Neuronal spiking in the pedunculopontine nucleus in progressive supranuclear palsy and in idiopathic Parkinson's disease.

The pedunculopontine nucleus (PPN) is engaged in posture and gait control, and neuronal degeneration in the PPN has been associated with Parkinsonian disorders. Clinical outcomes of deep brain stimulation of the PPN in idiopathic Parkinson's disease (IPD) and progressive supranuclear palsy (PSP) differ, and we investigated whether the PPN is differentially affected in these conditions. We had the rare opportunity to record continuous electrophysiological data intraoperatively in 30 s blocks from single microelectrode contacts implanted in the PPN in six PSP patients and three IPD patients during rest, passive movement, and active movement. Neuronal spikes were sorted according to shape using a wavelet-based clustering approach to enable comparisons between individual neuronal firing rates in the two disease states. The action potential widths showed a bimodal distribution consistent with previous findings, suggesting spikes from noncholinergic (likely glutamatergic) and cholinergic neurons. A higher PPN spiking rate of narrow action potentials was observed in the PSP than in the IPD patients when pooled across all three conditions (Wilcoxon rank sum test: p = 0.0141). No correlation was found between firing rate and disease severity or duration. The firing rates were higher during passive movement than rest and active movement in both groups, but the differences between conditions were not significant. PSP and IPD are believed to represent distinct disease processes, and our findings that the neuronal firing rates differ according to disease state support the proposal that pathological processes directly involving the PPN may be more pronounced in PSP than IPD.

Nucleus Accumbens Deep Brain Stimulation for Alcohol Addiction - Safety and Clinical Long-term Results of a Pilot Trial.

We report on the long-term clinical outcome (up to 8 years) of 5 patients who received deep brain stimulation (DBS) of the nucleus accumbens to treat their long-lasting and treatment-resistant alcohol addiction. All patients reported a complete absence of craving for alcohol; 2 patients remained abstinent for many years and 3 patients showed a marked reduction of alcohol consumption. No severe or long-standing side effects occurred. Therefore, DBS could be a promising, novel treatment option for severe alcohol addiction, but larger clinical trials are needed to further investigate the efficacy of DBS in addiction.

[Secondary nerve reconstruction in the upper extremity in children--results with respect to number of motor units]. / Sekundäre Nervenrekonstruktionen an Extremitäten im Kindesalter--Ergebnisse unter Betrachtung der Anzahl motorischer Einheiten.

After nerve injury, the therapy of choice is primary suture. If this, however, is not possible or inadequate, a secondary reconstruction must be carried out within a suitable period of time. This study shows results after nerve transplantation within a timeframe of six weeks. Seventeen children with peripheral nerve injuries of the upper extremity were treated. Secondary nerve reconstruction was accomplished by sural nerve transplantation. Eight children, aged from 5 to 13 years, were examined. The median nerve was affected in three and the ulnar nerve in five cases. The examination included clinical and electrophysiological assessments. The length of grafts was correlated with the clinical result. Besides the calculation of sensitive and motor nerve conduction velocity the number of motor units from the flexor pollicis brevis muscle or abductor digiti minimi muscle were determined by motor-unit-estimation (MUE) on both sides. The observation time period was on an average 2.9 years. Results were good to excellent. A persisting Hoffmann-Tinel's sign was found only once in median nerve lesion. Loss of sensitivity following harvesting of sural nerve was not noted as a problem by any of these children. Length of grafts did not affect the results. Standard values were reached in every case in the electrophysiological examination. The number of motor units of the abductor pollicis brevis muscle and abductor digiti minimi muscle decreased to approximately 50% compared to the healthy side. Sural nerve grafting resulted in good motor and sensory function. We recommend grafting within six weeks, as Wallerian degeneration is completed and regeneration from the proximal nerve stump is optimal. Although children have a very good regeneration potential, the examined cases did not achieve a complete restoration of all motor units of the muscles.

The neuropsychology of blunt head injury in the early postacute stage: effects of focal lesions and diffuse axonal injury.

This investigation evaluated the neuropsychological symptoms in the early posttraumatic period following blunt head injury and their correlation to routine imaging data in a consecutive series of TBI patients (Magdeburg Neurotrauma Databank). Of 135 consecutive patients, 68 could be assessed neuropsychologically 8-21 days after trauma. In 61 patients, routine clinical CT data were sufficient for neuroradiological analysis focusing on the presence or absence of CT signs of diffuse axonal injury (DAI) or focal traumatic injury. In these patients, the initial GCS score was significantly correlated with the presence of DAI but not with focal pathology. The presence of DAI was correlated with behavioral and cognitive symptoms of frontal lobe dysfunction, especially in interference tasks (Go/NoGO and Stroop reaction times) and semantic fluency. The presence of local frontal or temporal traumatic lesions was associated with deficits in concept formation, fluency tasks and behavioral symptoms, but not with increased interference. Patients with frontal contusions were impaired in a task of visuomotor planning and performance (Block design). Our data indicate that both traumatic DAI and focal lesions result in frontal lobe symptoms. We conclude that, even in clinically "mild" TBI, brain imaging should be used to identify patients with substantial brain damage. These should be assessed neuropsychologically for possible posttraumatic cognitive or behavioral impairment. In consideration of its easy accessibility, the refined use of the CT is considered a promising and valid tool for patient stratification. The application of MRI and biochemical markers may further improve prognostic predictions.

Neurobehavioral outcome prediction after cardiac surgery: role of neurobiochemical markers of damage to neuronal and glial brain tissue.

BACKGROUND AND PURPOSE: The goal of the present study was to investigate the predictive value of neurobiochemical markers of brain damage (protein S-100B and neuron-specific enolase [NSE]) with respect to the short- and long-term neuropsychological outcomes after cardiac surgery with cardiopulmonary bypass (CPB). METHODS: We investigated 74 patients who underwent elective CABG or valve replacement surgery and who showed no severe neurological deficits after surgery. Patients were investigated with a standardized neurological examination and a comprehensive neuropsychological and neuropsychiatric assessment 1 to 2 days before surgery, 3 and 8 days after surgery, and 6 months later. Serial venous blood samples were taken preoperatively and 1, 6, 20, and 30 hours after skin closure. Protein S-100B and NSE were analyzed with immunoluminometric assays. RESULTS: Patients with severe postoperative neuropsychological disorders showed a significantly higher and longer release of neurobiochemical markers of brain damage. Patients who presented with a delirium according to DSM-III-R criteria 3 days after surgery had significantly higher postoperative S-100B serum concentrations. Multivariate analysis (based on postoperative NSE and S-100B concentrations and age of patients, type of operation, length of cross-clamp and perfusion time, and intraoperative and postoperative oxygenation) identified NSE and S-100B concentrations 6 to 30 hours after skin closure as the only variables that contributed significantly to a predictive model of the neuropsychological outcome. NSE, but not S-100B, release was significantly higher in patients undergoing valve replacement surgery. CONCLUSIONS: Postoperative serum concentrations and kinetics of S-100B and NSE have a high predictive value with respect to the early neuropsychological and neuropsychiatric outcome after cardiac surgery. The analysis of NSE and S-100B release might allow insight into the underlying pathophysiology of brain dysfunction, thus providing a valuable tool to monitor and evaluate measures to improve cardiac surgery with CPB.