Physiological changes in the pallidum in a progressive model of Parkinson's disease: Are oscillations enough?

Neurophysiological changes in the basal ganglia thalamo-cortical circuit associated with the development of parkinsonian motor signs remain poorly understood. Theoretical models have ranged from those emphasizing changes in mean discharge rate to increased oscillatory activity within the beta range. The present study characterized neuronal activity within and across the internal and external segments of the globus pallidus as a function of motor severity using a staged, progressively severe 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine model of Parkinsonism in three rhesus monkeys. An increase in coherence between neuronal pairs across the external and internal globus pallidus was present in multiple frequency bands in the parkinsonian state; both the peak frequency of oscillatory coherence and the variability were reduced in the parkinsonian state. The incidence of 8-20Hz oscillatory activity in the internal globus pallidus increased with the progression of the disease when pooling the data across the three animals; however it did not correlate with motor severity when assessed individually and increased progressively in only one of three animals. No systematic relationship between mean discharge rates or the incidence or structure of bursting activity and motor severity was observed. These data suggest that exaggerated coupling across pallidal segments contribute to the development of the parkinsonian state by inducing an exaggerated level of synchrony and loss of focusing within the basal ganglia. These data further point to the lack of a defined relationship between rate changes, the mere presence of oscillatory activity in the beta range and bursting activity in the basal ganglia to the motor signs of Parkinson's disease.

Thalamic post-inhibitory bursting occurs in patients with organic dystonia more often than controls.

We now test the hypothesis that post-inhibitory bursting in the human pallidal receiving nucleus of the thalamus (ventral oral) mediates inhibitory pallido-thalamic transmission during dystonia. We have compared thalamic single neuron activity in nine patients with organic dystonia to that in a patient with psychogenic dystonia (Psyd) and in healthy waking monkeys. In organic dystonia, EMG power is commonly concentrated at the lowest frequency of the smoothed autopower spectrum (0.39Hz). Therefore, segments of spike trains with a signal-to-noise ratio ≥2 at 0.39Hz were termed dystonia frequency (DF) segments, which occurred more commonly during dystonia related to movement. Those with a SNR<2 were termed non-dystonia frequency (nDF) segments, which were associated with spontaneous dystonia. We concentrated on nDF activity since neuronal activity in our controls was measured at rest. Neuronal spike trains were categorized into those with post-inhibitory bursts (G, grouped), with single spikes (NG, non-grouped), or with both single spikes and bursts (I, intermediate). nDF spike trains in ventral oral had more G category firing in dystonia than in controls. The burst rate and the pre-burst silent period in nDF firing of organic dystonia were consistently greater than those of both the monkeys and the patient with Psyd. The distribution of the pre-burst silent period was bimodal with a longer mode of approximately GABAb (gamma amino butyric acid receptor-type b) duration. These results demonstrate distinct differences of post-inhibitory bursting in organic dystonia versus controls. The presence of inhibitory events consistent with GABAb duration suggests interventions for treatment of dystonia.

The clinical efficacy of L-DOPA and STN-DBS share a common marker: reduced GABA content in the motor thalamus.

At odd with traditional views, effective sub-thalamic nucleus (STN) deep brain stimulation (DBS), in Parkinson's disease (PD) patients, may increase the discharge rate of the substantia nigra pars reticulata and the internal globus pallidus (GPi), in combination with increased cyclic guanosine monophosphate (cGMP) levels. How these changes affect the basal ganglia (BG) output to the motor thalamus, the crucial structure conveying motor information to cortex, is critical. Here, we determined the extracellular GABA concentration in the ventral anterior nucleus (VA) during the first delivery of STN-DBS (n=10) or following levodopa (LD) (n=8). Both DBS and subdyskinetic LD reversibly reduced (-30%) VA GABA levels. A significant correlation occurred between clinical score and GABA concentration. By contrast, only STN-DBS increased GPi cGMP levels. Hence, STN-ON and MED-ON involve partially different action mechanisms but share a common target in the VA. These findings suggest that the standard BG circuitry, in PD, needs revision as relief from akinesia may take place, during DBS, even in absence of reduced GPi excitability. However, clinical amelioration requires fast change of thalamic GABA, confirming, in line with the old model, that VA is the core player in determining thalamo-cortical transmission.

