电针少阳经穴对偏头痛患者脑内葡萄糖代谢影响的研究
|
摘要
目的:
观察电针少阳经特定穴对偏头痛患者脑内葡萄糖代谢的影响,探索循经取穴干预偏头痛的脑内特异性响应特征,探讨经穴效应的脑内神经信息调制基础。
方法:
健康受试者8名,偏头痛(无先兆型,左侧痛)患者30例。将偏头痛患者随机分为3组:少阳经特定穴电针组、非穴电针组、偏头痛组,前两组分别应用电针刺激左侧少阳经穴及非穴进行治疗,少阳经特定穴选取风池、外关、阳陵泉,非穴选取上下肢的3个非经非穴点。治疗结束后,运用正电子发射计算机断层显像(~(18)F-FDG PET)采集脑内葡萄糖代谢信号,健康受试者及偏头痛组不针刺直接行PET扫描。应用统计参数图(SPM2)软件分析电针经穴与非穴的脑内神经信息响应特征。
结果:
1.扫描后三组偏头痛患者的疼痛视觉模拟评分(VAS)均有降低,少阳经特定穴电针前后与非穴组、偏头痛组扫描前后比较,VAS评分的降低均有显著性差异(P<0.05)。
2.偏头痛患者脑内葡萄糖代谢增高区主要见于同侧(左侧)脑干(脑桥及中脑)、双侧小脑前后叶、同侧枕叶的梭状回和舌回、双侧海马旁回及双颞叶部分区域;代谢减低区主要见于前额叶皮质、眶额叶皮质(BA11、47)、右扣带回前部(BA24、25)和左扣带回后部(BA23、31)、双侧顶下小叶和中央后回以及双侧颞叶部分区域。
3.与偏头痛组相比,电针少阳经穴激活了对侧(右侧)岛叶(BA44、45)、对侧前扣带回、顶下小叶等区域,代谢减低区见于左右小脑、对侧海马旁回及基底核区、感觉运动皮质(中央前后回,BA3、6、40);针刺后脑功能变化有回归正常的趋势。
4.与偏头痛组相比,电针非穴激活了边缘系统的双侧海马旁回、扣带回后部、双侧顶叶缘上回、顶下小叶(BA40)、额叶(双侧BA4、6)、双侧颞叶、双侧枕叶梭状回、楔叶、楔前叶等区域;代谢减低区见于小脑前后叶、前额叶、海马旁回、右颞叶部分区域。与健康人相比,有明显的脑干、双侧顶枕叶(枕中回、枕上回、楔叶、楔前叶、顶上小叶,BA5、7、18、19)等代谢增高区以及前额叶皮质、右前扣带回等代谢减低区。
结论:
1.少阳经穴相对于非穴电针干预偏头痛显示出相对特异性的脑内神经信息响应特征。
2.针刺少阳经穴可能通过脑干-丘脑-基底节-岛叶-边缘系统-皮质的综合调控网络发挥对偏头痛的镇痛效应。
3.边缘系统中的前扣带回、海马旁回等结构,可能参与针刺的镇痛神经调制网络,但在针刺经穴和非穴不同刺激负荷下,其兴奋或抑制的性质、部位和强度可能不同。
OBJECTIVE:To observe changes of glucose metabolism in migraineurs'brain associated with electroacupuncture stimulation at special points of ShaoYang meridian. To investigate the characteristic that central neurons respond to XunJingQuXue, and discuss the neurophysiological modulation mechanism of effects of stimulating at acupoints.
METHORDS:The participants include 8 healthy volunteers and 30 migraineurs. Assigned migraineurs into 3 groups randomly, they are ShaoYang point group, non-point group and migraine group. Electroacupuncture was used to treat migraine in former two groups. The ShaoYang points we stimulated are Fengchi(GB20),Waiguan(SJ5), Yanglingquan(GB34), the non-points are 3 spots locate at upper and lower limb.The instant analgesia effect of electroacupunture were observed and the glucose metabolism signals were recorded by ~(18)F-FDG PET scanner. The participants in migraine group and the healthy ones reserved PET scan without electroacupuncture. The functional neuroimaging of glucose metabolism were analysed by Statistical Parameter Mapping (SPM) software.
RESULTS:1.The visual analoge scale(VAS)of the headache descented in all three groups after PET scan, the analgesia effect of point electroacupuncture group was better than non-point group and the group without treating (P<0.05).2.The activation areas of migraine include ipsilateral brainstem(pons and midbrain). bilateral anterior and posterior lobes of celebellum, fusiform gyrus and lingual gyrus of ipsilateral occipital lobe,bilateral parahippocampus and parts of temporal lobe. The deactivate areas include prefrontal cortex, orbitofrantal cortex (BA1147), right anterior cingulate cortex (BA24,25), bilateral parietal lobe and temporal lobe.3. In the comparison of migraine group, ShaoYang points electroacupuncture stimuation elicited right insula (BA44,45), anterior cingulate gyrus, there were decreaced areas of cerebral metabolism in bilateral cerebellum, right parahippocampus, basal ganglia and somatosensory-motor cortex (BA3,6,40). The change of functional neuroimage has the trend of returning to normal state.4. Non-points electroacupuncture stimulation elicited activate areas in limbic system structures included bilateral parahippocampus and posterior cingulate cortex, bilateral supramarginal gyrus, inferior parietal lobe(BA40), bilateral frontal lobe(BA4.6), temporal lobe.fusiform gyrus, cuneus and precuneus lobe. Reduction in cerebral metabolism was seen in anterior and posterior lobe of cerebellum, prefrontal lobe, parahippocampus gyrus and contralateral temporal lobe. There are distinct activation areas on parietal Iobe and occipital lobe (BA5,7,18,19) and deactivation areas in prefrontal cortex in contrast to healthy ones.
·CONCLUSIONS:1. Electroacupuncture stimulation at ShaoYang points to treat migraine showed comparatively special characteristics of cerebral neuronal responses. 2. The special cerebral pathway of network maybe includes brainstem-thalamus-basal ganglia-insula-limic system-cortex, through which to modulate acupoints'analgesia effects.3. A certain of regions of limbic system such as anterior cingulate and hippocampus maybe involved in the modulation network of analgesia of acupuncture,but not special to respond to point stimulation.
观察电针少阳经特定穴对偏头痛患者脑内葡萄糖代谢的影响,探索循经取穴干预偏头痛的脑内特异性响应特征,探讨经穴效应的脑内神经信息调制基础。
方法:
健康受试者8名,偏头痛(无先兆型,左侧痛)患者30例。将偏头痛患者随机分为3组:少阳经特定穴电针组、非穴电针组、偏头痛组,前两组分别应用电针刺激左侧少阳经穴及非穴进行治疗,少阳经特定穴选取风池、外关、阳陵泉,非穴选取上下肢的3个非经非穴点。治疗结束后,运用正电子发射计算机断层显像(~(18)F-FDG PET)采集脑内葡萄糖代谢信号,健康受试者及偏头痛组不针刺直接行PET扫描。应用统计参数图(SPM2)软件分析电针经穴与非穴的脑内神经信息响应特征。
结果:
1.扫描后三组偏头痛患者的疼痛视觉模拟评分(VAS)均有降低,少阳经特定穴电针前后与非穴组、偏头痛组扫描前后比较,VAS评分的降低均有显著性差异(P<0.05)。
2.偏头痛患者脑内葡萄糖代谢增高区主要见于同侧(左侧)脑干(脑桥及中脑)、双侧小脑前后叶、同侧枕叶的梭状回和舌回、双侧海马旁回及双颞叶部分区域;代谢减低区主要见于前额叶皮质、眶额叶皮质(BA11、47)、右扣带回前部(BA24、25)和左扣带回后部(BA23、31)、双侧顶下小叶和中央后回以及双侧颞叶部分区域。
3.与偏头痛组相比,电针少阳经穴激活了对侧(右侧)岛叶(BA44、45)、对侧前扣带回、顶下小叶等区域,代谢减低区见于左右小脑、对侧海马旁回及基底核区、感觉运动皮质(中央前后回,BA3、6、40);针刺后脑功能变化有回归正常的趋势。
4.与偏头痛组相比,电针非穴激活了边缘系统的双侧海马旁回、扣带回后部、双侧顶叶缘上回、顶下小叶(BA40)、额叶(双侧BA4、6)、双侧颞叶、双侧枕叶梭状回、楔叶、楔前叶等区域;代谢减低区见于小脑前后叶、前额叶、海马旁回、右颞叶部分区域。与健康人相比,有明显的脑干、双侧顶枕叶(枕中回、枕上回、楔叶、楔前叶、顶上小叶,BA5、7、18、19)等代谢增高区以及前额叶皮质、右前扣带回等代谢减低区。
结论:
1.少阳经穴相对于非穴电针干预偏头痛显示出相对特异性的脑内神经信息响应特征。
2.针刺少阳经穴可能通过脑干-丘脑-基底节-岛叶-边缘系统-皮质的综合调控网络发挥对偏头痛的镇痛效应。
3.边缘系统中的前扣带回、海马旁回等结构,可能参与针刺的镇痛神经调制网络,但在针刺经穴和非穴不同刺激负荷下,其兴奋或抑制的性质、部位和强度可能不同。
OBJECTIVE:To observe changes of glucose metabolism in migraineurs'brain associated with electroacupuncture stimulation at special points of ShaoYang meridian. To investigate the characteristic that central neurons respond to XunJingQuXue, and discuss the neurophysiological modulation mechanism of effects of stimulating at acupoints.
METHORDS:The participants include 8 healthy volunteers and 30 migraineurs. Assigned migraineurs into 3 groups randomly, they are ShaoYang point group, non-point group and migraine group. Electroacupuncture was used to treat migraine in former two groups. The ShaoYang points we stimulated are Fengchi(GB20),Waiguan(SJ5), Yanglingquan(GB34), the non-points are 3 spots locate at upper and lower limb.The instant analgesia effect of electroacupunture were observed and the glucose metabolism signals were recorded by ~(18)F-FDG PET scanner. The participants in migraine group and the healthy ones reserved PET scan without electroacupuncture. The functional neuroimaging of glucose metabolism were analysed by Statistical Parameter Mapping (SPM) software.
