双侧丘脑底核电刺激对帕金森病患者脑局部糖代谢的影响

目的 研究双侧丘脑底核(subthalamic nucleus,STN)慢性电刺激术(deep brain stimulation,DBS)对晚期帕金森病(Parkinson's disease,PD)患者静止期脑局部糖代谢的影响,并探讨其作用机制。方法 对5例进行双侧STN的DBS治疗的晚期帕金森病患者,分别在术前以及术后1个月电刺激条件下,进行静止期18F-脱氧葡萄糖(FDG)/PET检查和UPDRS运动评分,并通过SPM99统计学软件进行数据分析,比较STN的DBS治疗对脑内代谢的影响。结果 双侧STN的DBS治疗使PD患者临床症状明显改善,同时脑局部糖代谢也发生了明显变化:双侧豆状核、脑干(中脑、脑桥)、双侧顶枕部、运动前区(BA6)及扣带回的脑代谢增加,双侧前额叶底部海马的脑代谢明显减少(P<0.05)。结论 双侧STN的DBS治疗可能通过兴奋STN轴突的方式,使其投射区域的基底上行和下行通路以及相应的皮层高级中枢的代谢改善,从而使PD患者的临床症状改善。     

丘脑底核脑深部电刺激治疗帕金森病临床SPECT随访

目的探讨丘脑底核脑深部电刺激(STN DBS)治疗帕金森病(PD)患者症状的改善及单光子放射计算机断层扫描(SPECT)的影像学变化。方法4例施行单侧STN DBS患者术前和给予电刺激后进行帕金森病综合评分(UPDRS)和SPECT测定。结果STN DBS术后临床症状明显改善,UPDRS运动评分缓解60%。3例改善良好的患者SPECT检查提示纹状体区域多巴胺转运体(DAT)含量较术前提高,另1例疗效欠佳的患者DAT含量降低,所有的患者多巴胺D2受体(D2R)检测与术前无明显差异。结论STN DBS可以明显改善PD患者的临床症状,SPECT检查显示刺激侧纹状体区DAT含量的升高提示STN DBS可能改善了多巴胺的代谢,而这种改善可能是STN DBS缓解PD症状的作用机制之一。     

丘脑底核脑深部电刺激治疗帕金森病的功能显像研究

目的通过单光子放射计算机断层扫描(SPECT)功能显像研究探讨丘脑底核脑深部电刺激(STN DBS)对纹状体多巴胺系统代谢的影响。方法对2只偏侧帕金森病(PD)模型猴及4例临床PD患者在施行单侧STN DBS手术前后给予SPECT检查,测定纹状体区域多巴胺转运体(DAT)及多巴胺D2受体(D2R)含量变化。结果STN DBS电刺激后2只偏侧PD模型猴及3例疗效较好的PD患者纹状体区DAT含量明显增加,2只PD模型猴D2R含量逐渐下降,4例患者D2R检测与术前无统计学意义。结论STN DBS可以明显改善PD症状,SPECT检查显示刺激侧纹状体区DAT含量升高,提示STN DBS可能改善了刺激侧纹状体区多巴胺的代谢,这可能是STN DBS的作用机制之一。     

双侧丘脑底核电刺激治疗帕金森病临床研究

脑深部电刺激(DBS)已被广泛用于运动障碍性疾病的治疗,其中丘脑底核(STN)DBS对帕金森病(PD)所有症状均有改善,但对该疗法的长期随访观察资料还较缺乏,我们在该方面做了一些工作。资料和方法1.一般资料:2002—2003年在上海交通大学附属第一人民医院神经科等接受STNDBS的原发性PD     

脑深部电刺激双侧丘脑底核治疗PD对嗅觉功能的影响

目的 研究脑深部电刺激双侧丘脑底核治疗帕金森病(PD)对患者嗅觉功能的影响.方法 对15例合并有嗅觉障碍的散发性PD患者行双侧丘脑底核电极植入术,分别于术前1 w、术后6、12个月应用“五味嗅觉测试液”检测PD患者嗅觉觉察阈值(DT)和嗅觉识别阈值(TT),进行统计学分析.结果 术后15例PD患者运动功能症状改善良好.手术前后不服药刺激器“关”状态下患者的DT、IT比较均无明显差异(P＞0.05),术后6、12个月DT在刺激器“开、关”状态下对比均无明显改变(P＞0.05),但IT在刺激器“开”状态下较“关”状态显著改善(P＜0.05).结论 脑深部电刺激双侧丘脑底核(STN DBS)可明显改善PD患者的嗅觉认知功能,可能与改善了纹状体多巴胺代谢及增加了纹状体、中脑、扣带回、前额叶运动区皮质、顶枕叶高级躯体感觉联合区皮质葡萄糖代谢有关.     

