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1.
抑郁首次发作患者感觉门控P50的研究   总被引:4,自引:0,他引:4  
目的研究抑郁首次发作(以下简称首发)患者的感觉门控P50特点。方法对39例符合国际疾病分类第10版抑郁发作诊断标准的首次抑郁发作患者(患者组)采用17项汉密尔顿抑郁量表(HAMD17)评定病情严重程度,并进行感觉门控P50检测,与40名健康志愿者(对照组)进行比较。结果(1)患者组P50测试刺激波(S2-P50)的波幅[(2.30±1.04)μV]低于条件刺激波(S1-P50)波幅[(3.48±1.66)μV],但高于对照组S2-P50波幅[(1.54±1.26)μV;P<0.01];患者组的S2/S1波幅比值[(70±23)%]高于对照组[(42±26)%;P<0.01],而S1-S2波幅绝对差值[(1.19±1.48)μV]却低于对照组[(2.17±2.16)μV;P<0.05];患者组P50抑制度[(29±23)%]也低于对照组[(57±26)%;P<0.01]。(2)经Pearson相关分析,患者组HAMD17量表评分与P50各指标无相关(P>0.05)。结论抑郁症首发患者感觉门控抑制存在明显缺损,不能有效滤过无关信息。  相似文献   

2.
精神分裂症首次发病患者治疗前后感觉门控功能的动态观察   总被引:23,自引:11,他引:12  
目的探讨精神分裂症首次发病(以下简称首发)患者治疗前后的听觉诱发电位P50变异的意义。方法应用美国Bravo脑电生理仪,采用条件刺激(S1)-测试刺激(S2)模式,分别于治疗前(66例)、治疗第5周(42例)和第12周(32例)对首发精神分裂症患者(患者组)进行P50检测,同时用阳性和阴性症状量表(PANSS)评定患者的临床症状;并以正常人(对照组,92名)的P50做比较。结果(1)治疗前,患者组的S1-P50波幅[(3±2)μV]低于对照组[(6±3)μV],S2-P50波幅[(4±2)μV]高于对照组[(2±1)μV],均P<0.01;患者组S2/S1比值[(81±40)%]高于对照组[(42±21)%],S1-S2波幅[(2±1)μV]低于对照组[(3±2)μV],100(1-S2/S1)值(19±17)低于对照组(58±21),差异均有统计学意义(P<0.05~0.01)。(2)患者组的S2/S1、S1-S2和100(1-S2/S1)与PANSS评分无相关性(P>0.05)。(3)与治疗前比较,患者组在治疗第5周末及第12周末P50的各项指标均无明显改变(均P>0.05)。结论P50变异可能是精神分裂症患者的早期改变,具有一定的属性标志特性,值得进一步随访研究。  相似文献   

3.
目的 应用诱发电位新技术探讨健康儿童感觉门控 (SG) P50特点.方法 应用美国Nicolet脑电生理仪,采用条件刺激(S1)-测试刺激(S2)模式对30名健康儿童进行听觉P50检测.结果 健康儿童Cz脑区S1-P50潜伏期(60.7±11.9)ms,波幅(5.7±3.3)μV;S2-P50潜伏期(65.4±22.0)ms,波幅(2.4±1.3)μV.S2-P50波幅显著低于S1-P50(P<0.01).S2/S1比值为(42.8±21.0)%;S1-S2波幅和100(1-S2/S1)波幅分别为(3.3±2.6)μV和(57.9±21.0)μV.结论 听觉P50电位具有抑制性特征,其变化可反映大脑健康儿童SG的功能状态.  相似文献   

4.
目的探讨病程对精神分裂症感觉门控抑制缺陷的影响。方法对58名健康志愿者、38例首发精神分裂症急性期患者和36例慢性精神分裂症急性期患者进行感觉门控研究。应用听觉P50抑制评估感觉门控,实验模式为条件刺激(S1)-测试刺激(S2)模式。结果首发患者、慢性患者及对照组的S1波幅分别为(3.7±2.5)μV、(4.5±2.0)μV和(5.8±3.8)μV(F=5.P〈053,.01),首发患者的S1波幅低于对照组(P〈0.01);S2波幅分别为(2.8±1.1)μV、(3.5±1.5)μV和(2.1±1.4)μV(F=11.47,P〈0.01),首发和慢性患者的S2波幅均高于对照组(P分别为0.02,小于0.01),并且慢性患者的S2波幅高于首发患者(P=0.02)。P50抑制指标在三组之间差异均有统计学意义(P均小于0.01),首发和慢性患者的S2/S1波幅比均大于对照组(P均小于0.01),而S1-S2波幅差值和100(1-S2/S1)均低于对照组(P均小于0.01),但首发患者和慢性患者之间P50抑制指标差异无统计学意义(P均大于0.05)。结论首发精神分裂症和慢性精神分裂症均存在明显的感觉门控P50抑制缺陷,病程对精神分裂症的感觉门控P50抑制缺陷无明显影响。  相似文献   