RESULTS:1.The visual analoge scale(VAS)of the headache descented in all three groups after PET scan, the analgesia effect of point electroacupuncture group was better than non-point group and the group without treating (P<0.05).2.The activation areas of migraine include ipsilateral brainstem(pons and midbrain). bilateral anterior and posterior lobes of celebellum, fusiform gyrus and lingual gyrus of ipsilateral occipital lobe,bilateral parahippocampus and parts of temporal lobe. The deactivate areas include prefrontal cortex, orbitofrantal cortex (BA1147), right anterior cingulate cortex (BA24,25), bilateral parietal lobe and temporal lobe.3. In the comparison of migraine group, ShaoYang points electroacupuncture stimuation elicited right insula (BA44,45), anterior cingulate gyrus, there were decreaced areas of cerebral metabolism in bilateral cerebellum, right parahippocampus, basal ganglia and somatosensory-motor cortex (BA3,6,40). The change of functional neuroimage has the trend of returning to normal state.4. Non-points electroacupuncture stimulation elicited activate areas in limbic system structures included bilateral parahippocampus and posterior cingulate cortex, bilateral supramarginal gyrus, inferior parietal lobe(BA40), bilateral frontal lobe(BA4.6), temporal lobe.fusiform gyrus, cuneus and precuneus lobe. Reduction in cerebral metabolism was seen in anterior and posterior lobe of cerebellum, prefrontal lobe, parahippocampus gyrus and contralateral temporal lobe. There are distinct activation areas on parietal Iobe and occipital lobe (BA5,7,18,19) and deactivation areas in prefrontal cortex in contrast to healthy ones.
·CONCLUSIONS:1. Electroacupuncture stimulation at ShaoYang points to treat migraine showed comparatively special characteristics of cerebral neuronal responses. 2. The special cerebral pathway of network maybe includes brainstem-thalamus-basal ganglia-insula-limic system-cortex, through which to modulate acupoints'analgesia effects.3. A certain of regions of limbic system such as anterior cingulate and hippocampus maybe involved in the modulation network of analgesia of acupuncture,but not special to respond to point stimulation.
引文
1.李学智,梁繁荣.人体腧穴组织形态特异性研究的进展与现状[J].中国组织工程研究与临床康复,2008,12(33):6535-6538
2.孙志宏,胡格,赵慧英.近年来穴位形态学研究概况[J].中国针灸,2002,21(1):64-65.
3.魏育林,屠亦文.经络及腧穴的生物物理学特性的研究进展[J].中国针灸,2005,25(11):817-819.
4.秦立新.论腧穴的非特异性[J].上海针灸杂志,2004,23(12):34-35.
5.徐卫东,刘乡,朱兵.电针对三叉背角会聚神经元镇痛作用的广泛性和特异性的中枢机制研究[J].针刺研究,2000,25(4):248-253
6. Linde K, Streng A, Jurgens S, et al. Acupuncture for patients with migraine:a randomized controlled trial[J]. JAMA,2005,293(17)2118-25.
7. Melchart D, Streng A, Hoppe A, et al. Acupuncture in patients with tensiontype headache:randomised controlled trial[J], BMJ,2005,331 (7513):376-82.
8. Witt C, Brinkhaus B, Jena S, et al. Acupuncture in patients with osteoarthritis of the knee:a randomised trial[J]. Lancet 2005,366(9480):136-43.
9. Scharf H-P, Mansmann U, Streitberger K, et al. Acupuncture and knee osteoarthritis:a three-armed randomized trial[J]. Ann Intern Med,2006,145(1):117.
10. Liang XB, Liu XY, Han JS, et al. Electroacupuncture improves behavior and upregulates GDNF mRNA in MFB transected rats[J]. Neuroreport 2003,14:1177-1180.
11. Wei Ting Zhang, Zhen Jin, Fei Luo, et al. Evidence from brain imaging with fMRI supporting functional specificity of acupoints in humans[J]. Neuroscience Letters,2004, 354(1):50-53.
12. Kong J, Gollub RL, Webb JM, et al. Test-retest study of fMRI signal change evoked by electroacupuncture stimulation[J]. Neuroimage,2007,34(3):1171-81.
13.胡卡明,王承平,谢慧君,等.针刺穴位与非穴位激活不同脑的效应观察[J].中国针灸,2006,26(3):205-208.
14. Cho ZH, Chung SC, Lee HJ. et al. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J]. Proc Natl Acad Sci USA,1998, 95(5):2670-3.
15. Cho ZH, Chung SC, Lee HJ, et al. Retraction. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J]. Proc Natl Acad Sci USA,2006,103:10527.
16.朱蔓佳,胡卡明.功能性磁共振探查光明、太冲穴与大脑功能的关系[J].中国临床康复,2005,9(9):200-202.
17.方继良,金真,王寅,等.针刺太冲及其邻近穴脑反应区功能磁共振成像比较[J].中国医学影像技术,2005,21(9):1332-6.
18.刘华,单保慈等.针刺太冲、合谷两穴引起的小脑响应的差异:fMRI研究[J].中国医学影像技术,2006,22(8):1165-7.
19. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response:a fMRI study with electroacupuncture[J]. Neuroimage,2002,16(4):1028-37.
20. Hui KK, Liu J, Marina O, et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI[J], Neuroimage,2005,27(3):479-96.
21. Hui KK, Liu J, Makris N, et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain:evidence from fMRl studies in normal subjects[J]. Hum Brain Mapp,2000,9(1):13-25.
22. George T. LewitM, Peter J. et al. Investigating Acupuncture Using Brain Imaging Techniques:The Current State of Play[J]. eCAM,2005,2(3):315-319.
23. Headache Classification Committee of the International Headache Society. Classification and diagnostic criteria for headache disorders, cranial neuralgias, and facial pain [J]. Second Edition.Cephalalgia,2004.24(Suppl 1):1.
24.陈勤,吴曦,朱欢,等.针灸治疗偏头痛临床对照文献用穴规律分析[J].成都中医药大学学报,2007,30(3):1.5,9.
25.刘子旺,王玉来,赵永烈,等.中医神经信息学的发展.中国中医药现代远程教[J],2006,4(7):10-13.
26.人类脑计划和神经信息学——香山科学会义第168次学术讨论会[J].中国基础科学,2002,(1):4749.
27.王永炎.中医研究的三个重要趋势[J].山西中医,2005,1(21):1-2.
28.马林.磁共振功能成像在脑部的应用[J].中国医学影像学杂志.1995,3:227-229.
29.谭小琳.用功能磁共振成像开展神经科学研究第一步[J].中国医学物理学杂.1999,16(4):209-214.
30.李文.脑功能成像技术的研究[J].国外医学·生物医学工程分册,1999,22(1):14-19.
31. K1einschmdt A.Frahm J. Linking cerebral blood oxygenation to human brain function. Current issues for human neuroscience by magnetic resonance neuroimaging[J]. Adv Exp Med Biol.1997,413:221-233.
32. Posner Ml, Raichle ME. The neuroimaging of human brain function[J]. ProcNatl Acad Sci USA,1998,95(3):763-764.
33.田嘉禾.神经核医学与PET研究的热点、难点及应用前景.见:丁虹,贾少微主编.神经核医学进展[M].长春:吉林科学技术出版社,1999:10.
34. Denuelle M, Fabre N, Payoux P.-et al.Hypothalamic Activation in Spontaneous Migraine Attacks[J], Headache,2007; 47(10):1418-26.
35.朱芳,周义成,王承缘.磁共振波谱与脑功能成像[J].放射学实践,2000,15(1):74-75.
36.段冬梅,图娅,陈利平,等.抑郁症中医辨证与前额叶及海马1H-MRS的相关性探讨[J].中国康复理论与实践,2008,14(10):960-962.
37.刘正东,尚可,林宇.脑磁图与大脑功能检测[J].自然杂志,1999,21(3):154-158.
38.秦妍滨,陈琨,蒋满,等.多种脑功能成像技术的临床应用[J].中国临床康复,2006,10(18):132-134.
39.顾星.脑磁图检测在合谷穴特异性研究中的应用[J].中国中医药信息杂志,2005,12(5):11-13.
40.顾星.针刺合谷穴对脑磁图的动态观察[J].上海针灸杂志,2005,24(7):38-40.
41.胡卡明,王承平,谢慧君,等.针刺穴位与非穴位激活不同脑区的效应观察[J].中国针灸,2006:26(3):205-207.
42.唐刚华.PET药物及其研究现状与进展[J].国外医学·放射医学核医学分册.1999,23:193-197.
43.程海英.经络辨证在头痛治疗中的应用[J].北京中医,2004,23(6):359-360.
44.赵百孝.针灸治疗头痛的临床体会[J].中国中医基础医学杂志,2004,10(6):69-70.
45. Diener HC. Positron emission tomography studies in headache[J]. Headache, 1997,37(10):622-5.
46. Cutrer FM, Black DF.Imaging findings of migraine[J]. Headache.2006, 46(7):1095-107.
47. Goadsby PJ. Recent advances in the diagnosis and management of migraine[J].BMJ. 2006,332(7532):25-9.
48.林昭庚.中西医病名对照大辞典[M].北京,人民卫生出版社,2003:759.
49阎海.偏头痛诊治大成[M].北京,学苑出版社,1996.118.
50. Pierre Maquet, Dominique Dive, Eric Salmon, et a1. Reproducibility of cerebral glucose utilization measured by PET and the [18F]-2-deox—d—glucose method in resting, healthy human suWects[J].Eur J Nucl Med,1990,16:267-273.
51.郭述苏,薛广波,王中,等.中国偏头痛流行病学初步调查[J].中华流行病学杂志,1991,14(2):102-105.
52. Kuhl DE, Metter EJ, Reige WH, et al. Effect of human aging on patterns of local cerebral glucose utilization determined by the [~(18)FDG] fluorodeoxyglucose method[J]. J Cereb Blood Flow Metab,1982,2:163.
53. Rapoport SI. Brain aging in 40 healthy men:rCMRGIu and correlated functional activity in various brain regions in the resting state[J].J Cereb Blood Flow Metab,1983, 3(suppl 1):5454-5485.
54. Loessner A, Alavi A, Lewandrowski K-U, et al. Regional cerebral functional determined by FDG-PET in health volunteers:normal patterns and changes with age[J]. J Nucl Med,1995,36:1141-1149.
55. Afridi SK, Matharu MS, Lee L, et al. A PET study exploring the laterality of brainstem activation in migraine using glyceryl trinitratef[J]. Brain,2005,28(Pt4):932-9.