微电极记录与影像技术联合应用对帕金森病脑深部电刺激最佳刺激治疗位置的研究

目的探讨帕金森病(PD)患者脑深部电刺激(DBS)术最佳刺激靶点的位置。方法 40例PD患者接受立体定向双侧丘脑底核(STN)脑深部电刺激术。术中通过微电极记录采集神经元电活动,埋置脑深部电刺激器,术后复查电极位置,通过影像资料和电生理数据,确定电极尖端坐标,并计算电极各触点坐标,以及电极针道中STN上下边界和中心点的坐标。结果最佳刺激触点中心坐标的平均位置与STN上边界坐标的平均位置的差异无统计学意义。结论 STN上边界区域为DBS治疗PD的最佳刺激位置。     

偏侧猴帕金森病模型的脑深部电刺激研究

目的 探讨丘脑底核脑深部电刺激(STN DBS)对纹状体多巴胺代谢的影响.方法 2只偏侧帕金森病(PD)模型猴,在电极植入术前及电刺激后1、3个月分别行单光子放射计算机断层扫描(SPECT)测定脑内多巴胺转运体(DAT)及多巴胺D2受体(D2R)的含量;利用高效液相色谱分析(HPLE-ECD)检测脑脊液中多巴胺及其代谢产物的含量和变化.结果 偏侧PD模型猴在深部脑刺激下症状明显缓解,SPECT显示在有效刺激后纹状体区DAT特异性摄取率增高,D2R特异性摄取率下降.脑脊液中多巴胺及其代谢产物的含量与术前相比无明显差异.结论 STN DBS可有效改善偏侧PD模型猴的症状.SPECT提示有效电刺激STN提高了纹状体区多巴胺代谢活性.     

脑深部电刺激猴帕金森病模型的建立

目的通过猴偏侧帕金森病（Parkinson disease,PD）模型丘脑底核（subthalamic nucleus,STN）脑深部电刺激（deep brain stimulation,DBS）系统的植入,对脑深部电刺激动物模型的制备进行了探讨.方法2只猴偏侧PD模型,按照猴脑立体定向图谱,在右侧STN植入脑深部刺激电极,并同期皮下植入脉冲发生器.术后行头颅X线平片和MRI检查,给予慢性高频电刺激,观察运动症状改善.结果2只偏侧猴PD模型成功的同期植入DBS系统,术后的症状观察和阿朴吗啡（apomorphine,APO）诱发旋转实验,证实STN慢性高频电刺激有效地缓解了猴PD样症状.结论通过立体定向技术同期将DBS系统植入动物体内,可以有效的建立DBS动物模型,为DBS在神经疾病的应用研究提供了良好的实验模型.     

刺激术和毁损术在双侧立体定向手术治疗帕金森病中的比较

目的比较脑深部刺激术和毁损术在双侧立体定向手术治疗帕金森病中的优缺点。方法69例帕金森病病人进行了双侧手术治疗,其中同期双侧丘脑底核(STN)脑深部刺激术(DBS)11例,同期一侧苍白球腹后部毁损术(PVP),另一侧STNDBS3例,分期一侧PVP或腹中间核(Vim)毁损术、另一侧STN或VimDBS9例;分期双侧PVP或Vim毁损术41例,同期双侧PVP5例。平均随访9.3个月。结果UPDRS评分显示刺激术和毁损术均能显著改善对侧肢体震颤、僵硬和运动迟缓症状,双侧刺激术还能改善步态和姿势症状,但双侧毁损术可加重语言、吞咽及流涎等症状,并发症较高。结论双侧DBS是具有双侧症状的帕金森病病人手术治疗的最佳术式,双侧毁损术并发症较高,应严格慎重采用。     