5.
目的:了解首发强迫症(OCD)患者的听觉P50变异特点,探讨感觉门控抑制与强迫症状的关系。方法:应用美国Nicolet Bravo脑诱发电位仪,采用听觉条件刺激(S1)-测试刺激(S2)模式对42例OCD患者和46名正常志愿者进行听觉P50检测;应用Yale-Brown强迫量表进行临床症状评定。结果:与正常组相比,强迫症组S2-P50波幅升高(P<0.05),S1-S2和100(1-S2/S1)均降低,差异有统计学意义(P均<0.01)。经Pearson相关分析,Yale-Brown强迫量表评分强迫思维因子分与S2-P50波幅呈正相关(P<0.05),与100(1-S2/S1)呈负相关(P<0.05)。结论:首发强迫症患者的感觉门控变异特点为抑制不足,强迫思维与感觉门控抑制程度有一定的相关性。  相似文献   

6.
目的 探讨精神分裂症患者的惊跳反射弱刺激抑制(PPI)的特点.方法 应用美国Nicolet Bravo脑电生理仪,采用听觉感觉刺激模式对30例精神分裂症患者和28名正常人做听觉PPI及P50检测.结果 病例组PPI低于正常对照组;病例组的S1-P50降低、S2-P50增高、P50抑制明显减弱、S1-S2和100 (1-S2/S1)均下降.结论 精神分裂症患者存在感觉运动门控缺陷,PPI可作为一项实验室指标用于临床.  相似文献   

7.
目的:探讨首次发病的精神分裂症患者感觉门控P50特征及其相关临床因素。方法:给予87例首发未服药的精神分裂症住院患者(患者组)单一利培酮(4~6 mg/d)治疗,疗程10周;治疗前后分别进行阳性和阴性综合征量表(PANSS)评定及P50检测;以PANSS减分率50%分割点将患者分为有效组和无效组;P50检测结果与86名健康志愿者(对照组)比较;分析患者组P50指标与临床因素的关系。结果:患者组治疗前P50听觉条件(S1)、测试刺激(S2)潜伏期显著长于对照组,S1波幅及S1-S2波幅差值显著低于对照组,S2/S1显著高于对照组(P均0.01);治疗后S1、S2波幅较治疗前显著下降(P均0.01);有效组与无效组间P50各项指标差异无统计学意义;治疗前S2波幅与PANSS阳性症状分呈正相关;S1-S2波幅差值与病程、PANSS中一般精神病理分呈负相关;S2波幅/S1波幅与病程、PANSS总分及一般精神病理分正相关(P均0.05)。结论:首发精神分裂症患者P50抑制缺陷;其与患者的病程、精神病理症状相关;利培酮治疗对P50 S1、S2波幅有影响,但可能未改善其抑制缺陷。  相似文献   

8.
伴有凶杀行为精神分裂症患者听觉感觉门控P50的随访研究   总被引:1,自引:1,他引:0  
目的 随访分析伴有凶杀行为的精神分裂症患者听觉感觉门控电位P50的变化.方法 采用条件-测试刺激模式,对25例伴有凶杀行为的精神分裂症患者(患者组)和27名正常对照者(对照组)进行P50检测和比较,经过抗精神病药物治疗3个月后,有11例患者完成了P50随访,同时应用阳性和阴性症状量表(PANSS)评定患者的精神症状.结果 ①与对照组相比,患者组在入组未用药时和随访3个月时的S2-P50波幅均较高(P<0.01),S2/S1比值均较大(P<0.01),S1-S2差值(P<0.05)和100(1-S2/S1)值均较小(P<0.01).患者组P50波幅、潜伏期和P50抑制指标在入组时和3个月时的差异均无统计学意义(P>0.05).②与入组时相比,3个月时患者组PANSS总分、阳性量表分、一般精神病理量表分以及反应缺乏、思维障碍、激活性、偏执、抑郁、攻击等6个症状群得分降低(P<0.05).③患者组在入组时和3个月时S2/S1比值、S1-S2差值和100(1-S2/S1)等P50抑制指标与病程、PANSS各指标均无相关(P>0.05).结论 伴有凶杀行为的精神分裂症患者感觉门控存在异常,且P50抑制指标可能是该人群的素质指标.  相似文献   

