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2
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3
Primary Motor Cortex Organization Is Altered in Persistent Patellofemoral Pain.原发性运动皮层组织在持续性髌股疼痛中发生改变。
Pain Med. 2017 Nov 1;18(11):2224-2234. doi: 10.1093/pm/pnx036.
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Anatomy of the Platysma Muscle.颈阔肌的解剖结构。
J Craniofac Surg. 2017 Mar;28(2):539-542. doi: 10.1097/SCS.0000000000003318.
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Global, regional, and national incidence, prevalence, and years lived with disability for 310 diseases and injuries, 1990-2015: a systematic analysis for the Global Burden of Disease Study 2015.1990 - 2015年全球、区域和国家310种疾病和损伤的发病率、患病率及伤残调整生命年:全球疾病负担研究2015的系统分析
Lancet. 2016 Oct 8;388(10053):1545-1602. doi: 10.1016/S0140-6736(16)31678-6.
6
Relations Between Brain Alterations and Clinical Pain Measures in Chronic Musculoskeletal Pain: A Systematic Review.慢性肌肉骨骼疼痛中脑改变与临床疼痛指标的关系:一项系统综述
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颈痛患者和无颈痛患者的深层和浅层颈屈肌在运动皮层的代表。

Motor cortex representation of deep and superficial neck flexor muscles in individuals with and without neck pain.

机构信息

Centre of Clinical Excellence Research in Spinal Pain, Injury and Health, School of Health and Rehabilitation Sciences, The University of Queensland, Brisbane, Queensland, Australia.

School of Psychology, Curtin University, Perth, Western Australia, Australia.

出版信息

Hum Brain Mapp. 2019 Jun 15;40(9):2759-2770. doi: 10.1002/hbm.24558. Epub 2019 Mar 5.

DOI:10.1002/hbm.24558
PMID:30835902
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6865448/
Abstract

Sensorimotor control of neck muscles differs between individuals with and without pain. Differences in the primary motor cortex (M1) maps of these muscles may be involved. This study compared M1 representations of deep (DNF) and superficial (SNF) neck flexor muscles between 10 individuals with neck pain (NP) and 10 painfree controls. M1 organisation was studied using transcranial magnetic stimulation (TMS) applied to a grid over the skull and surface electromyography of DNF (pharyngeal electrode) and SNF. Three-dimensional maps of M1 representation of each muscle were generated. Peaks in the SNF map that represented the sternocleidomastoid (SCM) and platysma muscles were identified. Unique centre of gravity (CoG)/map peaks were identified for the three muscles. In comparison to painfree controls, NP participants had more medial location of the CoG/peak of DNF, SCM, and platysma, greater mediolateral variation in DNF CoG (p = 0.02), fewer SNF and DNF map peaks (p = 0.01). These data show that neck flexor muscle M1 maps relate to trunk, neck, and face areas of the motor homunculus. Differences in M1 representation in NP have some similarities and some differences with observations for other musculoskeletal pain conditions. Despite the small sample size, our data did reveal differences and is comparable to other similar studies. The results of this study should be interpreted with consideration of methodological issues.

摘要

颈部肌肉的感觉运动控制在有疼痛和无疼痛的个体之间存在差异。这些肌肉的初级运动皮层(M1)图谱的差异可能与此相关。本研究比较了 10 名颈部疼痛(NP)患者和 10 名无痛对照者的深部(DNF)和浅层(SNF)颈部屈肌的 M1 代表。使用经颅磁刺激(TMS)施加在颅骨上的网格和 DNF(咽电极)和 SNF 的表面肌电图来研究 M1 组织。生成了每个肌肉的 M1 表示的三维图谱。确定了 SNF 图谱中代表胸锁乳突肌(SCM)和颈阔肌的峰。为这三个肌肉确定了独特的重心(CoG)/图谱峰。与无痛对照组相比,NP 参与者的 DNF、SCM 和颈阔肌的 CoG/峰位置更偏内侧,DNF 的 CoG 更偏中间到外侧(p=0.02),SNF 和 DNF 图谱峰更少(p=0.01)。这些数据表明,颈部屈肌 M1 图谱与运动同态的躯干、颈部和面部区域有关。NP 中的 M1 代表差异与其他肌肉骨骼疼痛状况的观察结果既有相似之处,也有不同之处。尽管样本量较小,但我们的数据确实显示出差异,并且与其他类似研究具有可比性。应考虑方法学问题来解释本研究的结果。