脑深部电刺激对帕金森病二次手术的临床应用价值

目的探讨帕金森病(Parkinson'sdisease,PD)毁损术后再行脑深部电刺激术(deepbrainstimulation,DBS)的可行性、靶点选择、术中电生理学特点和治疗结果。方法应用MRI和微电极记录技术进行靶点定位,对13例毁损术后的PD患者行DBS手术,其中7例曾行单侧苍白球毁损术(posteroventralpallidotomy,PVP),5例曾行单侧丘脑毁损术,1例曾行双侧丘脑及左侧苍白球毁损术。DBS的靶点包括单侧丘脑底核(subthalamicnucleus,STN)6例,单侧丘脑腹中间核(ventralintermediatnucleus,Vim)1例,双侧STN4例,一侧STN及对侧苍白球(globuspallidusinternus,Gpi)2例。结果DBS对毁损术后的PD患者症状有不同程度的改善,其中单侧毁损术后行双侧DBS效果最明显。术后3个月的UPDRS运动及ADL评分较术前明显减少(P<0.05或0.01),美多巴的用量明显减少(P<0.05),无新的手术合并症。结论曾行毁损术的PD患者如面临二次手术,可以选择DBS手术,以双侧STN的DBS效果最好,并可减少药物用量,不加重原有的术后并发症。     

Subthalamic nucleus stimulation affects a frontotemporal network: a PET study

Deep brain stimulation (DBS) of the subthalamic nucleus (STN) has become an effective strategy in the treatment of motor symptoms in advanced Parkinson's disease. However, clinical studies have shown that DBS can affect verbal fluency. Seven Parkinson's disease patients with bilateral DBS of the STN were studied with positron emission tomography (PET) to investigate the effects of STN stimulation on regional cerebral blood flow during a verbal fluency task. Activation of the right orbitofrontal cortex and verbal fluency-associated activation within a left-sided frontotemporal network were decreased during STN stimulation compared with the OFF state. Our results offer an explanation for the commonest neuropsychological side effect of STN stimulation and show that STN stimulation affects a frontotemporal network during a fluency task.     

Subthalamic nucleus stimulation reduces abnormal motor cortical overactivity in Parkinson disease

BACKGROUND: Based on the basal ganglia model, it has been hypothesized that the efficacy of high-frequency stimulation of the subthalamic nucleus (STN) against parkinsonian symptoms relies on the activation of cortical premotor regions. In previous positron emission tomography activation studies, STN high-frequency stimulation was associated with selective activation of midline premotor areas during hand movements but mainly reduced the regional cerebral blood flow in movement-related areas, peculiarly at rest. OBJECTIVE: To investigate with positron emission tomography the role of regional cerebral blood flow reduction in the clinical improvement provided by STN high-frequency stimulation. METHODS: Seven patients with advanced Parkinson disease, who were markedly improved by bilateral STN high-frequency stimulation, underwent positron emission tomography with H2(15)O while the right STN electrode was turned off. The patients were studied at rest and during right-hand movements in 3 electrode conditions: no stimulation, inefficient low-frequency stimulation, and efficient high-frequency stimulation. RESULTS: The main effect of high-frequency stimulation was to reduce regional cerebral blood flow in the left primary sensorimotor cortex, the lateral premotor cortex, the right cerebellum, and the midline premotor areas. The selective activation of the anterior cingulate cortex and the left primary sensorimotor cortex during hand movement under STN high-frequency stimulation was attributed to decreased regional cerebral blood flow at rest, rather than increased activation induced by STN high-frequency stimulation. Akinesia was correlated with the abnormal overactivity in the contralateral primary sensorimotor cortex and the ipsilateral cerebellum. CONCLUSION: High-frequency stimulation of the STN acts through the reduction of abnormal resting overactivity in the motor system, allowing selective cortical activation during movement.     