9.
首发精神分裂症感觉门控P50研究   总被引:5,自引:3,他引:2  
目的研究首发精神分裂症患者和健康成年人两种诱发模式P50感觉门控的特点,以及两种诱发模式P50抑制率的一致性。方法运用条件-测试刺激模式和刺激序列模式检测41例首发精神分裂症患者(患者组)和30名正常对照(对照组)的听觉诱发电位P50,计算P50抑制率。结果患者组和对照组比较:①两种模式P50潜伏期差异无统计学意义(P>0.05);②条件-测试刺激模式:测试刺激P50波幅[(1.72±1.26)μVvs(0.87±0.66)μV]和P50抑制率[(0.27±0.30)vs(0.63±0.31)]差异有统计学意义(P<0.01),条件刺激P50波幅差异无统计学意义(P>0.05);③刺激序列模式:5.1Hz、9.9Hz高频刺激P50波幅[(1.38±0.61)μVvs(0.84±0.77)μV、(1.18±0.68)μVvs(0.71±0.63)μV,P均小于0.05]和P50抑制率[(0.24±0.23)vs(0.52±0.26)、(0.35±0.26)vs(0.57±0.17),P均小于0.01]差异有统计学意义,0.9Hz低频刺激P50波幅差异无统计学意义(P>0.05);④Spearman相关分析未发现患者组两种诱发模式P50抑制率显著相关(P>0.05)。结论精神分裂症患者表现出两种P50感觉门控功能缺陷,同一患者两种不同诱发模式的P50抑制率不一致,提示其可能具有不同的中枢神经机制。  相似文献   

10.
目的研究首发精神分裂症患者的利培酮治疗前后ERN变化情况。方法应用德国Brain Products公司的ERP仪器,采集并比较66例首发精神分裂症患者和50例健康成人ERN,并随访了患者组于治疗6月、18月时ERN。结果 (1)与正常对照组相比,患者组ERN潜伏期明显延迟(Cz、Fz、C3、C4),波幅明显降低(Cz、C3、Fz、Pz)。(2)与基线时相比,利培酮治疗后6月、18月,患者组ERN潜伏期和波幅差异无显著性(P0.05)。结论 (1)精神分裂症患者内在错误监控机制存在一定缺陷。(2)利培酮治疗未能改变患者内在错误监控机制。  相似文献   

11.
Neuronal migration disorders are the result of disturbed brain development. In such disorders, neurons are abnormally located. In diagnosing these conditions, magnetic resonance imaging is superior to any other imaging technique. This enables us to improve our knowledge of the clinical correlates of neuronal migration. With reference to migrational disorder, a retrospective study of all 303 patients with epileptic seizures referred for magnetic resonance imaging during a 3-year period was performed, 13 patients (aged 12-41, mean age 27) were identified. They represent 4.3% of the entire study group. Of the patients with known epilepsy, 6.7% and of the mentally retarded, 13.7% had migrational disorders. Four patients had schizencephaly as the dominant finding, one was classified as hemimegalencephaly, 2 had isolated heterotopias, and 6 had localized pachy- and/or poly-microgyria. The clinical pictures are complex. Ectopias of grey matter are recognised foci of epilepsy, but from an epileptological and a clinical viewpoint little attention has been given to these disorders. The present study shows that malmigration is not rare in epilepsy patients, especially not in the mentally retarded.  相似文献   

12.
Diagnostic Difficulties and Treatment Implications   总被引:1,自引:0,他引:1  
Robert J. Gumnit 《Epilepsia》1987,28(S3):S9-S13
Summary: Differentiation between types of epileptic seizures has been aided in recent years by the introduction of intensive neurodiagnostic techniques and the development of increasingly detailed classification systems. Paradoxically, these developments have not simplified the task of matching the appropriate antiepileptic drug to a particular seizure type. It is reasonable to assume that anticonvulsant drugs will have different effects on different types of seizures, but faulty, circular reasoning can enter the picture if one also assumes that responses of seizures to different drugs signify different seizure types. There are several examples of differential diagnoses that can fall prey to this problem, including the diagnosis between partial seizures with secondary generalization and generalized tonic-clonic seizures, and the diagnosis between complex partial seizures and absence seizures with automatisms, among others. Considerations of etiology in future classification systems can further complicate the problem: should one then choose an anticonvulsant drug on the basis of individual seizure type or on the basis of the type of epilepsy? Ramifications of this issue extend even to the drug approval process. Official sanction is not given for use of a drug for a seizure type not included in the original efficacy studies, even if later scientific evidence shows that seizure type to be related to a type that is included. New trials must be undertaken. These problems arise from how we choose to classify seizures.  相似文献   