56. Nassim P, Karen J, Clemma.et al. A randomized clinical trial of aupuncture compared with sham acupuncture in fibromyalgi[J]. Ann Intern Med,2005,143:10-19
57. Brinkhaus B, Hummelsberger J, Kohnen R, et al. Acupuncture and Chinese herbal medicine in the treatment of patients with seasonal allergic rhinitis:a randomized-controlled clinical trial[J].AIiergy,2004,59(9):953-960.
58.杨旭光.国内外针灸研究中非经非穴选取方法的评述.世界针灸学会联合会成立20周年暨世界针灸学术大会论文摘要汇编.2007.10.20-22,209页.
59. Lashley KS. Patterns of cerebral integration indicated by scotomas of migraine[J]. Arch Neurol Psychiatry,1941,46:331-339.
60. Leao AAP. Spreading depression of activity in the cerebral cortex[J]. J Neurophysiol, 1944,7:359-390.
61. Maldjian, JA; Laurienti, PJ; Kraft, RA, et al. An automated method for neuroanatomic and cytoarchitectonic atlas-based interrogation of fMRI data sets[J].NeuroImage,2003, 19:1233-39.
62. Tzourio-Mazoyer, N; Landeau, B; Papathanassiou, D, et al. Automated anatomical labeling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain[J], NeuroImage,2002,15(1):273-89.
63. Hammers, A; Koepp, MJ; Free, SL, et al. Implementation and application of a brain template for multiple volumes of interest[J]. Human Brain Mapping,2002,15:165-74.
64. Bowman FD,Guo Y.Derado G. Statistical approaches to functional neuroimaging data[J]. Neuroimaging Clin N Am,2007,17(4):441-58, viii.
65. Guo Wan-hua. Application of statistical parametric mapping in PET and SPECT brain functional imaging[J],国外医学·放射医学核医学分册,2002,26(1):7-11.
66. Friston KJ,Holmes AP.Worsley JP.et al.Statistical parametric maps in functional imaging:A general linear approach[J]. Human Brain Mapping,1995,2:189-210.
67. Cox RW. AFNI:Software for analysis and visualization of functional magnetic resonance neuroimages[J]. Comput Biomed Res,1996,29(3):162-193.
68. Sun P, Liu JW. An introduction of brain functiona imaging analysis software AFNI[J]. Beijing Biomedical Engineering,1999,18(1):54-55.
69.汲业,冯士刚,刘文宇,等.SPM和AFNI的性能比较[J].中国医学影像技术,2005,21(3):336-338.
70. Weiller C, May A, Limmroth V, et al. Brain stem activation in spontaneous human migraine attacks[J]. Nat Med,1995,1(7):658-660.
71. Bahra A, Matharu MS, Buchel C, et al. Brainstem activation specific to migraine headache[J]. Lancet,2001,357(9261):1016-1017.
72. Matharu MS, Bartsch T, Ward N, et al.Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J], Brain,2004,127(Pt 1):220-230.
73. Shazia K, Nicola J, Holger Kaube, et al. A positron emission tomographic study in spontaneous migraine[J], Arch Neurol,2005; 62(8):1270-1275.
74. Cao Y, Welch KMA, Aurora S, et al. Functional MRI-BOLD of visually triggered headache in patients with migraine[J]. Arch Neurol,1999,56(5):548-54.
75. May A, Bahra A, Buchel C, et al. Hypothalamic activation in cluster headache attacks[J]. Lancet 1998,352(9124):275-8.
76. May A, Kaube H, Buechel C, et al. Experimental cranial pain elicited by capsaicin:a PETstudy[J]. Pain,1998,74(1):61-6.
77. Raskin NH, Hosobuchi Y, Lamb S. Headache may arise from perturbation of brain[J].Headache,1987,27(8):416-420.
78. Veloso F, Kumar K, Toth C. Headache secondary to deep brain implantation[J]. Headache,1998,38(7):507-515.
79. Goadsby PJ. Neurovascular headache and a midbrain vascular malformation: evidence for a role of the brainstem in chronic migraine[J], Cephalalgia,2002,22(2): 107-111.
80. Afridi S, Goadsby PJ. New onset migraine with a brain stem cavernous angioma[J].J Neurol Neurosurg Psychiatry,2003,74(5):680-682.
81. Afridi SK, Giffin NJ, Kaube H, et al. A positron emission tomographic study in spontaneous migraine[J].Arch Neurol,2005,62(8):1270-5.
82. Harno H, Hirvonen T, Kaunisto MA, et al Subclinical vestibulocerebellar dysfunction in migraine with and without aura[J]. Neurology,2003,61(12):1748-1752.
83. Andor PS, Mascia A, Seidel L, et al. Subclinical cerebellar impairment in the common types of migraine:A three-dimensional analysis of reaching movements[J]. Ann Neurol, 2001,49(5):668-672.
84. Baloh RW. Neurotology of migraine[J], Headache,1997,37(10):615-621.
85. Cutrer FM, Baloh RW. Migraine-associated dizziness[J]. Headache,1992, 32(6):300-304.
86. Guerraz M, Yardley L, Bertholon P, et al Visual vertigo:Symptom assessment, spatial orientation and postural control[J], Brain,2001,124(pt8):1646-1656.
87. McKendrick AM, Vingrys AJ, Badcock DR, et al. Visual dysfunction between migraine events[J]. Invest Ophthalmol Vis Sci,2001,42(3):626-633.
88. McKendrick AM, Badcock DR. Motion processing deficits in migraine[J]. Cephalalgia, 2004,24(5):363-372.
89. Yenice O, Onal S, Incili B, et al. Assessment of spatial-contrast function and short-wavelength sensitivity deficits in patients with migraine[J], Eye,2007,21 (2):218-23.
90. Jayamaha JE, Street MK. Fatal cerebellar infarction in a migraine sufferer whilst receiving sumatriptan[J]. Intensive Care Med,1995,21(1):82-83.
91. Crawford JS, Konkol RJ. Familial hemiplegic migraine with crossed cerebellar diaschisis and unilateral meningeal enhancement[J]. Headache,1997,37(9):590-593.
92. Lee TG, Solomon GD, Kunkel RS, et al. Reversible cerebellar perfusion in familial hemiplegic migraine[J]. Lancet,1996,348(9038):1383.
93. Vincent M, Hadjikhani N. The cerebellum and migraine[J]. Headache.2007,47(6): 820-33.
94. Afridi SK, Giffin NJ, Kaube H, et al. A Positron Emission Tomographic Study in Spontaneous Migraine[J]. Arch Neurol.2005,62(8):1270-5.
95. Matharu MS, Bartsch T, Ward, et al. Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J]. Brain,127 (1):220-230.
96. Aurora SK, Barrodale PM, Tipton RL, et al. Brainstem Dysfunction in Chronic Migraine as Evidenced by Neurophysiological and Positron Emission Tomography Studies[J]. Headache,2007,47(7):996-1003.
97. Drummond PD, Lance JW. Neurovascular disturbances in headache patients[J]. Clin Exp Neurol,1984,20:93-99.
98. Denuelle M, Fabre N, Payoux P,et al. Hypothalamic Activation in Spontaneous Migraine Attacks[J]. Headache,2007,47(10):1418-26.
99. Bahra A, Matharu MS, Buchel C.et al. Brainstem activation specific to migraine headache[J]. Lancet,2001,357(9261):1016-7.
100. Stuart WG. Exploring the pain "neuromatrix",Current Review of Pain[J],2000,4(6):467-477.
101. Manjit S. Matharu, Thorsten Bartsch, et al. Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J]. Brain,2004, 127(1):220-230.
102. Hsieh JC, Hannerz J, Ingvar M. Right-lateralized central processing for pain of nitroglycerin-induced cluster headache[J]. Pain,1996,67(1):59-68.
103. Kwan CL, Crawley AP, Mikulis DJ, et al. An fMRI study of the anterior cingulated cortex and surrounding medial wall activations evoked by noxious cutaneous heat and cold stimuli[J]. Pain,2000,85(3):359-374.
104. T Schmidt-Wilcke, S GanBbauer,T Neuner, et al. Subtle grey matter changes between migraine patients and healthy controls[J]. Cephalalgia,2007,28(1):1-4.
105 Valfre W, Rainero I, Bergui M, et al. Voxel-Based Morphometry Reveals Gray Matter Abnormalities in Migraine[J], Headache,2008,48(1):109-17.
106. Mesulam MM, Mufson E F. The insula of Reil in man and mondey. Architectonics, connectivity and function[M]. New York:Plenum,1985:179-226.
107. Andersson JL, Lilja A, Hartvig P,et al. Somatotopic organization along the central sulcus, for pain localization in humans,as revealed by positron emission tomography[J]. Experimental Brain Research,1997,117(2):192-199.
108. Casey KL, Minoshims S, Morrow TJ.et al. Comparison of human cerebral activation pattern during cutaneous warmth,heat pain, and deep cold pain[J]. Journal of Neurophysiology,1996,76(1):571-581.
109. Hsieh JC, Hannerz J, Ingvar M. Right-lateralised central processing for pain of nitroglycerin-induced cluster headache[J].Pain,1996,67(1):59-68.
110. Tracey I, Becerra L, Chang I, et al. Noxious hot and cold stimulation produce common pattems of brain activation in humans:a functional magnetic resonance imaging study[J]. Neurosci Lett,2000,288(2):159-62.
111. Coghill RC, Sang CN, Maisog JM, et al. Pain intensity processing within the human brain:a bilateral, distributed mechanism[J], J Neurophysiol,1999,82(4):1934-43.
112. CoghillRC, SangCN, Maisog JM, et al. Pain intensity processing within the humanbrain:a bilateral, distributed mechanism[J]. J Neurophysiol.1999,82(4): 1934-1943.
113. Susanna J, Bantick, Richard G, et al. Imaging how attention modulates pain in humans using functional MR[J]I. Brain,2002,125(Pt 2),310-319.
114. Jones,AK, Brown WD, Friston KJ, et al. Cortical and subcortical localization of response to pain in man using positron emission tomography. Proceedings[J]. Biological Sciences,1991,244 (1309):39-44.
115. Talbot JD, Marrett S, Evans AC, et al. Multiple representations of pain in human cerebral cortex[J]. Science,1991,251(4999):1355-1358.
116. Vogt BA, Sikes RW, Vogt LJ. Anterior cingulated cortex and the medial pain system. Neurobiology of Cingulate Cortex and Limbic Thalamus.A Comprehensive Treatise[M]. Boston:Birkhauser,1993:313-344.