Pallidal vs subthalamic nucleus deep brain stimulation in Parkinson disease

BACKGROUND: Deep brain stimulation (DBS) of the globus pallidus interna (GPi) and subthalamic nucleus (STN) has been reported to relieve motor symptoms and levodopa-induced dyskinesia in patients with advanced Parkinson disease (PD). Although it has been suggested that stimulation of the STN may be superior to stimulation of the GPi, comparative trials are limited. OBJECTIVE: To extend our randomized, blinded pilot comparison of the safety and efficacy of STN and GPi stimulation in patients with advanced PD. DESIGN: This study represents the combined results from our previously published, randomized, blinded, parallel-group pilot study and additional patients enrolled in our single-center extension study. SETTING: Oregon Health and Science University in Portland.Patients Twenty-three patients with idiopathic PD, levodopa-induced dyskinesia, and response fluctuations were randomized to implantation of bilateral GPi or STN stimulators. Patients and evaluating clinicians were blinded to stimulation site. All patients were tested preoperatively while taking and not taking medications and after 3, 6, and 12 months of DBS. MAIN OUTCOME MEASURES: Postoperatively, response of symptoms to DBS, medication, and combined medication and DBS was evaluated. Twenty patients (10 in the GPi group and 10 in the STN group) completed 12-month follow-up. RESULTS: Off-medication Unified Parkinson's Disease Rating Scale motor scores were improved after 12 months of both GPi and STN stimulation (39% vs 48%). Bradykinesia tended to improve more with STN than GPi stimulation. No improvement in on-medication function was observed in either group. Levodopa dose was reduced by 38% in STN stimulation patients compared with 3% in GPi stimulation patients (P = .08). Dyskinesia was reduced by stimulation at both GPi and STN (89% vs 62%). Cognitive and behavioral complications were observed only in combination with STN stimulation. CONCLUSION: Stimulation of either the GPi or STN improves many features of advanced PD. It is premature to exclude GPi as an appropriate target for DBS in patients with advanced disease.     

Manic episode with psychotic symptoms in a patient with Parkinson's disease treated by subthalamic nucleus stimulation: improvement on switching the target

Manic symptoms have been reported as adverse effects of bilateral deep brain stimulation (DBS) of the subthalamic nucleus (STN) in patients with Parkinson's disease. In previous reports, manic symptoms were described as transient, not associated with psychotic features, and improved spontaneously or with medical adjustments. The medial part of the STN seems to play a key role in the occurrence of these manic symptoms. We report the case of a manic episode with psychotic symptoms in a patient with Parkinson's disease treated by STN DBS, which improved with a change in the stimulated target. This case demonstrates the efficacy of switching the stimulation target against a manic episode with psychotic features secondary to DBS.     

Modulation of metabolic brain function by bilateral subthalamic nucleus stimulation in the treatment of Parkinson’s disease

Deep brain stimulation (DBS) of the subthalamic nucleus (STN) was proposed as an effective way to improve the symptoms of Parkinson’s disease (PD). We studied metabolic modulation in the brain by bilateral STN stimulation using FDG PET. Five PD patients (age 61.6 ± 3.9 years) at advanced stage were scanned under OFF and ON conditions of stimulation. Network analysis was used to evaluate the effect of stimulation on the expression of an abnormal Parkinson’s disease-related spatial covariance pattern (PDRP). In addition, statistical parametric mapping was used to assess the effect of this intervention on regional glucose metabolism. We found that bilateral STN DBS led to a significant reduction (P < 0.02) in the PDRP network activity on an individual subject basis between OFF and ON conditions, parallel to significant improvement (P < 0.002) of clinical symptoms in these patients. The treatment also decreased glucose metabolism in the right lentiform nucleus and cerebellum, and in the bilateral ventral thalamus and precuneus, but increased metabolism in the left midbrain and pons. This was consistent with the notion that clinical benefit in a PD patient was associated with the suppression of hyperactive motor circuitry following STN stimulation. These findings suggest that DBS is more likely to function by regulating the entire neural network rather than merely exciting or inhibiting certain nuclei.     

Effects of subthalamic nucleus stimulation on actual and imagined movement in Parkinson's disease : a PET study

BACKGROUND: PET studies in moderately affected Parkinson's disease (PD) patients reveal abnormal cerebral activation during motor execution and imagery, but the effects of subthalamic nucleus (STN) stimulation are not well established. OBJECTIVES: to assess the effect of STN stimulation on cerebral activation during actual and imagined movement in patients with advanced PD. METHODS: seven severely affected PD patients treated with bilateral STN stimulation were studied with PET and H(2)(15)O. The following conditions were investigated: (1). rest; (2). motor execution of a sequential predefined joystick movement with the right hand and (3). motor imagery of the same task. Patients were studied with and without left STN stimulation while right stimulator remained off. RESULTS: Without STN stimulation, the primary motor cortex was activated only during motor execution whereas the dorsolateral prefrontal cortex (DLPFC) was activated only during motor imagery. An activation of the supplementary motor area (SMA) was seen during both motor execution and motor imagery. Left STN stimulation during motor execution increased the regional cerebral blood flow (rCBF) bilaterally in the prefrontal cortex including DLPFC, in the left thalamus and putamen. In addition, a reduction of rCBF was noted in the right primary motor cortex, inferior parietal lobe and SMA. Under left STN stimulation, during motor imagery, rCBF increased bilaterally in the DLPFC and in the left thalamus and putamen and decreased in the left SMA and primary motor cortex. CONCLUSION: STN stimulation during both motor execution and imagery tends to improve the functioning of the frontal-striatal-thalamic pathway and to reduce the recruitment of compensatory motor circuits notably in motor, premotor and parietal cortical areas.     