13.
Cognitive Dysfunction Associated with Antiepileptic Drug Therapy   总被引:7,自引:5,他引:2  
Eileen P.G. Vining 《Epilepsia》1987,28(S2):S18-S22
Summary: Epilepsy is frequently associated with cognitive dysfunction. However, the reasons for this correlation are unclear. Possible influential factors include patient age; duration, frequency, etiology, and type of seizures; hereditary factors; psychosocial issues; and antiepileptic drug (AED) therapy. Whereas many of these factors are beyond the physician's control, AED therapy is one element that can be addressed in treatment decisions by recognizing the potential cognitive effects of particular AEDs. For example, phenobarbital impairs memory and concentration; phenytoin affects attention, problem solving ability, and performance of visuomotor tasks. In contrast, carbamazepine may affect concentration, while valproate would appear to have minimal effects on cognition. Moreover, cognitive effects of AEDs are amplified with coadministration of multiple anticonvulsants (polytherapy). A review of studies on the cognitive effects of monotherapy with AEDs, as opposed to those of polytherapy, provides evidence that drug-related cognitive dysfunction can be reversed if patients are switched to a simpler therapeutic regimen. Future research should be directed toward developing reliable measures for assessing and monitoring cognition, and understanding the particular cognitive side effects of each AED. Physicians also need to revise their opinions about which side effects are "tolerable" for epileptic patients.  相似文献   

14.
B. J. Wilder 《Epilepsia》1987,28(S2):S1-S7
Summary: The long-standing practice of polypharmacy in treating epilepsy is giving way to use of monotherapy. Monotherapy can improve seizure control as well as reduce the risk of serious idiosyncratic reactions, dose-related side effects, and complex drug interactions. Monotherapy also offers improved compliance and cost-effectiveness. The basis of monotherapy is accurate diagnosis and assessment of the patient's seizure type(s), followed by selection of a single appropriate anticonvulsant drug. Many patients currently treated with multiple anticonvulsants can be successfully converted to monotherapy with a carefully monitored program in which troublesome and redundant drugs are gradually withdrawn from the therapeutic regimen.  相似文献   

15.
Summary: Carbamazepine and phenytoin are drugs of choice in initial monotherapy for adult partial and secondarily generalized tonic-clonic seizures. These designations reflect the results of the Veterans Administration Epilepsy Cooperative Study Group of 1985. An earlier comparative study of carbamazepine and phenytoin by Ramsay and associates found both drugs equally effective in controlling new-onset seizures. Among the advantages of carbamazepine is that it causes relatively few cognitive and dysmorphic side effects. Its disadvantages are its unavailability in parenteral formulation and its metabolic autoinduction. The latter must be compensated for by planned dosage increases to maintain therapeutic plasma steady-state levels during the first 2 or 3 months of treatment. Carbamazepine is judged a drug of choice in the treatment of these secondarily generalized tonic-clonic seizures, and the drug of choice in children, adolescents, and women susceptible to the dysmorphic side effects associated with other anticonvulsant agents.  相似文献   

16.
Summary: Four broad categories of basic phenomena are pertinent to developing ways to prevent epilepsy. These include mechanisms of epileptogenesis, ictal initiation and temporary entrainment by the seizure discharge of normally functioning brain, seizure propagation, and control mechanisms that function both to restrain the cascade of epileptic events culminating in a seizure and to arrest the epileptic event and restore the interictal state. In newborns and children, hypoxia-ischemia is a major factor leading to epileptogenesis, and several schemes are proposed to classify, quantify, and prevent hypoxic-ischemic encephalopathy. Control mechanisms must be better understood in order to develop prophylactic recommendations for epilepsy, and an experimental model of "kindling antagonism" may increase our understanding of these. Programs of prevention of seizures in children will evolve only if basic researchers and clinicians work productively together to develop an adequate understanding of factors important in epileptogenesis and antiepileptogenic control mechanisms.  相似文献   

