TMS 诱发的运动诱发电位(MEPs)在 rTMS 前后测量,以测量神经可塑性。烧伤幸存者在受伤后 12 周完成功能评估。
结果
无损伤对照者在两次实验中均表现出间隔 cTBS 后 15-30 分钟 MEP 振幅降低。烧伤幸存者在受伤后 6 周的间隔 cTBS 后 MEP 振幅变化小于对照者,但与受伤后 12 周的对照者无差异。在烧伤幸存者中,间隔 cTBS 后 12 周,一般健康结果(SF-36 健康调查简表)与 MEP 振幅变化之间存在显著正相关(r=.73,p=0.01)。
结论
目前的研究结果表明,烧伤幸存者在恢复期早期(受伤后 6 周)神经可塑性降低,而在恢复期后期(受伤后 12 周)正常化。此外,研究结果初步表明,受伤后 12 周神经可塑性正常化的烧伤幸存者在烧伤后恢复更快。
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