Deep brain stimulation activation volumes and their association with neurophysiological mapping and therapeutic outcomes.

OBJECTIVE: Despite the clinical success of deep brain stimulation (DBS) for the treatment of Parkinson's disease (PD), little is known about the electrical spread of the stimulation. The primary goal of this study was to integrate neuroimaging, neurophysiology and neurostimulation data sets from 10 patients with PD, unilaterally implanted with subthalamic nucleus (STN) DBS electrodes, to identify the theoretical volume of tissue activated (VTA) by clinically defined therapeutic stimulation parameters. METHODS: Each patient specific model was created with a series of five steps: (1) definition of the neurosurgical stereotactic coordinate system within the context of preoperative imaging data; (2) entry of intraoperative microelectrode recording locations from neurophysiologically defined thalamic, subthalamic and substantia nigra neurons into the context of the imaging data; (3) fitting a three dimensional brain atlas to the neuroanatomy and neurophysiology of the patient; (4) positioning the DBS electrode in the documented stereotactic location, verified by postoperative imaging data; and (5) calculation of the VTA using a diffusion tensor based finite element neurostimulation model. RESULTS: The patient specific models show that therapeutic benefit was achieved with direct stimulation of a wide range of anatomical structures in the subthalamic region. Interestingly, of the five patients exhibiting a greater than 40% improvement in their Unified PD Rating Scale (UPDRS), all but one had the majority of their VTA outside the atlas defined borders of the STN. Furthermore, of the five patients with less than 40% UPDRS improvement, all but one had the majority of their VTA inside the STN. CONCLUSIONS: Our results are consistent with previous studies suggesting that therapeutic benefit is associated with electrode contacts near the dorsal border of the STN, and provide quantitative estimates of the electrical spread of the stimulation in a clinically relevant context.

The myth of the Brooks method of embolization: a brief history of the endovascular treatment of carotid-cavernous sinus fistula.

OBJECTIVE: To correct the historical notion that permeates throughout the neurointerventional surgical literature that Dr Barney Brooks was the founder of the specialty. MATERIAL AND METHODS: Both articles written by Dr B Brooks and all pertinent literature dealing with neurointerventional treatment of the carotid-cavernous sinus fistula (CCSF) were reviewed. RESULTS: The notion that Dr B Brooks was the first to use the embolization method to treat the CCSF was based on misinterpretation of his papers published in 1930 and on 'second generation' references used by subsequent authors. CONCLUSION: Dr B Brooks never described embolization of the CCSF by a 'free' piece of muscle introduced into the internal carotid artery (ICA).

The persistent effects of unilateral pallidal and subthalamic deep brain stimulation on force control in advanced Parkinson's patients.

The persistent effects of unilateral deep brain stimulation (DBS) of the globus pallidus interna (GPi) or subthalamic nucleus (STN) on specific movement parameters produced by Parkinson's disease (PD) patients are poorly understood. The aim of this study was to determine the effects of unilateral GPi and STN DBS on the force-producing capabilities of PD patients during maximal efforts and functional bimanual dexterity. Clinical and biomechanical data were collected from 14 unilaterally implanted patients (GPi=7; STN=7), at least 13 months post-DBS surgery, during On and Off stimulation in the absence of medication. Unilateral DBS of either location produced a 33% improvement in UPDRS motor scores. Significant gains in maximum force production were present in both limbs during unimanual efforts. The greatest increase in maximum force, for both limbs, was under bimanual conditions. Force in the contralateral limb increased more than 30% during bimanual efforts while ipsilateral force increased by 25%. Unilateral DBS improved grasping force control and consistency of digit placement during the performance of a bimanual dexterity task. The clinical and biomechanical data indicate that unilateral DBS of GPi or STN results in persistent improvements in the control and coordination of grasping forces during maximal efforts and functional dexterous actions. Unilateral DBS implantation of either site should be considered an option for those patients in which bilateral procedures are contraindicated.

Normalizing motor-related brain activity: subthalamic nucleus stimulation in Parkinson disease.