Subthalamic nucleus stimulation in tremor dominant parkinsonian patients with previous thalamic surgery

Before the introduction of high frequency stimulation of the subthalamic nucleus (STN), many disabled tremor dominant parkinsonian patients underwent lesioning or chronic electrical stimulation of the thalamus. We studied the effects of STN stimulation in patients with previous ventral intermediate nucleus (VIM) surgery whose motor state worsened. Fifteen parkinsonian patients were included in this study: nine with unilateral and two with bilateral VIM stimulation, three with unilateral thalamotomy, and one with both unilateral thalamotomy and contralateral VIM stimulation. The clinical evaluation consisted of a formal motor assessment using the Unified Parkinson's Disease Rating Scale (UPDRS) and neuropsychological tests encompassing a 50 point frontal scale, the Mattis Dementia Rating Scale, and the Beck Depression Inventory. The first surgical procedure was performed a mean (SD) of 8 (5) years after the onset of disease. STN implantation was carried out 10 (4) years later, and duration of follow up after beginning STN stimulation was 24 (20) months. The UPDRS motor score, tremor score, difficulties in performance of activities of daily living, and levodopa equivalent daily dose significantly decreased after STN stimulation. Neither axial symptoms nor neuropsychological status significantly worsened after the implantation of the STN electrodes. The parkinsonian motor state is greatly improved by bilateral STN stimulation even in patients with previous thalamic surgery, and STN stimulation is more effective than VIM stimulation in tremor dominant parkinsonian patients.     

Effects of chronic subthalamic stimulation on nonmotor fluctuations in Parkinson's disease.

The aim of this study was to assess the outcome of nonmotor fluctuations (NMF) after chronic Subthalamic nucleus (STN) Deep Brain Stimulation (DBS) in Parkinson's disease(PD). Chronic stimulation of the STN has proved to be an effective treatment for advanced PD with motor complications. The outcome of NMF, which are also disabling, remains unknown. Forty-patients underwent bilateral STN stimulation. Each patient was interviewed before and after 1 yr of STN DBS with a structured questionnaire about their NMF. After 1 yr of chronic stimulation, the improvement in the motor score (UPDRS III) and dyskinesia amounted respectively to 67.4 and 76.3%. The decrease in motor fluctuations (MF) was 59% and 13 patients reported that their MF had disappeared. Comparatively, a reduction of the total number of NMF was also observed (mean number preoperatively: 15.6 per patient, postoperatively: 6.6). Most of the nonmotor fluctuating symptoms occurred in the "off" state preoperatively and no longer depended on the patient's motor state after surgery. The improvement in NMF was not identical for the different categories: pain/sensory fluctuations showed the best response to STN DBS (84.2%). Dysautonomic and cognitive fluctuations were also markedly improved (>60%) while psychic fluctuations remained the most frequent postoperative NMF observed. Some incapacitating manifestations such as drenching sweats and akathisia showed a remarkably good response to STN stimulation. In conclusion STN DBS alleviates NMF. It has strikingly successful effects on sensory, dysautonomic and cognitive fluctuations. However, psychic fluctuations respond less consistently to this treatment.     

Subdural motor cortex stimulation in Parkinson's disease does not modify movement-related rCBF pattern.

There has been some evidence that electrical stimulation of the primary motor cortex (MCS) may relieve motor symptoms of Parkinson's disease (PD). This surgical technique is being studied as alternative for PD patients who are considered poor candidates for deep brain stimulation (DBS) of subthalamic nucleus (STN). In 4 PD patients with unilateral MCS, we used [(15)O] H(2)O positron emission tomography to measure changes in regional cerebral blood flow (rCBF) while testing motor performance with a joystick motor task during different stimulation frequencies, OFF-condition, 50 and 130 Hz. We found that different stimulation settings did neither improve performance on joystick task nor modify the pattern of movement-related rCBF. Similarly, no changes were observed in UPDRS motor score between Off and On stimulation while off medication. We conclude that while MCS may be a simpler and safer surgical procedure than DBS of STN, it failed to provide evidence of clear effect on motor performance and movement-related activation pattern in patients with advanced PD.