117. Vogt BA. Structural organization of cingulated cortex:areas,neurons,and somotodendritic transmitter receptors. In Neurobiology of Cingulate Cortex and Limbic Thalamus:A Comprehensive Treatise[M]. Boston:Birkhauser,1993:19-70.
118. Vogt BA, Finch DM, Olson CR. Functional heterogeneity in cingulate cortex.the anterior executive and posterior evaluative regions[J].Cereb Cortex,1992,2(6):435-443.
119. Krettek JE, Price JL. The cortical projections of the mediodorsal nucleus and adjacent thalamic nuclei in the rat[J].J Comp Neurol,1997,171 (2):157-191.
120. Sripanidkulchai K, Sripanidkulchai B, Wyass JM.The cortical projections of the basolateral amygdaloid nucleis in the rat:a retrograde fluorescent dye study[J]. J Comp Neurol,1984,229(3):419-431.
121. Gabriel M. Functions of anterior and posterior cingulated cortex during avoidance learning in rabbits[M]. New York, Academic Press:1990,467-583.
122. Gabriel M. Foster K, Orona E. Interaction of Imainae of the cingulate cortex with the anteroventral thalamus, and hippocampal formation in discriminative conditioning[J]. Prog Psychobiol Physiol Psychol 1980,9:125-231.
123. Vogt BA,Derbyshire SWG,jones AKP.Pain processing in four regions of human cingulate cortex localized with coregistered PET and MR imaging[J]. Eur J Neurosci 1996,8(7):1461-1473.
124. Bancaud J, Talairach J. Clinical semiology of frontal lobe seizures[M]. New York, Raven Press:1992:3-58.
125. George MS, Ketter TA.Parekh PI, et al. Brain activity during transient sadness and happiness in healthy women[J]. Am J Psychiatry,1995,152(3):341-351.
126. M.Ingvar, Pain and functional imaging[J], Phil Trans R Soc Lond, B. 1999;354:1347-1358.
127. Craig AD.Bushnell MC,Zhang ET,et al. A thalamic nucleus specific for pain and temperature sensation[J].Nature,1994,372(6508):770-773.
128. Coghill RC, Talbot JD, Evans AC,etal. Distributed processing of pain and vibration by the human brain[J].J Neurosci.1994,14(7):4095-4108.
129. Disbrow E.Buoncore M, Antognini J,et al. Somatosensory cortex:a comparision of the response to noxious thermal,mechanical,and electric stimuli using functional magnetic resonance imaging[J]. Hum Brain Mapp.1998,6(3):150-9.
130. Tracey I, Becerra L, Chang I, et al. Noxious hot and cold stimulation produce common patterns of brain activation in humans:a functional magnetic resonance imaging study[J]. Neurosci Let,t2000,288(2):159-62.
131. Kwan CL, Crawley AP, Mikulis DJ, et al. An fMRI study of the anterior cingulate cortex and surrounding medial wall activations evoked by noxious cutaneous heat and cold stimuli[J]. Pain 2000,85(3):359-74.
132. Peyron R, Garcia-Larrea L, Gregoire MC, et al. Haemodynamic brain responses to acute pain in humans[J], Sensory and attentional networks. Brain,1999,122(Pt 9): 1765-80.
133. Portas CM, Rees G, Howseman AM, et al. A specific role for the thalamus in mediating the interaction of attention and arousal in humans[J]. J Neurosci 1998,18(21): 8979-89.
134. Duncan GH, Kupers RC, Marchand S,et al. Stimulation of Human Thalamus for Pain Relief:Possible Modulatory Circuits Revealed by Positron Emission Tomography[J]. J Neurophysiol.1998,80(6):3326-30.
135. Hui KK, Liu J, Makris N, Gollub RL, CHen AJ, Moore CI, Kennedy DN, Rosen BR, Kwong KK:Acupuncture modulates the limbic system and subcortical gray structures of the human brain:Evidence from fMRI studies in normal subjects[J], Hum Brain Mapp, 2000,9(1):13-25.
136. Jaaskeiainen SK,Rinne JO.Forssell H,et al. Role of the dopaminergic system in chronic pain a fluorodopa PET study[J]. Pain,2001,90(3):257-260.
137.郭俊唐,于生元.痛觉中枢的功能成像学研究[J].中国疼痛医学杂志.2002,8(3):165-168.
138. Melzack R. Phantom limbs.the self and the brain:the D.O.Hebb memorial lecture[J]. Can Psychol,1989,30:1-16.
139. Friston KJ, Frackowiak RSJ.Imaging functional anatomy. In brain work and mental activity (Alfred Benzon Symposium 31) [J]. Copenhagen:Mundsgaard,1991:267-277.
140. Stuart WG. Exploring the pain "neuromatrix" [J]. Curr Rev Pain,2000;4(6):467-77.
141. Hoffman GA, Harrington A, Fields HL. Pain and the placebo:what we have learned[J], Perspect Biol Med,2005;48(2):248-65.
142. Zubieta JK, Bueller JA, Jackson LR, et al. Placebo effects mediated by endogenous opioid activity on mu-opioid receptors[J]. J Neurosci,2005,25(34):7754-62
143. Zubieta JK, Yau WY, Scott DJ, et al. Belief or Need? Accounting for individuaI variations in the neurochemistry of the placebo effect[J], Brain Behav Immun,2006, 20(1):15-26.
144. Wager TD, Rilling JK, Smith EE, et al. Placebo-induced changes in FMRI in the anticipation and experience of pain[J]. Science 2004;303(5661):1162-7.
145. Petrovic P, Kalso E, Petersson KM, et al. Placebo and opioid analgesia-imaging a shared neuronal network[J]. Science,2002,295(5560):1737-40.
146. Bingel U, Lorenz J, Schoell E, et al. Mechanisms of placebo analgesia:rACC recruitment of a subcortical antinociceptive network[J]. Pain 2006,120(1-2):8-15.
147. Melzack R, Wall PD.Pain mechanisms:a new theory[J]. Science, 1965,150(699):971-9.
148 Peyron R, Garcia-Larrea L, Gregoire MC.et al. Haemodynamic brain responses to acute pain in humans:sensory and attentional networks[J]. Brain,1999,122 (Pt 9):1765-80.
149. Craig AD, Chen K, Bandy D,et al. Thermosensory activation of insular cortex[J]. Nat Neurosci,2000,3(2):184-90.
150. Wager TD, Rilling JK, Smith EE, et al. Placebo-induced changes in FMRI in the anticipation and experience of pain[J], Science,2004,303(5661):1162-7.
151. Miller, E K, JD Cohen.An integrative theory fo prefrontal cortex function[J].Annu. Rev. Neurosci,2001,24:167-202.
152. W. MacDonald, J. D. Cohen, V. A. Stenger, et al. Dissociating the role of Dorsolateral Prefrontal and Anterior Cingulate Cortex in cognitive control[J], Science,2000, 288(5472):1835-8.
153. Petrovic P, Carlsson K, Petersson KM.et.al. Context-dependent deactivation of the amygdala during pain[J]. J Cogn Neurosci,2004,16(7):1289-301.
154. Hui KK, Liu J, Marina O, et al. The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced byfMRI[J]. Neuroimage,2005,27(3):479-96
155. Napadow V, Liu J, Li M, et al. Hypothalamus and Amygdala Response to Acupuncture Stimuli in Carpal Tunnel Syndrome[J]. Pain.2007,130(3):254-66.
156. Yoo SS, Teh EK, Blinder RA,et al. Modulation of cerebellar activities by acupuncture stimulation:evidence from fMRI study[J]. Neuroimage.2004,22(2):932-40.
157. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response: a fMRI study with electroacupuncture[J]. Neuroimage.2002,16(4):1028-37.
158. Petrovic P, Carlsson K, Petersson KM,et al. Context-dependent deactivation of the amygdala during pain[J], J Cogn Neurosci.2004,16(7):1289-301.
159. Li L, Liu H, Li YZ.et al. The human brain response to acupuncture on same-meridian acupoints:evidence from an fMRI study[J]. J Altern Complement Med.2008,14(6):673-8.
160王维治.神经病学[M].北京:人民卫生出版社,2001.
161.程学铭,蔡琰,李世新,等.我国六城市神经疾病流行病学调查[J].中华神经精神科杂志,1990,23:44-46.
162. Lipton RB,Diamond S,Reed M,et al.Migraine diagnosis and treatment:results from the American Migraine Study II [J].Headache,2001,41:638-645.
163. Lipton RB.Bigal ME,KolodnerK,et al. The family impact of migraine:population-based studies in the USA and UK[J], Cephalalgia,2003,23:429-440.
164.韩济生.针刺镇痛原理[M].第1版.上海:上海科技教育出版社.1999:145.
165. S Akerman, PJ Goadsby. Dopamine and migraine:biology and clinical implications[J]. Cephalalgia,2007,27:1308-1314.
1. Chiu JH, Cheng HC, Tai CH, et al. Electroacupuncture-induced neural activation detected by use of manganese-enhanced functional magnetic resonance imaging in rabbits. Am J Vet Res.2001 Feb;62(2):178-82.
2. Chiu JH, Chung MS, Cheng HC.et al. Different central manifestations in response to electroacupuncture at analgesic and nonanalgesic acupoints in rats:a manganese-enhanced functional magnetic resonance imaging study. Can J Vet Res. 2003May;67(2):94-101
3.Cho ZH, Chung SC, Lee HJ, et al. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI. Proc Natl Acad Sci U S A.1998 Mar 3;95(5):2670-3.
4. Wu MT, Hsieh JC, Xiong J, et al.Central nervous pathway for acupuncture stimulation: localization of processing with functional MR imaging of the brain-preliminary experience. Radiology.1999 Jul;212(1):133-41.
5. Hui KK, Liu J, Makris N, et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain:evidence from fMRI studies in normal subjects. Hum Brain Mapp.2000;9(1):13-25.
6. Gareus IK, Lacour.M, Schulte AC et al.ls there a BOLD response of the visual cortex on stimulation of the vision-related acupoint GB 37?J Magn Reson Imaging.2002 Mar;15(3):227-32.
7.Siedentopf CM, Golaszewski SM, Mottaghy FM, et al. Functional magnetic resonance imaging detects activation of the visual association cortex during laser acupuncture of the foot in humans. Neurosci Lett.2002 Jul 12;327(1):53-6.
8. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response:a fMRI study with electroacupuncture. Neuroimage.2002 Aug; 16(4):1028-37
9. Li G, Cheung RT, Ma QY, Yang ES. Visual cortical activations on fMRI upon stimulation of the vision-implicated acupoints. Neuroreport.2003 Apr 15;14(5):669-73
10. Zhang WT, Jin Z, Luo F,et al. Evidence from brain imaging with fMRI supporting functional specificity of acupoints in humans. Neurosci Lett.2004 Jan 2;354(1):50-3 11.Fang JL, Krings T, Weidemann J, et al. Functional MRI in healthy subjects during acupuncture:different effects of needle rotation in real and false acupoints. Neuroradiology.2004 May;46(5):359-62.
12.Li G, Huang L, Cheung RT, et al.Cortical activations upon stimulation of the sensorimotor-implicated acupoints. Magn Reson Imaging.2004 Jun;22(5):639-44
13.Yoo SS, Teh EK, Blinder RA.et al. Modulation of cerebellar activities by acupuncture stimulation:evidence from fMRI study. Neuroimage.2004 Jun;22(2):932-40
14.Liu WC, Feldman SC, Cook DB.et al. fMRI study of acupuncture-induced periaqueductal gray activity in humans. Neuroreport.2004 Aug 26; 15(12):1937-40
15.Litscher G, Rachbauer D, Ropele S, et al. Acupuncture using laser needles modulates brain function:first evidence from functional transcranial Doppler sonography and functional magnetic resonance imaging. Lasers Med Sci.2004;19(1):6-11
16. Yan B, Li K, Xu J, et al.Acupoint-specific fMRI patterns in human brain.Neurosci Lett. 2005 Aug 5;383(3):236-40
17. Siedentopf CM, Koppelstaetter F, Haala IA,et al. Laser acupuncture induced specific cerebral cortical and subcortical activations in humans. Lasers Med Sci.2005 Sep;20(2):68-73
18.Hui KK, Liu J, Marina O, et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI. Neuroimage.2005 Sep;27(3):479-96
19. Jeun SS, Kim JS, Kim BS,et al. Acupuncture stimulation for motor cortex activities:a 3TfMRI study. Am J Chin Med.2005;33(4):573-8
20.Nakagoshi A, Fukunaga M, Umeda M, et al.Somatotopic representation of acupoints in human primary somatosensory cortex:an FMRI study. Magn Reson Med Sci.2005 Dec 31;4(4):187-9
21. Campbell A. Point specificity of acupuncture in the light of recent clinical and imaging studies. Acupunct Med.2006 Sep;24(3):118-22
22. Kong J, Gollub RL, Webb JM, et al. Test-retest study of fMRI signal change evoked by electroacupuncture stimulation. Neuroimage.2007 Feb 1;34(3):1171-81
23. Napadow V, Kettner N, Liu J,et al. Hypothalamus and amygdala response to acupuncture stimuli in Carpal Tunnel Syndrome. Pain.2007 Aug;130(3):254-66
24.Wang W, Liu L, Zhi X, et al. Study on the regulatory effect of electro-acupuncture on hegu point (L14) in cerebral response with functional magnetic resonance imaging. Chin J Integr Med.2007 Mar;13(1):10-6
25. Xiao YY, Chen XK, Du L,et al. The brain mapping on reinforcement acupuncture stimulation at ST36 (zusanli) evidenced by fMRI. Conf Proc IEEE Eng Med Biol Soc. 2006;1:1036-9
26.Huang Y, Lai XS, Tang AW. Comparative study of the specificities of needling acupoints DU20, DU26 and HT7 in intervening vascular dementia in different areas in the brain on the basis of scale assessment and cerebral functional imaging. Chin J Integr Med.2007 Jun;13(2):103-8
27.Yin L, Jin X, Qiao W,et al. PET imaging of brain function while puncturing the acupoint ST36.Chin Med J (Engl).2003 Dec;116(12):1836-9
28. Biella G, Sotgiu ML, Pellegata G,et al. Acupuncture produces central activations in pain regions. Neuroimage.2001 Jul;14(1 Pt 1):60-6
29. Li K, Shan B, Xu J, et al. Changes in FMRI in the human brain related to different durations of manual acupuncture needling. J Altern Complement Med.2006 Sep;12(7):615-23.
30.闫立平,孙忠人,谢兵,等.电针曲池穴脑功能性磁共振成像的表现.针灸临床杂志,2005;21(3):61
31.许建阳,王发强,王宏,等.针刺合谷与太冲fMRI脑功能成像的比较研究.中国针灸,2004;24(4):263
32.邵广瑞,闫镔,柳澄,等.针刺委中穴与足三里穴PET/CT脑功能显像研究.中华核医学杂志,2006;26(1):54
33.方继良,金真,王寅,等.针刺太冲及其邻近穴脑反应区功能磁共振成像比较.中国医学影像技术,2005;21(9):1332
34.周诚王嘉洲,陈敏,等.针刺穴位与大脑皮质之间关系的脑功能MRI表现.中华放射学杂志,2005;39(3):252
35.付平,贾建平,王葳,等.电针内关和神门穴对脑功能成像不同影响的观察.中国针灸,2005;25(1):61
36.龚洪翰,王永正,肖香佐,等.fMRI探讨针刺足三里穴和下巨虚穴的大脑功能区分布.影像诊断与介入放射学,2003;12(3):133
37.邱明国,王健,谢兵,等.电针刺激光明、外关组穴fMRI脑功能成像的研究.第三军医大学学报,2005;27(19):1970
38.张向宇,高硕,赵建国,等不同穴位组合对脑梗死患者脑葡萄糖代谢的影响——PET研究中国针灸,2007;27(1):26
39.方继良.捻针时真、假穴不同中枢激活效应的脑功能MRI.中华放射学杂志,2004;38(12):1281
40.张俊海,冯晓源,李霁,等.穴位和非穴位电针镇痛的脑功能磁共振对照研究.中国医学计算机成像杂志,2005;11(1):10
41.王爱成,王玉来,江涛,等.针刺申脉穴的fMRI脑功能成像研究.针刺研究,2005;30(1):43
42.黄泳,唐安戊,李东江,等.头针对正常人和抑郁症患者丘脑葡萄糖代谢的影响.新中医,2004;36(10):73
2.孙志宏,胡格,赵慧英.近年来穴位形态学研究概况[J].中国针灸,2002,21(1):64-65.
3.魏育林,屠亦文.经络及腧穴的生物物理学特性的研究进展[J].中国针灸,2005,25(11):817-819.
4.秦立新.论腧穴的非特异性[J].上海针灸杂志,2004,23(12):34-35.
5.徐卫东,刘乡,朱兵.电针对三叉背角会聚神经元镇痛作用的广泛性和特异性的中枢机制研究[J].针刺研究,2000,25(4):248-253
6. Linde K, Streng A, Jurgens S, et al. Acupuncture for patients with migraine:a randomized controlled trial[J]. JAMA,2005,293(17)2118-25.
7. Melchart D, Streng A, Hoppe A, et al. Acupuncture in patients with tensiontype headache:randomised controlled trial[J], BMJ,2005,331 (7513):376-82.
8. Witt C, Brinkhaus B, Jena S, et al. Acupuncture in patients with osteoarthritis of the knee:a randomised trial[J]. Lancet 2005,366(9480):136-43.
9. Scharf H-P, Mansmann U, Streitberger K, et al. Acupuncture and knee osteoarthritis:a three-armed randomized trial[J]. Ann Intern Med,2006,145(1):117.
10. Liang XB, Liu XY, Han JS, et al. Electroacupuncture improves behavior and upregulates GDNF mRNA in MFB transected rats[J]. Neuroreport 2003,14:1177-1180.
11. Wei Ting Zhang, Zhen Jin, Fei Luo, et al. Evidence from brain imaging with fMRI supporting functional specificity of acupoints in humans[J]. Neuroscience Letters,2004, 354(1):50-53.
12. Kong J, Gollub RL, Webb JM, et al. Test-retest study of fMRI signal change evoked by electroacupuncture stimulation[J]. Neuroimage,2007,34(3):1171-81.
13.胡卡明,王承平,谢慧君,等.针刺穴位与非穴位激活不同脑的效应观察[J].中国针灸,2006,26(3):205-208.
14. Cho ZH, Chung SC, Lee HJ. et al. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J]. Proc Natl Acad Sci USA,1998, 95(5):2670-3.
15. Cho ZH, Chung SC, Lee HJ, et al. Retraction. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI[J]. Proc Natl Acad Sci USA,2006,103:10527.
16.朱蔓佳,胡卡明.功能性磁共振探查光明、太冲穴与大脑功能的关系[J].中国临床康复,2005,9(9):200-202.
17.方继良,金真,王寅,等.针刺太冲及其邻近穴脑反应区功能磁共振成像比较[J].中国医学影像技术,2005,21(9):1332-6.
18.刘华,单保慈等.针刺太冲、合谷两穴引起的小脑响应的差异:fMRI研究[J].中国医学影像技术,2006,22(8):1165-7.
19. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response:a fMRI study with electroacupuncture[J]. Neuroimage,2002,16(4):1028-37.
20. Hui KK, Liu J, Marina O, et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI[J], Neuroimage,2005,27(3):479-96.
21. Hui KK, Liu J, Makris N, et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain:evidence from fMRl studies in normal subjects[J]. Hum Brain Mapp,2000,9(1):13-25.
22. George T. LewitM, Peter J. et al. Investigating Acupuncture Using Brain Imaging Techniques:The Current State of Play[J]. eCAM,2005,2(3):315-319.
23. Headache Classification Committee of the International Headache Society. Classification and diagnostic criteria for headache disorders, cranial neuralgias, and facial pain [J]. Second Edition.Cephalalgia,2004.24(Suppl 1):1.
24.陈勤,吴曦,朱欢,等.针灸治疗偏头痛临床对照文献用穴规律分析[J].成都中医药大学学报,2007,30(3):1.5,9.
25.刘子旺,王玉来,赵永烈,等.中医神经信息学的发展.中国中医药现代远程教[J],2006,4(7):10-13.
26.人类脑计划和神经信息学——香山科学会义第168次学术讨论会[J].中国基础科学,2002,(1):4749.
27.王永炎.中医研究的三个重要趋势[J].山西中医,2005,1(21):1-2.
28.马林.磁共振功能成像在脑部的应用[J].中国医学影像学杂志.1995,3:227-229.
29.谭小琳.用功能磁共振成像开展神经科学研究第一步[J].中国医学物理学杂.1999,16(4):209-214.
30.李文.脑功能成像技术的研究[J].国外医学·生物医学工程分册,1999,22(1):14-19.