OBJECTIVE: To test whether therapeutic unilateral deep brain stimulation (DBS) of the subthalamic nucleus (STN) in patients with Parkinson disease (PD) leads to normalization in the pattern of brain activation during movement execution and control of movement extent. METHODS: Six patients with PD were imaged off medication by PET during performance of a visually guided tracking task with the DBS voltage programmed for therapeutic (effective) or subtherapeutic (ineffective) stimulation. Data from patients with PD during ineffective stimulation were compared with a group of 13 age-matched control subjects to identify sites with abnormal patterns of activation. Conjunction analysis was used to identify those areas in patients with PD where activity normalized when they were treated with effective stimulation. RESULTS: For movement execution, effective DBS caused an increase of activation in the supplementary motor area (SMA), superior parietal cortex, and cerebellum toward a more normal pattern. At rest, effective stimulation reduced overactivity of SMA. Therapeutic stimulation also induced reductions of movement related "overactivity" compared with healthy subjects in prefrontal, temporal lobe, and basal ganglia circuits, consistent with the notion that many areas are recruited to compensate for ineffective motor initiation. Normalization of activity related to the control of movement extent was associated with reductions of activity in primary motor cortex, SMA, and basal ganglia. CONCLUSIONS: Effective subthalamic nucleus stimulation leads to task-specific modifications with appropriate recruitment of motor areas as well as widespread, nonspecific reductions of compensatory or competing cortical activity.

Bilateral subthalamotomy in Parkinson's disease: initial and long-term response

We conducted an open label pilot study of the effect of bilateral subthalamotomy in 18 patients with advanced Parkinson's disease. In seven patients, the first subthalamotomy pre-dated the second by 12-24 months (staged surgery). Subsequently, a second group of 11 patients received bilateral subthalamotomy on the same day (simultaneous surgery). Patients were assessed according to the CAPIT (Core Assessment Program for Intracerebral Transplantation) protocol, a battery of timed motor tests and neuropsychological tests. Evaluations were performed in the off and on drug states before surgery and at 1 and 6 months and every year thereafter for a minimum of 3 years after bilateral subthalamotomy. Compared with baseline, bilateral subthalamotomy induced a significant (P < 0.001) reduction in the 'off' (49.5 percent) and on (35.5 percent) Unified Parkinson's Disease Rating Scale (UPDRS) motor scores at the last assessment. A blind rating of videotape motor exams in the off and on medication states preoperatively and at 2 years postoperatively also revealed a significant improvement...(AU)

Bilateral subthalamotomy in Parkinson's disease: initial and long-term response.

We conducted an open label pilot study of the effect of bilateral subthalamotomy in 18 patients with advanced Parkinson's disease. In seven patients, the first subthalamotomy pre-dated the second by 12-24 months ('staged surgery'). Subsequently, a second group of 11 patients received bilateral subthalamotomy on the same day ('simultaneous surgery'). Patients were assessed according to the CAPIT (Core Assessment Program for Intracerebral Transplantation) protocol, a battery of timed motor tests and neuropsychological tests. Evaluations were performed in the 'off' and 'on' drug states before surgery and at 1 and 6 months and every year thereafter for a minimum of 3 years after bilateral subthalamotomy. Compared with baseline, bilateral subthalamotomy induced a significant (P < 0.001) reduction in the 'off' (49.5%) and 'on' (35.5%) Unified Parkinson's Disease Rating Scale (UPDRS) motor scores at the last assessment. A blind rating of videotape motor exams in the 'off' and 'on' medication states preoperatively and at 2 years postoperatively also revealed a significant improvement. All of the cardinal features of Parkinson's disease as well as activities of daily living (ADL) scores significantly improved (P < 0.01). Levodopa-induced dyskinesias were reduced by 50% (P < 0.01), and the mean daily levodopa dose was reduced by 47% at the time of the last evaluation compared with baseline (P < 0.0001). Dyskinesias occurred intraoperatively or in the immediate postoperative hours in 13 patients, but were generally mild and short lasting. Three patients developed severe generalized chorea that gradually resolved within the next 3-6 months. Three patients experienced severe and persistent postoperative dysarthria. In two, this coincided with the patients exhibiting large bilateral lesions also suffering from severe dyskinesias. No patient exhibited permanent cognitive impairment. The motor benefit has persisted for a follow-up of 3-6 years. This study indicates that bilateral subthalamotomy may induce a significant and long-lasting improvement of advanced Parkinson's disease, but the clinical outcome was variable. This variability may depend in large part on the precise location and volume of the lesions. Further refinement of the surgical procedure is mandatory.