17.
Hepatic Considerations in the Use of Antiepileptic Drugs   总被引:5,自引:4,他引:1  
Summary: Virtually all of the major antiepileptic drugs (AEDs) can cause hepatotoxicity, although fatal hepatic reactions are rare. The mechanisms, incidences, and risk profiles for such reactions differ from drug to drug. With carbamazepine and phenytoin, hepatotoxicity may be due to drug hypersensitivity. Although the profiles of patients at risk have not been well-defined for these two antiepileptic drugs, it would appear from reports in the literature that older adolescents and adults are at higher risk than children of developing serious or fatal hepatotoxicity. Once hepatotoxicity develops, mortality rates are 10–38% with phenytoin and 25% for carbamazepine. The risk profile for valproate fatal hepatotoxicity has been more clearly defined. Those at primary risk of fatal hepatic dysfunction are children under the age of 2 years who are receiving multiple anticonvulsants and also have significant medical problems in addition to severe epilepsy. The risk is considerably lower for patients over the age of 2 years on valproate monotherapy. In contrast to the risk profile with other AEDs, adults receiving valproate as monotherapy have the lowest risk of hepatotoxicity. Fatal hepatic dysfunction coincident with valproate may be the result of aberrant drug metabolism. Concomitant use of AEDs that induce microsomal P450 enzymes (e.g., phenytoin and phenobarbital) may enhance the production of a toxic metabolite, and hence the greater risk of hepatotoxicity with polypharmacy.  相似文献   

18.
Summary: Vascular malformations (VMs) are associated with epilepsy. The natural history of the various VMs, clinical presentation, and tendency to provoke epilepsy determine treatment strategies. Investigations have probed the mechanisms of epileptogenesis associated with these lesions. Electrophysiologic changes are associated with epileptogenic cortex adjacent to VMs. Putative pathophysiologic mechanisms of epileptogenesis include neuronal cell loss, glial proliferation and abnormal glial physiology, altered neurotransmitter levels, free radical formation, and aberrant second messenger physiology.  相似文献   

19.
Dextromethorphan: Cellular Effects Reducing Neuronal Hyperactivity   总被引:5,自引:1,他引:4  
G. Trube  R. Netzer 《Epilepsia》1994,35(S5):S62-S67
Summary: Dextromethorphan is a dextrorotary morphinan without affinity for opioid receptors, commonly used as an antitussive medication. During the past 5 years, interest in the compound and its demethylated derivative, dextrorphan, has been revived because additional neuroprotective and an-tiepileptic properties were found in in vitro studies, animal experiments, and a few clinical cases. Both morphinans are able to inhibit N -methyl-D-aspartate (NMDA) receptor channels and voltage-operated calcium and sodium channels with different potencies. The inhibition of the NMDA receptor is believed to be the predominant mechanism of action responsible for the anticonvulsant and neuroprotective properties of the compounds.  相似文献   

20.
Transcranial Electrical Stimulation (tES) encompasses all methods of non-invasive current application to the brain used in research and clinical practice. We present the first comprehensive and technical review, explaining the evolution of tES in both terminology and dosage over the past 100 years of research to present day. Current transcranial Pulsed Current Stimulation (tPCS) approaches such as Cranial Electrotherapy Stimulation (CES) descended from Electrosleep (ES) through Cranial Electro-stimulation Therapy (CET), Transcerebral Electrotherapy (TCET), and NeuroElectric Therapy (NET) while others like Transcutaneous Cranial Electrical Stimulation (TCES) descended from Electroanesthesia (EA) through Limoge, and Interferential Stimulation. Prior to a contemporary resurgence in interest, variations of transcranial Direct Current Stimulation were explored intermittently, including Polarizing current, Galvanic Vestibular Stimulation (GVS), and Transcranial Micropolarization. The development of these approaches alongside Electroconvulsive Therapy (ECT) and pharmacological developments are considered. Both the roots and unique features of contemporary approaches such as transcranial Alternating Current Stimulation (tACS) and transcranial Random Noise Stimulation (tRNS) are discussed. Trends and incremental developments in electrode montage and waveform spanning decades are presented leading to the present day. Commercial devices, seminal conferences, and regulatory decisions are noted. We conclude with six rules on how increasing medical and technological sophistication may now be leveraged for broader success and adoption of tES.  相似文献   

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