31. K1einschmdt A.Frahm J. Linking cerebral blood oxygenation to human brain function. Current issues for human neuroscience by magnetic resonance neuroimaging[J]. Adv Exp Med Biol.1997,413:221-233.
32. Posner Ml, Raichle ME. The neuroimaging of human brain function[J]. ProcNatl Acad Sci USA,1998,95(3):763-764.
33.田嘉禾.神经核医学与PET研究的热点、难点及应用前景.见:丁虹,贾少微主编.神经核医学进展[M].长春:吉林科学技术出版社,1999:10.
34. Denuelle M, Fabre N, Payoux P.-et al.Hypothalamic Activation in Spontaneous Migraine Attacks[J], Headache,2007; 47(10):1418-26.
35.朱芳,周义成,王承缘.磁共振波谱与脑功能成像[J].放射学实践,2000,15(1):74-75.
36.段冬梅,图娅,陈利平,等.抑郁症中医辨证与前额叶及海马1H-MRS的相关性探讨[J].中国康复理论与实践,2008,14(10):960-962.
37.刘正东,尚可,林宇.脑磁图与大脑功能检测[J].自然杂志,1999,21(3):154-158.
38.秦妍滨,陈琨,蒋满,等.多种脑功能成像技术的临床应用[J].中国临床康复,2006,10(18):132-134.
39.顾星.脑磁图检测在合谷穴特异性研究中的应用[J].中国中医药信息杂志,2005,12(5):11-13.
40.顾星.针刺合谷穴对脑磁图的动态观察[J].上海针灸杂志,2005,24(7):38-40.
41.胡卡明,王承平,谢慧君,等.针刺穴位与非穴位激活不同脑区的效应观察[J].中国针灸,2006:26(3):205-207.
42.唐刚华.PET药物及其研究现状与进展[J].国外医学·放射医学核医学分册.1999,23:193-197.
43.程海英.经络辨证在头痛治疗中的应用[J].北京中医,2004,23(6):359-360.
44.赵百孝.针灸治疗头痛的临床体会[J].中国中医基础医学杂志,2004,10(6):69-70.
45. Diener HC. Positron emission tomography studies in headache[J]. Headache, 1997,37(10):622-5.
46. Cutrer FM, Black DF.Imaging findings of migraine[J]. Headache.2006, 46(7):1095-107.
47. Goadsby PJ. Recent advances in the diagnosis and management of migraine[J].BMJ. 2006,332(7532):25-9.
48.林昭庚.中西医病名对照大辞典[M].北京,人民卫生出版社,2003:759.
49阎海.偏头痛诊治大成[M].北京,学苑出版社,1996.118.
50. Pierre Maquet, Dominique Dive, Eric Salmon, et a1. Reproducibility of cerebral glucose utilization measured by PET and the [18F]-2-deox—d—glucose method in resting, healthy human suWects[J].Eur J Nucl Med,1990,16:267-273.
51.郭述苏,薛广波,王中,等.中国偏头痛流行病学初步调查[J].中华流行病学杂志,1991,14(2):102-105.
52. Kuhl DE, Metter EJ, Reige WH, et al. Effect of human aging on patterns of local cerebral glucose utilization determined by the [~(18)FDG] fluorodeoxyglucose method[J]. J Cereb Blood Flow Metab,1982,2:163.
53. Rapoport SI. Brain aging in 40 healthy men:rCMRGIu and correlated functional activity in various brain regions in the resting state[J].J Cereb Blood Flow Metab,1983, 3(suppl 1):5454-5485.
54. Loessner A, Alavi A, Lewandrowski K-U, et al. Regional cerebral functional determined by FDG-PET in health volunteers:normal patterns and changes with age[J]. J Nucl Med,1995,36:1141-1149.
55. Afridi SK, Matharu MS, Lee L, et al. A PET study exploring the laterality of brainstem activation in migraine using glyceryl trinitratef[J]. Brain,2005,28(Pt4):932-9.
56. Nassim P, Karen J, Clemma.et al. A randomized clinical trial of aupuncture compared with sham acupuncture in fibromyalgi[J]. Ann Intern Med,2005,143:10-19
57. Brinkhaus B, Hummelsberger J, Kohnen R, et al. Acupuncture and Chinese herbal medicine in the treatment of patients with seasonal allergic rhinitis:a randomized-controlled clinical trial[J].AIiergy,2004,59(9):953-960.
58.杨旭光.国内外针灸研究中非经非穴选取方法的评述.世界针灸学会联合会成立20周年暨世界针灸学术大会论文摘要汇编.2007.10.20-22,209页.
59. Lashley KS. Patterns of cerebral integration indicated by scotomas of migraine[J]. Arch Neurol Psychiatry,1941,46:331-339.
60. Leao AAP. Spreading depression of activity in the cerebral cortex[J]. J Neurophysiol, 1944,7:359-390.
61. Maldjian, JA; Laurienti, PJ; Kraft, RA, et al. An automated method for neuroanatomic and cytoarchitectonic atlas-based interrogation of fMRI data sets[J].NeuroImage,2003, 19:1233-39.
62. Tzourio-Mazoyer, N; Landeau, B; Papathanassiou, D, et al. Automated anatomical labeling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain[J], NeuroImage,2002,15(1):273-89.
63. Hammers, A; Koepp, MJ; Free, SL, et al. Implementation and application of a brain template for multiple volumes of interest[J]. Human Brain Mapping,2002,15:165-74.
64. Bowman FD,Guo Y.Derado G. Statistical approaches to functional neuroimaging data[J]. Neuroimaging Clin N Am,2007,17(4):441-58, viii.
65. Guo Wan-hua. Application of statistical parametric mapping in PET and SPECT brain functional imaging[J],国外医学·放射医学核医学分册,2002,26(1):7-11.
66. Friston KJ,Holmes AP.Worsley JP.et al.Statistical parametric maps in functional imaging:A general linear approach[J]. Human Brain Mapping,1995,2:189-210.
67. Cox RW. AFNI:Software for analysis and visualization of functional magnetic resonance neuroimages[J]. Comput Biomed Res,1996,29(3):162-193.
68. Sun P, Liu JW. An introduction of brain functiona imaging analysis software AFNI[J]. Beijing Biomedical Engineering,1999,18(1):54-55.
69.汲业,冯士刚,刘文宇,等.SPM和AFNI的性能比较[J].中国医学影像技术,2005,21(3):336-338.
70. Weiller C, May A, Limmroth V, et al. Brain stem activation in spontaneous human migraine attacks[J]. Nat Med,1995,1(7):658-660.
71. Bahra A, Matharu MS, Buchel C, et al. Brainstem activation specific to migraine headache[J]. Lancet,2001,357(9261):1016-1017.
72. Matharu MS, Bartsch T, Ward N, et al.Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J], Brain,2004,127(Pt 1):220-230.
73. Shazia K, Nicola J, Holger Kaube, et al. A positron emission tomographic study in spontaneous migraine[J], Arch Neurol,2005; 62(8):1270-1275.
74. Cao Y, Welch KMA, Aurora S, et al. Functional MRI-BOLD of visually triggered headache in patients with migraine[J]. Arch Neurol,1999,56(5):548-54.
75. May A, Bahra A, Buchel C, et al. Hypothalamic activation in cluster headache attacks[J]. Lancet 1998,352(9124):275-8.
76. May A, Kaube H, Buechel C, et al. Experimental cranial pain elicited by capsaicin:a PETstudy[J]. Pain,1998,74(1):61-6.
77. Raskin NH, Hosobuchi Y, Lamb S. Headache may arise from perturbation of brain[J].Headache,1987,27(8):416-420.
78. Veloso F, Kumar K, Toth C. Headache secondary to deep brain implantation[J]. Headache,1998,38(7):507-515.
79. Goadsby PJ. Neurovascular headache and a midbrain vascular malformation: evidence for a role of the brainstem in chronic migraine[J], Cephalalgia,2002,22(2): 107-111.
80. Afridi S, Goadsby PJ. New onset migraine with a brain stem cavernous angioma[J].J Neurol Neurosurg Psychiatry,2003,74(5):680-682.
81. Afridi SK, Giffin NJ, Kaube H, et al. A positron emission tomographic study in spontaneous migraine[J].Arch Neurol,2005,62(8):1270-5.
82. Harno H, Hirvonen T, Kaunisto MA, et al Subclinical vestibulocerebellar dysfunction in migraine with and without aura[J]. Neurology,2003,61(12):1748-1752.
83. Andor PS, Mascia A, Seidel L, et al. Subclinical cerebellar impairment in the common types of migraine:A three-dimensional analysis of reaching movements[J]. Ann Neurol, 2001,49(5):668-672.
84. Baloh RW. Neurotology of migraine[J], Headache,1997,37(10):615-621.
85. Cutrer FM, Baloh RW. Migraine-associated dizziness[J]. Headache,1992, 32(6):300-304.
86. Guerraz M, Yardley L, Bertholon P, et al Visual vertigo:Symptom assessment, spatial orientation and postural control[J], Brain,2001,124(pt8):1646-1656.
87. McKendrick AM, Vingrys AJ, Badcock DR, et al. Visual dysfunction between migraine events[J]. Invest Ophthalmol Vis Sci,2001,42(3):626-633.
88. McKendrick AM, Badcock DR. Motion processing deficits in migraine[J]. Cephalalgia, 2004,24(5):363-372.
89. Yenice O, Onal S, Incili B, et al. Assessment of spatial-contrast function and short-wavelength sensitivity deficits in patients with migraine[J], Eye,2007,21 (2):218-23.
90. Jayamaha JE, Street MK. Fatal cerebellar infarction in a migraine sufferer whilst receiving sumatriptan[J]. Intensive Care Med,1995,21(1):82-83.
91. Crawford JS, Konkol RJ. Familial hemiplegic migraine with crossed cerebellar diaschisis and unilateral meningeal enhancement[J]. Headache,1997,37(9):590-593.
92. Lee TG, Solomon GD, Kunkel RS, et al. Reversible cerebellar perfusion in familial hemiplegic migraine[J]. Lancet,1996,348(9038):1383.
93. Vincent M, Hadjikhani N. The cerebellum and migraine[J]. Headache.2007,47(6): 820-33.
94. Afridi SK, Giffin NJ, Kaube H, et al. A Positron Emission Tomographic Study in Spontaneous Migraine[J]. Arch Neurol.2005,62(8):1270-5.