Pseudobulbar crying induced by stimulation in the region of the subthalamic nucleus.

We describe a case of pseudobulbar crying associated with deep brain stimulation (DBS) in the region of the subthalamic nucleus (STN). Patients with pseudobulbar crying show no other evidence of subjective feelings of depression such as dysphoria, anhedonia, or vegetative signs. This may be accompanied by other symptoms of pseudobulbar palsy and has been reported to occur with ischaemic or structural lesions in both cortical and subcortical regions of the brain. Although depression has been observed to result from DBS in the region of the STN, pseudobulbar crying has not been reported. A single patient who reported the symptoms of pseudobulbar crying after placement of an STN DBS was tested in the off DBS and on DBS conditions. The patient was tested using all four DBS lead contacts and the observations and results of the examiners were recorded. The Geriatric Depression Scale was used to evaluate for depression in all of the conditions. The patient exhibited pseudobulbar crying when on monopolar stimulation at all four lead contacts. The pseudobulbar crying resolved off stimulation. This case describes another type of affective change that may be associated with stimulation in the region of or within the STN. Clinicians should be aware of this potential complication, the importance of differentiating it from stimulation induced depression, and its response to a serotonin reuptake inhibitor, such as sertraline.

Mood changes with deep brain stimulation of STN and GPi: results of a pilot study.

The results of this study suggest that there are mood changes associated with deep brain stimulation of the subthalamic nucleus (STN) and the globus pallidus interna (GPi). Further, optimal placement of electrodes in both STN and GPi seems to result in overall improvement in mood and is associated with a lower incidence of adverse mood effects than stimulation outside the optimal site. Preliminary data from this study, however, suggest that slight movement dorsal or ventral to the site of optimal motor performance may be associated with more adverse changes in mood with STN stimulation than with GPi stimulation.

Effect of drugs affecting synthesis or degradation of connexin on onset or completion of ethylene glycol induced inhibition of intercellular gap junctional communication.

The role of a connexin synthesis and degradation in the onset or completion of the ethylene glycol-induced inhibition of the gap junctional intercellular communication (GJIC) in V79-4 Chinese hamster cell line was studied as a model of an interaction between the cells and a potential tumor promoter. GJIC was assessed on two levels: on the cytophysiological level - the dye coupling method, and on the immunocytochemical level - the immunolabeling of connexin43. The specific activator of connexin synthesis - Dibutyryl cAMP made the onset of the EG-induced inhibition of GJIC slower, but its effect was only temporary. On the other hand it also speeded up the re-establishment of standard values of GJIC after the removal of EG. Although the non-specific inhibitor of protein degradation via proteasomes - leupeptin increased the amount of connexin plaques on cell membranes, its effect on GJIC remained insignificant. The non-specific inhibitors of transcription - actinomycin D and translation - cycloheximide significantly inhibited the re-establishment of the standard values of GJIC after the removal of EG. The results indicate that although the storage of connexins in Golghi complex probably plays the principal role in the control of the gap junctional communication, the extensive changes in GJIC activity depend on the de novo synthesis of connexin per se.

Cognitive impairments in advanced PD without dementia.

OBJECTIVE: To determine the nature and frequency of cognitive impairments in nondemented patients with advanced PD and their relationship to other variables potentially predictive of neuropsychological performance. METHODS: The neuropsychological performance of nondemented, nondepressed patients with idiopathic PD (n = 61) was quantified with respect to clinically available normative data. The relationship of neuropsychological measures to motor symptoms, age, years of education, disease duration, age at disease onset, disease deterioration rate, and dopaminergic therapy was assessed. RESULTS: Impairment was most frequent on measures sensitive to frontal lobe function (67% on Wisconsin Card Sorting Test number of categories, 30% on letter fluency, 30% on verbal learning). Poorer performance on multiple neuropsychological measures was related to greater overall motor abnormality (total Unified Parkinson's Disease Rating Scale score), increased bradykinesia on medication, older age, longer disease duration, and reduced education. CONCLUSIONS: Even in the absence of dementia or depression, patients with advanced PD are likely to show clinically significant impairments on neuropsychological measures sensitive to changes in dorsolateral prefrontal regions participating in cognitive basal ganglia-thalamocortical circuits.

