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慢性疼痛患者脑静息态功能磁共振的初步研究

Resting State fMRI Preliminary Study of Brain in Patents with Chronic Pain
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摘要 目的采用脑静息态功能磁共振成像技术(fMRI)观察骨性关节炎慢性疼痛患者双侧丘脑腹后外侧核(ventral posterolateralnucleus VPLN)与全脑功能连接情况。方法对16名骨性关节炎慢性疼痛患者与16名健康志愿者双侧丘脑腹外侧核(VPLN)与全脑功能连通性进行脑静息态fMRI检查,使用rest1.4软件计算并分析两组受试者VPLN与全脑功能连通性的差异(激活阈值P<0.05,像素范围>85)。结果骨性关节炎慢性疼痛患者双侧丘脑VPLN与额叶、枕叶等脑区功能连通性存在减弱的情况,而与小脑、中脑、海马等脑区的功能连通性增强。结论慢性疼痛患者双侧VPL与感受及编码疼痛的兴奋性大脑皮层功能连通性降低,而与参与镇痛的抑制性中枢脑区的功能连通性增加。 Objective To investigate how the functional connectivitys between ventral posterolateral nucleus (VPL) and the rest of the brain alteres after years of ongoing osteoarthritis by the resting-state functional MRI ( fMRI). Methods 16 osteoarthritis patients and 16 normal subjects matched controls underwent examination in resting-state with fMRI. VPL were the regions of interest, and the difference of OA patients between controls Was analyzed with two-sample t-test by restl. 4. Results Compared with controls. The patient group showed decreased resting state functional connectivity between the VPL and the cortex (frontal, occipital lobe) , and increased resting state functional connectivity of cerebral areas (Cerebellar, periaqueductal gray, hippoeampus). Conclusion IN the OA patients there is an increased connectivity of cerebral areas related to inhibitory control of pain,and a reduced connectivity of feelings and excitement of the cerebral cortex encode pain.
作者 吴飞 罗天友 方维东 陈日新 吴少平 吕发金 谢洪武 宋云娥
机构地区 重庆医科大学附属第一医院放射科 江西中医药学院附属医院针灸康复科 成都医学院第一附属医院放射科
出处 《世界科技研究与发展》 CSCD 2012年第4期674-676,680,共4页 World Sci-Tech R&D
关键词 功能磁共振成像 静息态 功能连接 慢性疼痛 functional magnetic resonance resting state functional connectivity chronic pain
分类号 R445.2 [医药卫生—影像医学与核医学]
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参考文献15

  • 1AGLIAZUCCHI E, BALENZUELA P, FRAIMAN D, et al. Brain resting state is disrupted in chronic back pain patients [ J ]. Neurosci Letters ,2010,485 ( 1 ) :26-31.
  • 2CAUDA F, D'AGATA F, SACCO K, et al. Altered resting state atten- tional networks in diabetic neuropathic pain [ J ]. Neurol Nenrosurg - Psychiat.ry ,2010 ,81 (7) :806-11.
  • 3BALENZUELA P, CHERNOMORETZ A, FRAIMAN D, et al. Modular organization of brain resting state networks in chronic back pain pa- tients[ J]. Front Neuroinform ,2010 ,4 ( 116 ) : 1-10.
  • 4DI PIERO V, JONES AK, IANNOTI'I F, et al. Chronic pain: a PET study of the central effects of percutaneous high cervical cordotomy [J]. Pain, 1991,46( 1 ) :9-12.
  • 5GARCIA-LARREA L, MAARRAWI J, PEYRON R, et al. On the rela- tion between sensory deafferentation, pain and thalamic activity in Wallenberg's syndrome:a PET-scan study before and after motor cor- tex stimulation [ J ]. European Journal of Pain, 2006, 10 ( 8 ) : 677- 688.
  • 6CAUDA F, SACCO K, D'AGATA F, et al. Low-frequency BOLD fluc- tuations demonstrate altered thalamocortical connectivity in diabetic neuropathic pain[ J]. BMC Neurosci ,2009,10( 138 ) : 1-14.
  • 7GUSNARD D A, RAICHLE M E, RAICHLE M E, et al. Searching for a baseline:Functional imaging and the resting human brain [ J 3. Na- ture Review Neurosci,2001,2(10) :685-694.
  • 8VOGT B A, SIKES R W. The medial pain system, cingulate cortex, and parallel processing of nociceptive information [ J ]. Neurolomage, 1999,122 ( 8 ) :223-235.
  • 9BALIKI M N, GEHA P Y , APKARIAN A V, et al. Beyond feeling: chronic pain hurts the brain, disrupting the default - mode network dynamics[J]. Neurosci,2008,28(6) :1 398-1 403.
  • 10GARCIA-LARREA L, PEYRON R. Motor cortex stimulation for neu- ropathic pain:From phenomenology to mechanisms [ J ]. Neuroimage, 2007,37( 1 ) :71-79.

二级参考文献18

  • 1张明,王渊,刘海,章士正,鱼博浪,陈燕,王微微.小脑参与痛觉调节的fMRI研究[J].中国医学影像技术,2006,22(1):27-30. 被引量:16
  • 2Bingel U,Quante M,Knab R,et al.Single trial fMRI reveals significant contralateral bias in responses to laser pain within thalamus and somatosensory cortices[J].Neuroimage,2003,18(3):740-748.
  • 3Derbyshire SW,Jones AK.Cerebral responses to a continual tonic pain stimulus measured using positron emission tomography[J].Pain,1998,76(1-2):127-135.
  • 4Helmchen C,Mohr C,Erdmann C,et al.Differential cerebellar activation related to perceived pain intensity during noxious thermal stimulation in humans:a functional magnetic resonance imaging study[J].Neurosci Lett,2003,335(3):202-206.
  • 5Ploghaus A,Tracey I,Gati JS,et al.Dissociating pain from its anticipation in the human brain[J].Science,1999,284(5422):1979-1981.
  • 6Allen G,Buxton RB,Wong EC,et al.Attentional activation of the cerebellum independent of motor involvement[J].Science,1997,275(5308):1940-1943.
  • 7Dey PK,Ray AK.Anterior cerebellum as a site for morphine analgesia and post-stimulation analgesia[J].Indian J Physiol Pharmacol,1982,26(1):3-12.
  • 8Dimitrova A,Kolb FP,Elles HG,et al.Cerebellar responses evoked by nociceptive leg withdrawal reflex as revealed by event-related fMRI[J].J Neurophysiol,2003,90(3):1877-1886.
  • 9Lan CT,Wen CY,Shieh JY,et al.Anatomical studies on the cuneocerebellar neurons in the gerbil by using HRP method[J].Ann Anat,1994,176(5):409-418.
  • 10Zang YF,Jiang TZ,Lu YL,et al.Regional homogeneity approach to fMRI data analysis.Neuroimage,2004,22(1):394-400.

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世界科技研究与发展
2012年 第4期

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