95. Matharu MS, Bartsch T, Ward, et al. Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J]. Brain,127 (1):220-230.
96. Aurora SK, Barrodale PM, Tipton RL, et al. Brainstem Dysfunction in Chronic Migraine as Evidenced by Neurophysiological and Positron Emission Tomography Studies[J]. Headache,2007,47(7):996-1003.
97. Drummond PD, Lance JW. Neurovascular disturbances in headache patients[J]. Clin Exp Neurol,1984,20:93-99.
98. Denuelle M, Fabre N, Payoux P,et al. Hypothalamic Activation in Spontaneous Migraine Attacks[J]. Headache,2007,47(10):1418-26.
99. Bahra A, Matharu MS, Buchel C.et al. Brainstem activation specific to migraine headache[J]. Lancet,2001,357(9261):1016-7.
100. Stuart WG. Exploring the pain "neuromatrix",Current Review of Pain[J],2000,4(6):467-477.
101. Manjit S. Matharu, Thorsten Bartsch, et al. Central neuromodulation in chronic migraine patients with suboccipital stimulators:a PET study[J]. Brain,2004, 127(1):220-230.
102. Hsieh JC, Hannerz J, Ingvar M. Right-lateralized central processing for pain of nitroglycerin-induced cluster headache[J]. Pain,1996,67(1):59-68.
103. Kwan CL, Crawley AP, Mikulis DJ, et al. An fMRI study of the anterior cingulated cortex and surrounding medial wall activations evoked by noxious cutaneous heat and cold stimuli[J]. Pain,2000,85(3):359-374.
104. T Schmidt-Wilcke, S GanBbauer,T Neuner, et al. Subtle grey matter changes between migraine patients and healthy controls[J]. Cephalalgia,2007,28(1):1-4.
105 Valfre W, Rainero I, Bergui M, et al. Voxel-Based Morphometry Reveals Gray Matter Abnormalities in Migraine[J], Headache,2008,48(1):109-17.
106. Mesulam MM, Mufson E F. The insula of Reil in man and mondey. Architectonics, connectivity and function[M]. New York:Plenum,1985:179-226.
107. Andersson JL, Lilja A, Hartvig P,et al. Somatotopic organization along the central sulcus, for pain localization in humans,as revealed by positron emission tomography[J]. Experimental Brain Research,1997,117(2):192-199.
108. Casey KL, Minoshims S, Morrow TJ.et al. Comparison of human cerebral activation pattern during cutaneous warmth,heat pain, and deep cold pain[J]. Journal of Neurophysiology,1996,76(1):571-581.
109. Hsieh JC, Hannerz J, Ingvar M. Right-lateralised central processing for pain of nitroglycerin-induced cluster headache[J].Pain,1996,67(1):59-68.
110. Tracey I, Becerra L, Chang I, et al. Noxious hot and cold stimulation produce common pattems of brain activation in humans:a functional magnetic resonance imaging study[J]. Neurosci Lett,2000,288(2):159-62.
111. Coghill RC, Sang CN, Maisog JM, et al. Pain intensity processing within the human brain:a bilateral, distributed mechanism[J], J Neurophysiol,1999,82(4):1934-43.
112. CoghillRC, SangCN, Maisog JM, et al. Pain intensity processing within the humanbrain:a bilateral, distributed mechanism[J]. J Neurophysiol.1999,82(4): 1934-1943.
113. Susanna J, Bantick, Richard G, et al. Imaging how attention modulates pain in humans using functional MR[J]I. Brain,2002,125(Pt 2),310-319.
114. Jones,AK, Brown WD, Friston KJ, et al. Cortical and subcortical localization of response to pain in man using positron emission tomography. Proceedings[J]. Biological Sciences,1991,244 (1309):39-44.
115. Talbot JD, Marrett S, Evans AC, et al. Multiple representations of pain in human cerebral cortex[J]. Science,1991,251(4999):1355-1358.
116. Vogt BA, Sikes RW, Vogt LJ. Anterior cingulated cortex and the medial pain system. Neurobiology of Cingulate Cortex and Limbic Thalamus.A Comprehensive Treatise[M]. Boston:Birkhauser,1993:313-344.
117. Vogt BA. Structural organization of cingulated cortex:areas,neurons,and somotodendritic transmitter receptors. In Neurobiology of Cingulate Cortex and Limbic Thalamus:A Comprehensive Treatise[M]. Boston:Birkhauser,1993:19-70.
118. Vogt BA, Finch DM, Olson CR. Functional heterogeneity in cingulate cortex.the anterior executive and posterior evaluative regions[J].Cereb Cortex,1992,2(6):435-443.
119. Krettek JE, Price JL. The cortical projections of the mediodorsal nucleus and adjacent thalamic nuclei in the rat[J].J Comp Neurol,1997,171 (2):157-191.
120. Sripanidkulchai K, Sripanidkulchai B, Wyass JM.The cortical projections of the basolateral amygdaloid nucleis in the rat:a retrograde fluorescent dye study[J]. J Comp Neurol,1984,229(3):419-431.
121. Gabriel M. Functions of anterior and posterior cingulated cortex during avoidance learning in rabbits[M]. New York, Academic Press:1990,467-583.
122. Gabriel M. Foster K, Orona E. Interaction of Imainae of the cingulate cortex with the anteroventral thalamus, and hippocampal formation in discriminative conditioning[J]. Prog Psychobiol Physiol Psychol 1980,9:125-231.
123. Vogt BA,Derbyshire SWG,jones AKP.Pain processing in four regions of human cingulate cortex localized with coregistered PET and MR imaging[J]. Eur J Neurosci 1996,8(7):1461-1473.
124. Bancaud J, Talairach J. Clinical semiology of frontal lobe seizures[M]. New York, Raven Press:1992:3-58.
125. George MS, Ketter TA.Parekh PI, et al. Brain activity during transient sadness and happiness in healthy women[J]. Am J Psychiatry,1995,152(3):341-351.
126. M.Ingvar, Pain and functional imaging[J], Phil Trans R Soc Lond, B. 1999;354:1347-1358.
127. Craig AD.Bushnell MC,Zhang ET,et al. A thalamic nucleus specific for pain and temperature sensation[J].Nature,1994,372(6508):770-773.
128. Coghill RC, Talbot JD, Evans AC,etal. Distributed processing of pain and vibration by the human brain[J].J Neurosci.1994,14(7):4095-4108.
129. Disbrow E.Buoncore M, Antognini J,et al. Somatosensory cortex:a comparision of the response to noxious thermal,mechanical,and electric stimuli using functional magnetic resonance imaging[J]. Hum Brain Mapp.1998,6(3):150-9.
130. Tracey I, Becerra L, Chang I, et al. Noxious hot and cold stimulation produce common patterns of brain activation in humans:a functional magnetic resonance imaging study[J]. Neurosci Let,t2000,288(2):159-62.
131. Kwan CL, Crawley AP, Mikulis DJ, et al. An fMRI study of the anterior cingulate cortex and surrounding medial wall activations evoked by noxious cutaneous heat and cold stimuli[J]. Pain 2000,85(3):359-74.
132. Peyron R, Garcia-Larrea L, Gregoire MC, et al. Haemodynamic brain responses to acute pain in humans[J], Sensory and attentional networks. Brain,1999,122(Pt 9): 1765-80.
133. Portas CM, Rees G, Howseman AM, et al. A specific role for the thalamus in mediating the interaction of attention and arousal in humans[J]. J Neurosci 1998,18(21): 8979-89.
134. Duncan GH, Kupers RC, Marchand S,et al. Stimulation of Human Thalamus for Pain Relief:Possible Modulatory Circuits Revealed by Positron Emission Tomography[J]. J Neurophysiol.1998,80(6):3326-30.
135. Hui KK, Liu J, Makris N, Gollub RL, CHen AJ, Moore CI, Kennedy DN, Rosen BR, Kwong KK:Acupuncture modulates the limbic system and subcortical gray structures of the human brain:Evidence from fMRI studies in normal subjects[J], Hum Brain Mapp, 2000,9(1):13-25.
136. Jaaskeiainen SK,Rinne JO.Forssell H,et al. Role of the dopaminergic system in chronic pain a fluorodopa PET study[J]. Pain,2001,90(3):257-260.
137.郭俊唐,于生元.痛觉中枢的功能成像学研究[J].中国疼痛医学杂志.2002,8(3):165-168.
138. Melzack R. Phantom limbs.the self and the brain:the D.O.Hebb memorial lecture[J]. Can Psychol,1989,30:1-16.
139. Friston KJ, Frackowiak RSJ.Imaging functional anatomy. In brain work and mental activity (Alfred Benzon Symposium 31) [J]. Copenhagen:Mundsgaard,1991:267-277.
140. Stuart WG. Exploring the pain "neuromatrix" [J]. Curr Rev Pain,2000;4(6):467-77.
141. Hoffman GA, Harrington A, Fields HL. Pain and the placebo:what we have learned[J], Perspect Biol Med,2005;48(2):248-65.
142. Zubieta JK, Bueller JA, Jackson LR, et al. Placebo effects mediated by endogenous opioid activity on mu-opioid receptors[J]. J Neurosci,2005,25(34):7754-62
143. Zubieta JK, Yau WY, Scott DJ, et al. Belief or Need? Accounting for individuaI variations in the neurochemistry of the placebo effect[J], Brain Behav Immun,2006, 20(1):15-26.
144. Wager TD, Rilling JK, Smith EE, et al. Placebo-induced changes in FMRI in the anticipation and experience of pain[J]. Science 2004;303(5661):1162-7.
145. Petrovic P, Kalso E, Petersson KM, et al. Placebo and opioid analgesia-imaging a shared neuronal network[J]. Science,2002,295(5560):1737-40.
146. Bingel U, Lorenz J, Schoell E, et al. Mechanisms of placebo analgesia:rACC recruitment of a subcortical antinociceptive network[J]. Pain 2006,120(1-2):8-15.
147. Melzack R, Wall PD.Pain mechanisms:a new theory[J]. Science, 1965,150(699):971-9.
148 Peyron R, Garcia-Larrea L, Gregoire MC.et al. Haemodynamic brain responses to acute pain in humans:sensory and attentional networks[J]. Brain,1999,122 (Pt 9):1765-80.
149. Craig AD, Chen K, Bandy D,et al. Thermosensory activation of insular cortex[J]. Nat Neurosci,2000,3(2):184-90.
150. Wager TD, Rilling JK, Smith EE, et al. Placebo-induced changes in FMRI in the anticipation and experience of pain[J], Science,2004,303(5661):1162-7.