Renewal of the culture medium induces a temporary decrease in the gap junctional communication accompanied by degradation and re-establishment of gap junctions in the V79-4 Chinese hamster cell line.

To replace the culture medium with a fresh one is a routine action of the mammalian cell culture technique. It is generally assumed that this act per se does not cause any significant physiological response of a cell population that would significantly interfere with the experimental procedures in culture. However, in this series of experiments we demonstrate that the exchange of the culture medium for a fresh one may induce a significant temporary decrease in the GJIC, assessed by the dye coupling method in the V79-4 Chinese hamster cell line. This effect is accompanied by a degradation of gap junctions and their re-establishment assessed by the semi-quantitative immunocytochemistry of connexin43. The minimum value of GJIC was reached 45 min after the exchange of the medium. Afterwards, GJIC grew up again, reaching the standard value 3 or 4 h later. This effect does not just result from the exchange of medium as a mechanical action, is not caused by the change of pH and is of quantitative character. The fresh medium loses its capability to reduce GJIC after 3 h of conditioning with the same cells. We found that the value of the early inhibition of GJIC observed during the first 2 h of treatment with the inhibitor of GJIC-EG (applied together with a fresh culture medium)--was indistinguishable from the effect of the exchange of medium itself. Only after that point of time is the EG-induced inhibition of GJIC definitely distinguishable. The results demonstrate that a simple exchange of the culture medium, which is generally implemented in various experiments in culture, may cause serious physiological, biochemical and even morphological responses of cells and thus affect the final results of experiments in culture, especially regarding the early effects of drugs. Consequently, to avoid an undesirable response of the cell population reported in this paper we recommend to apply or remove drugs using a medium conditioned with the same cells for at least 3 h.

Neuropsychological and psychiatric sequelae of pallidotomy for PD: clinical trial findings.

OBJECTIVE: To evaluate the neuropsychological and psychiatric sequelae of unilateral posterior pallidotomy for treatment of PD. METHODS: Patients with idiopathic PD completed baseline and 3- and 6-month assessments after random assignment to an immediate surgery (n = 17) or medical management (n = 16) group. RESULTS: Compared with the medical management group, the immediate surgery group with single lesions centered on the posterior internal pallidum showed superior naming and response inhibition, better verbal recall at 6 months, but greater distractibility, a tendency toward lower phonemic fluency, and a transient (3 months' only) semantic fluency deficit. The group with left lesions had more neuropsychological deficits than the group with right lesions or the medical management group, although these occurred mainly at 3 (but not 6) months. At 6 months, the patients with left lesions showed better verbal memory retention than the patients with right lesions. On most measures, the pattern of individual clinical change did not differ as a function of surgery or lesion laterality, with the exception of a higher frequency of decline in phonemic fluency in the patients with left lesions at 6 months. Although psychiatric status did not change overall, a history of depression tended to increase the risk of a depressive episode following surgery. CONCLUSIONS: Well-targeted, uncomplicated, unilateral pallidotomy does not produce overall neuropsychological or psychiatric change, although there are subtle changes on specific measures sensitive to frontal lobe function.

Microembolization during carotid stenting with the distal-balloon antiemboli system.

BACKGROUND: The distal-balloon protection system is being evaluated for its efficacy in preventing embolic neurological events during carotid stenting (CAS). We sought to determine the effect of this system on the frequency of the Doppler-detected microembolic signals (MES) during CAS. METHODS: Using transcranial Doppler, we compared the frequency of MES during CAS in 2 groups; 39 patients without distal protection and 37 with the distal-balloon protection system (GuardWire, Percusurge, Sunnyville, CA). There was no significant difference in the clinical or angiographic characteristics between the 2 groups. Three phases with increased MES counts were identified during the unprotected CAS; stent deployment, predilation, and postdilation (mean+/-SD: 75+/-57, 32+/-36, and 27+/-25, respectively). RESULTS: The distal-balloon protection significantly reduced the frequency of MES during CAS (MES-counts: 164+/-108 in the control vs 68+/-83 in the protection group, p=0.002) particularly during these 3 phases. MES in the protection group were detected predominantly during sheath placement, guidewire manipulation and during the distal-balloon deflation. CONCLUSIONS: Three phases with increased MES counts were identified during the unprotected CAS, e.g. stent deployment, predilation and postdilation. The distal-balloon protection system significantly reduced the frequency of MES during CAS, particularly during these 3 phases.

Complications of gamma knife surgery for Parkinson disease.

BACKGROUND: Many medical centers throughout the world offer radiosurgery with the gamma knife (GK) for pallidotomy and thalamotomy as a safe and effective alternative to radiofrequency ablative surgery and deep brain stimulation for Parkinson disease (PD). The reported incidence of significant complications varies considerably, and the long-term complication rate remains unknown. DESIGN: We describe 8 patients seen during an 8-month period referred for complications of GK surgery for PD. RESULTS: Of the 8 patients, 1 died as a result of complications, including dysphagia and aspiration pneumonia. Other complications included hemiplegia, homonymous visual field deficit, hand weakness, dysarthria, hypophonia, aphasia, arm and face numbness, and pseudobulbar laughter. In all patients, lesions were significantly off target. CONCLUSIONS: The 8 patients with PD seen in referral at our center for complications of GK surgery highlight a spectrum of potential problems associated with this procedure. These include lesion accuracy and size and the delayed development of neurological complications secondary to radiation necrosis. Gamma knife surgery may have a higher complication rate than has been previously appreciated due to delayed onset and underreporting. We believe that the risk-benefit ratio of the GK will require further scrutiny when considering pallidotomy or thalamotomy in patients with PD. Physicians using this technique should carefully follow up patients postoperatively for delayed complications, and fully inform patients of these potential risks.

Subarachnoidal hemorrhage following carotid stenting with the distal-balloon protection.

A 61-year-old man underwent carotid stenting with the distal-balloon protection system for symptomatic carotid artery stenosis. During the procedure, progressive elevation of the systolic blood pressure occurred, reaching a peak of 220 mm Hg immediately following deflation of the distal balloon. This was associated with severe headaches and progressive deterioration in the mental status to a coma. Head CT scan showed massive subarachnoidal hemorrhage contralateral to the stented side and a secondary intracerebral hemorrhage. Despite immediate successful blood pressure control, his condition deteriorated and he died 2 days later.

Selective gap junctional communication within the V79-4 Chinese hamster cell line.

The probability of cell-to-cell coupling between directly adjacent cells (communication capability) in the V79-4 Chinese hamster cell line was evaluated under standard conditions or after 18-h treatment with EG. The cell monolayer did not form a continuous network of cells interconnected via gap junctions, but an average cell was coupled to only one half of its directly adjacent neighbours under standard conditions, or to one third of its directly neighbouring cells after 18-h exposure to EG. The rest of the directly adjacent neighbours did not establish functional gap junctions with an injected cell, although they were competent to couple to other cells with a probability similar to that of the coupling between the injected cell and its direct neighbours. Moreover, all the cells possessed the identical connexin--cx43, present on all cell membranes. The results indicated that the choice of a cell to which neighbour be coupled was rather random in the standard cell population as a whole, although the population contained some clones whose capability to couple was more or less different from that of the original cell population. Ethylene glycol reduced the gap junctional communication by increasing the frequency of cells not coupled to any of their direct neighbours from 1% for untreated cells to 23.3% for cells exposed to EG, and consequently by reducing the number of directly adjacent cells coupled to communicating injected cells. The communication capability of the cell population appeared to be unstable. It varied slightly in time and so did the response of the cells to EG. The results indicate that a cell can control its coupling to different directly adjacent neighbours independently, being able to control the gap junctional communication not only in time but in space as well. All control mechanisms of GJIC, known so far, affect a cell as a whole, while our results indicate that another regulatory mechanism may exist, controlling the gap junctional communication to different adjacent neighbouring cells independently.