中华精神科杂志
中華精神科雜誌
중화정신과잡지
CHINESE JOURNA OF PSYCHIATRY
2008年
3期
148-151
,共4页
嵇利亚%谢世平%杨露%钱春发%吴婷%顾剑红%郑烨%徐枝楼
嵇利亞%謝世平%楊露%錢春髮%吳婷%顧劍紅%鄭燁%徐枝樓
혜리아%사세평%양로%전춘발%오정%고검홍%정엽%서지루
精神分裂症%脑磁图描记术%幻觉%听觉皮质
精神分裂癥%腦磁圖描記術%幻覺%聽覺皮質
정신분렬증%뇌자도묘기술%환각%은각피질
Schizophrenia%Magnetoencephalngrapby%Hallucinatious%Auditory cortex
目的 探讨在不同频率纯音刺激下男性精神分裂症幻听患者初级听觉皮质的脑磁图(MEG)定位.方法 对均为右利手的10例男性精神分裂症幻听患者(研究组)和11名男性健康受试者(对照组),分别给予频率为0.5,2,4,8 kHz的纯音刺激,强度90 dB,持续200ms,刺激声间隔1 s.用脑磁图设备记录刺激后产生的听觉诱发磁场,并将MEG资料叠加到核磁共振成像以获得磁源性影像.结果 (1)对照组初级听觉皮质均定位于双侧颞横回;与对照组比较,研究组右侧初级听觉皮质位置更靠近颞横回外部,左侧明显偏向颞上回后外下部(P<0.05).(2)在分别给予2 kHz和4kHz纯音刺激时,研究组大脑双侧M100潜伏期[2 kHz:左(97±16)ms,右(97±10)ms,4 kHz:左(93±13)ms,右(99±14)ms]均短于对照组[2 kHz:左(121±15)ms,右(113±6)ms,4 kHz:左(113±13)ms,右(114±6)ms](均P<0.01),而波幅[2 kHz:左(89±10)fT,右(118±37)fT,4 kHz:左(81±9)fT,右(108±14)fT]高于对照组[2 kHz:左(73±12)fT,右(79±13)fT,4 kHz:左(69±14)fT,右(81±20)fT](均P<0.05~0.01).结论 男性精神分裂症幻听患者的初级听觉皮质位置与正常人不同,其M100波幅高,潜伏期短,这些功能及解剖结构的异常可能是精神分裂症幻听产生的病理生理机制之一.
目的 探討在不同頻率純音刺激下男性精神分裂癥幻聽患者初級聽覺皮質的腦磁圖(MEG)定位.方法 對均為右利手的10例男性精神分裂癥幻聽患者(研究組)和11名男性健康受試者(對照組),分彆給予頻率為0.5,2,4,8 kHz的純音刺激,彊度90 dB,持續200ms,刺激聲間隔1 s.用腦磁圖設備記錄刺激後產生的聽覺誘髮磁場,併將MEG資料疊加到覈磁共振成像以穫得磁源性影像.結果 (1)對照組初級聽覺皮質均定位于雙側顳橫迴;與對照組比較,研究組右側初級聽覺皮質位置更靠近顳橫迴外部,左側明顯偏嚮顳上迴後外下部(P<0.05).(2)在分彆給予2 kHz和4kHz純音刺激時,研究組大腦雙側M100潛伏期[2 kHz:左(97±16)ms,右(97±10)ms,4 kHz:左(93±13)ms,右(99±14)ms]均短于對照組[2 kHz:左(121±15)ms,右(113±6)ms,4 kHz:左(113±13)ms,右(114±6)ms](均P<0.01),而波幅[2 kHz:左(89±10)fT,右(118±37)fT,4 kHz:左(81±9)fT,右(108±14)fT]高于對照組[2 kHz:左(73±12)fT,右(79±13)fT,4 kHz:左(69±14)fT,右(81±20)fT](均P<0.05~0.01).結論 男性精神分裂癥幻聽患者的初級聽覺皮質位置與正常人不同,其M100波幅高,潛伏期短,這些功能及解剖結構的異常可能是精神分裂癥幻聽產生的病理生理機製之一.
목적 탐토재불동빈솔순음자격하남성정신분렬증환은환자초급은각피질적뇌자도(MEG)정위.방법 대균위우리수적10례남성정신분렬증환은환자(연구조)화11명남성건강수시자(대조조),분별급여빈솔위0.5,2,4,8 kHz적순음자격,강도90 dB,지속200ms,자격성간격1 s.용뇌자도설비기록자격후산생적은각유발자장,병장MEG자료첩가도핵자공진성상이획득자원성영상.결과 (1)대조조초급은각피질균정위우쌍측섭횡회;여대조조비교,연구조우측초급은각피질위치경고근섭횡회외부,좌측명현편향섭상회후외하부(P<0.05).(2)재분별급여2 kHz화4kHz순음자격시,연구조대뇌쌍측M100잠복기[2 kHz:좌(97±16)ms,우(97±10)ms,4 kHz:좌(93±13)ms,우(99±14)ms]균단우대조조[2 kHz:좌(121±15)ms,우(113±6)ms,4 kHz:좌(113±13)ms,우(114±6)ms](균P<0.01),이파폭[2 kHz:좌(89±10)fT,우(118±37)fT,4 kHz:좌(81±9)fT,우(108±14)fT]고우대조조[2 kHz:좌(73±12)fT,우(79±13)fT,4 kHz:좌(69±14)fT,우(81±20)fT](균P<0.05~0.01).결론 남성정신분렬증환은환자적초급은각피질위치여정상인불동,기M100파폭고,잠복기단,저사공능급해부결구적이상가능시정신분렬증환은산생적병리생리궤제지일.
Objective To investigate the localization of primary auditory cortex by using magnetoencephalography in male schizophrenia patients with auditory hallucination by various frequency of pure tone stimuli and to explore the pathophysiologic mechanism of auditory hallucination. Methods Ten male schizophrenia patients with auditory hallucination and 11 matched healthy subjects were recruited in the study. All the participants were right handed, and given various frequencies of 0.5, 2, 4, 8 kHz pure tone stimuli, with intensity of 90 dB sound pressure level, persistent time of 200 ms, interstimulus interval of 1 second. The auditory evoked magnetic fields (AEF) were recorded by MEG after stimulus, and the MEG data were superimposed on MRI to obtain MSL Results AEF M100 was induced in all subjects after giving the binaural stimuli, and the primary auditory cortex was localized in the bilateral transverse temporal gyri in controls, while in the outer of the transverse temporal gyri in the right hemispheric, and in the posteriorexterior-low part d superior temporal gyms in the left hemispheric in patients. M100 lateneies in bilateral globe were shorter in patients [(left 97 ± 16) ms, (right 97 ± 10) ms] than controls [(left 121 ± 15 )ms,(right 113±6)ms] and the amplitudes were higher in patients [(left 89 ± 10)fT, (right 118±37)fT] than controls [(left 73 ± 12) fT, (right 79 ± 13) fT] (P<0.05-0.01). Conclusions The localization of primary auditory cortex in male schizophrenia patients with auditory hallucination is different from healthy people,with shortened M100 latency and increased amplitudes in patients. These function and anatomical structure abnormality could be one of the pathophysiologic mechanism of auditory hallucination in schizophrenia.