151. Miller, E K, JD Cohen.An integrative theory fo prefrontal cortex function[J].Annu. Rev. Neurosci,2001,24:167-202.
152. W. MacDonald, J. D. Cohen, V. A. Stenger, et al. Dissociating the role of Dorsolateral Prefrontal and Anterior Cingulate Cortex in cognitive control[J], Science,2000, 288(5472):1835-8.
153. Petrovic P, Carlsson K, Petersson KM.et.al. Context-dependent deactivation of the amygdala during pain[J]. J Cogn Neurosci,2004,16(7):1289-301.
154. Hui KK, Liu J, Marina O, et al. The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced byfMRI[J]. Neuroimage,2005,27(3):479-96
155. Napadow V, Liu J, Li M, et al. Hypothalamus and Amygdala Response to Acupuncture Stimuli in Carpal Tunnel Syndrome[J]. Pain.2007,130(3):254-66.
156. Yoo SS, Teh EK, Blinder RA,et al. Modulation of cerebellar activities by acupuncture stimulation:evidence from fMRI study[J]. Neuroimage.2004,22(2):932-40.
157. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response: a fMRI study with electroacupuncture[J]. Neuroimage.2002,16(4):1028-37.
158. Petrovic P, Carlsson K, Petersson KM,et al. Context-dependent deactivation of the amygdala during pain[J], J Cogn Neurosci.2004,16(7):1289-301.
159. Li L, Liu H, Li YZ.et al. The human brain response to acupuncture on same-meridian acupoints:evidence from an fMRI study[J]. J Altern Complement Med.2008,14(6):673-8.
160王维治.神经病学[M].北京:人民卫生出版社,2001.
161.程学铭,蔡琰,李世新,等.我国六城市神经疾病流行病学调查[J].中华神经精神科杂志,1990,23:44-46.
162. Lipton RB,Diamond S,Reed M,et al.Migraine diagnosis and treatment:results from the American Migraine Study II [J].Headache,2001,41:638-645.
163. Lipton RB.Bigal ME,KolodnerK,et al. The family impact of migraine:population-based studies in the USA and UK[J], Cephalalgia,2003,23:429-440.
164.韩济生.针刺镇痛原理[M].第1版.上海:上海科技教育出版社.1999:145.
165. S Akerman, PJ Goadsby. Dopamine and migraine:biology and clinical implications[J]. Cephalalgia,2007,27:1308-1314.
1. Chiu JH, Cheng HC, Tai CH, et al. Electroacupuncture-induced neural activation detected by use of manganese-enhanced functional magnetic resonance imaging in rabbits. Am J Vet Res.2001 Feb;62(2):178-82.
2. Chiu JH, Chung MS, Cheng HC.et al. Different central manifestations in response to electroacupuncture at analgesic and nonanalgesic acupoints in rats:a manganese-enhanced functional magnetic resonance imaging study. Can J Vet Res. 2003May;67(2):94-101
3.Cho ZH, Chung SC, Lee HJ, et al. New findings of the correlation between acupoints and corresponding brain cortices using functional MRI. Proc Natl Acad Sci U S A.1998 Mar 3;95(5):2670-3.
4. Wu MT, Hsieh JC, Xiong J, et al.Central nervous pathway for acupuncture stimulation: localization of processing with functional MR imaging of the brain-preliminary experience. Radiology.1999 Jul;212(1):133-41.
5. Hui KK, Liu J, Makris N, et al. Acupuncture modulates the limbic system and subcortical gray structures of the human brain:evidence from fMRI studies in normal subjects. Hum Brain Mapp.2000;9(1):13-25.
6. Gareus IK, Lacour.M, Schulte AC et al.ls there a BOLD response of the visual cortex on stimulation of the vision-related acupoint GB 37?J Magn Reson Imaging.2002 Mar;15(3):227-32.
7.Siedentopf CM, Golaszewski SM, Mottaghy FM, et al. Functional magnetic resonance imaging detects activation of the visual association cortex during laser acupuncture of the foot in humans. Neurosci Lett.2002 Jul 12;327(1):53-6.
8. Wu MT, Sheen JM, Chuang KH,et al. Neuronal specificity of acupuncture response:a fMRI study with electroacupuncture. Neuroimage.2002 Aug; 16(4):1028-37
9. Li G, Cheung RT, Ma QY, Yang ES. Visual cortical activations on fMRI upon stimulation of the vision-implicated acupoints. Neuroreport.2003 Apr 15;14(5):669-73
10. Zhang WT, Jin Z, Luo F,et al. Evidence from brain imaging with fMRI supporting functional specificity of acupoints in humans. Neurosci Lett.2004 Jan 2;354(1):50-3 11.Fang JL, Krings T, Weidemann J, et al. Functional MRI in healthy subjects during acupuncture:different effects of needle rotation in real and false acupoints. Neuroradiology.2004 May;46(5):359-62.
12.Li G, Huang L, Cheung RT, et al.Cortical activations upon stimulation of the sensorimotor-implicated acupoints. Magn Reson Imaging.2004 Jun;22(5):639-44
13.Yoo SS, Teh EK, Blinder RA.et al. Modulation of cerebellar activities by acupuncture stimulation:evidence from fMRI study. Neuroimage.2004 Jun;22(2):932-40
14.Liu WC, Feldman SC, Cook DB.et al. fMRI study of acupuncture-induced periaqueductal gray activity in humans. Neuroreport.2004 Aug 26; 15(12):1937-40
15.Litscher G, Rachbauer D, Ropele S, et al. Acupuncture using laser needles modulates brain function:first evidence from functional transcranial Doppler sonography and functional magnetic resonance imaging. Lasers Med Sci.2004;19(1):6-11
16. Yan B, Li K, Xu J, et al.Acupoint-specific fMRI patterns in human brain.Neurosci Lett. 2005 Aug 5;383(3):236-40
17. Siedentopf CM, Koppelstaetter F, Haala IA,et al. Laser acupuncture induced specific cerebral cortical and subcortical activations in humans. Lasers Med Sci.2005 Sep;20(2):68-73
18.Hui KK, Liu J, Marina O, et al.The integrated response of the human cerebro-cerebellar and limbic systems to acupuncture stimulation at ST 36 as evidenced by fMRI. Neuroimage.2005 Sep;27(3):479-96
19. Jeun SS, Kim JS, Kim BS,et al. Acupuncture stimulation for motor cortex activities:a 3TfMRI study. Am J Chin Med.2005;33(4):573-8
20.Nakagoshi A, Fukunaga M, Umeda M, et al.Somatotopic representation of acupoints in human primary somatosensory cortex:an FMRI study. Magn Reson Med Sci.2005 Dec 31;4(4):187-9
21. Campbell A. Point specificity of acupuncture in the light of recent clinical and imaging studies. Acupunct Med.2006 Sep;24(3):118-22
22. Kong J, Gollub RL, Webb JM, et al. Test-retest study of fMRI signal change evoked by electroacupuncture stimulation. Neuroimage.2007 Feb 1;34(3):1171-81
23. Napadow V, Kettner N, Liu J,et al. Hypothalamus and amygdala response to acupuncture stimuli in Carpal Tunnel Syndrome. Pain.2007 Aug;130(3):254-66
24.Wang W, Liu L, Zhi X, et al. Study on the regulatory effect of electro-acupuncture on hegu point (L14) in cerebral response with functional magnetic resonance imaging. Chin J Integr Med.2007 Mar;13(1):10-6
25. Xiao YY, Chen XK, Du L,et al. The brain mapping on reinforcement acupuncture stimulation at ST36 (zusanli) evidenced by fMRI. Conf Proc IEEE Eng Med Biol Soc. 2006;1:1036-9
26.Huang Y, Lai XS, Tang AW. Comparative study of the specificities of needling acupoints DU20, DU26 and HT7 in intervening vascular dementia in different areas in the brain on the basis of scale assessment and cerebral functional imaging. Chin J Integr Med.2007 Jun;13(2):103-8
27.Yin L, Jin X, Qiao W,et al. PET imaging of brain function while puncturing the acupoint ST36.Chin Med J (Engl).2003 Dec;116(12):1836-9
28. Biella G, Sotgiu ML, Pellegata G,et al. Acupuncture produces central activations in pain regions. Neuroimage.2001 Jul;14(1 Pt 1):60-6
29. Li K, Shan B, Xu J, et al. Changes in FMRI in the human brain related to different durations of manual acupuncture needling. J Altern Complement Med.2006 Sep;12(7):615-23.
30.闫立平,孙忠人,谢兵,等.电针曲池穴脑功能性磁共振成像的表现.针灸临床杂志,2005;21(3):61
31.许建阳,王发强,王宏,等.针刺合谷与太冲fMRI脑功能成像的比较研究.中国针灸,2004;24(4):263
32.邵广瑞,闫镔,柳澄,等.针刺委中穴与足三里穴PET/CT脑功能显像研究.中华核医学杂志,2006;26(1):54
33.方继良,金真,王寅,等.针刺太冲及其邻近穴脑反应区功能磁共振成像比较.中国医学影像技术,2005;21(9):1332
34.周诚王嘉洲,陈敏,等.针刺穴位与大脑皮质之间关系的脑功能MRI表现.中华放射学杂志,2005;39(3):252
35.付平,贾建平,王葳,等.电针内关和神门穴对脑功能成像不同影响的观察.中国针灸,2005;25(1):61
36.龚洪翰,王永正,肖香佐,等.fMRI探讨针刺足三里穴和下巨虚穴的大脑功能区分布.影像诊断与介入放射学,2003;12(3):133
37.邱明国,王健,谢兵,等.电针刺激光明、外关组穴fMRI脑功能成像的研究.第三军医大学学报,2005;27(19):1970
38.张向宇,高硕,赵建国,等不同穴位组合对脑梗死患者脑葡萄糖代谢的影响——PET研究中国针灸,2007;27(1):26
39.方继良.捻针时真、假穴不同中枢激活效应的脑功能MRI.中华放射学杂志,2004;38(12):1281
40.张俊海,冯晓源,李霁,等.穴位和非穴位电针镇痛的脑功能磁共振对照研究.中国医学计算机成像杂志,2005;11(1):10
41.王爱成,王玉来,江涛,等.针刺申脉穴的fMRI脑功能成像研究.针刺研究,2005;30(1):43
42.黄泳,唐安戊,李东江,等.头针对正常人和抑郁症患者丘脑葡萄糖代谢的影响.新中医,2004;36(10):73
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |