Your search keyword '"Wolters, Alexander"' showing total 8 results

1. Magnetic resonance-transcranial ultrasound fusion imaging: A novel tool for brain electrode location.

Author

Walter, Uwe, Müller, Jan‐Uwe, Rösche, Johannes, Kirsch, Michael, Grossmann, Annette, Benecke, Reiner, Wittstock, Matthias, and Wolters, Alexander

Subjects

PARKINSON'S disease treatment, BASAL ganglia, COMPARATIVE studies, DIENCEPHALON, ELECTRODES, DIGITAL image processing, ARTIFICIAL implants, MAGNETIC resonance imaging, RESEARCH methodology, MEDICAL cooperation, NEUROSURGERY, PARKINSON'S disease, RESEARCH, EVALUATION research, DEEP brain stimulation, PHYSIOLOGY, SURGERY

Abstract

Background: A combination of preoperative magnetic resonance imaging (MRI) with real-time transcranial ultrasound, known as fusion imaging, may improve postoperative control of deep brain stimulation (DBS) electrode location. Fusion imaging, however, employs a weak magnetic field for tracking the position of the ultrasound transducer and the patient's head. Here we assessed its feasibility, safety, and clinical relevance in patients with DBS.Methods: Eighteen imaging sessions were conducted in 15 patients (7 women; aged 52.4 ± 14.4 y) with DBS of subthalamic nucleus (n = 6), globus pallidus interna (n = 5), ventro-intermediate (n = 3), or anterior (n = 1) thalamic nucleus and clinically suspected lead displacement. Minimum distance between DBS generator and magnetic field transmitter was kept at 65 cm. The pre-implantation MRI dataset was loaded into the ultrasound system for the fusion imaging examination. The DBS lead position was rated using validated criteria. Generator DBS parameters and neurological state of patients were monitored.Results: Magnetic resonance-ultrasound fusion imaging and volume navigation were feasible in all cases and provided with real-time imaging capabilities of DBS lead and its location within the superimposed magnetic resonance images. Of 35 assessed lead locations, 30 were rated optimal, three suboptimal, and two displaced. In two cases, electrodes were re-implanted after confirming their inappropriate location on computed tomography (CT) scan. No influence of fusion imaging on clinical state of patients, or on DBS implantable pulse generator function, was found.Conclusions: Magnetic resonance-ultrasound real-time fusion imaging of DBS electrodes is safe with distinct precautions and improves assessment of electrode location. It may lower the need for repeated CT or MRI scans in DBS patients. [ABSTRACT FROM AUTHOR]

Published

2016

2. Deep brain stimulation in dystonia: Sonographic monitoring of electrode placement into the globus pallidus internus.

Author

Walter, Uwe, Wolters, Alexander, Wittstock, Matthias, Benecke, Reiner, Schroeder, Henry W., and Müller, Jan-Uwe

Abstract

Deep brain stimulation (DBS) of the globus pallidus internus (GPi) is an effective treatment in primary dystonia. Its success depends on the implantation accuracy of the DBS electrode into the targeted GPi. Discrepancies of up to 4 mm between the initial target, selected on preoperative MRI, and the final DBS lead location are caused mainly by caudal brain shift that occurs once the cranium is open. Nowadays, transcranial sonography (TCS) can display echogenic deep brain structures with higher image resolution compared to MRI under clinical conditions. Here, we demonstrate for the first time the use of a contemporary clinical high-end TCS system for intraoperative monitoring of DBS electrode position. Herewith, a high-resolution real-time imaging of closely located microelectrodes and of the DBS lead through the intact skull is feasible. Simultaneous color-coded sonographic imaging of arteries near the anatomical target allows further intraoperative refinement of DBS lead positioning, simultaneously preventing hemorrhages. © 2009 Movement Disorder Society [ABSTRACT FROM AUTHOR]

Published

2009

3. Pallidal deep brain stimulation improves quality of life in segmental and generalized dystonia: Results from a prospective, randomized sham-controlled trial.

Author

Mueller, Joerg, Skogseid, Inger M., Benecke, Reiner, Kupsch, Andreas, Trottenberg, Thomas, Poewe, Werner, Schneider, Gerd H., Eisner, Wilhelm, Wolters, Alexander, Müller, J.U., Deuschl, Günther, Pinsker, Marcus O., Roeste, Geir K., Vollmer-Haase, Juliane, Brentrup, Angela, Krause, Martin, Tronnier, Volker, Schnitzler, Alfons, Voges, Jüergen, and Nikkhah, Guido

Abstract

As part of the first randomized, sham-timulation controlled trial on deep brain stimulation (DBS) in primary segmental or generalized dystonia, health-related quality of life (HRQoL) was assessed by SF-36. After the 3-month sham-controlled phase, significant HRQoL improvement occurred only in the active-stimulation group. The open-label extension phase resulted in a significant improvement in all SF-36 domains following 6 months of neurostimulation. These results demonstrate a favorable impact of DBS on HRQoL in primary dystonia. © 2007 Movement Disorder Society [ABSTRACT FROM AUTHOR]

Published

2008

4. Transcranial brain sonography findings in clinical subgroups of idiopathic Parkinson's disease.

Author

Walter, Uwe, Dressler, Dirk, Wolters, Alexander, Wittstock, Matthias, and Benecke, Reiner

Abstract

To investigate whether transcranial brain sonography (TCS) discriminates different courses of idiopathic Parkinson's disease (PD), 101 patients with clinically definite PD were studied. In four patients, TCS was not possible due to insufficient acoustic temporal bone windows. Substantia nigra (SN) hyperechogenicity was found in 96% of assessable patients. Larger SN echogenic size correlated with younger age at PD onset (Spearman correlation, r = -0.383; P < 0.001), but not with age, PD duration, or severity. Marked bilateral SN hyperechogenicity indicated early-onset rather than late-onset PD, and akinetic-rigid (AR) or mixed-type (MX) PD rather than tremor-dominant PD. SN echogenic sizes were larger contralateral to the clinically more affected side in AR PD and MX PD patients. Reduced echogenicity of brainstem raphe was associated with depression (RR = 1.61; 95% CI = 1.05-2.46; P = 0.044) but not with other clinical features. Caudate nucleus hyperechogenicity was, independently from PD duration, related to drug-induced psychosis (RR = 2.40; CI = 1.36-4.22; P = 0.001), but not to motor fluctuations. Lenticular nucleus hyperechogenicity indicated AR PD rather than tremor-dominant PD (RR = 1.44; CI = 1.11-1.86; P = 0.040). Frontal horn dilatation > 15.4 mm (mean of bilateral measurements) indicated increased risk of dementia (RR = 4.11; CI = 1.51-11.2; P = 0.001). We conclude that TCS displays characteristic changes of deep brain structures in different clinical manifestations of PD. [ABSTRACT FROM AUTHOR]

Published

2007

5. Timing-dependent plasticity in human primary somatosensory cortex.

Author

Wolters, Alexander, Schmidt, Arne, Schramm, Axel, Zeller, Daniel, Naumann, Markus, Kunesch, Erwin, Benecke, Reiner, Reiners, Karlheinz, and Classen, Joseph

Subjects

*MEDIAN nerve, *NERVES, *SOMATOSENSORY evoked potentials, *MOTOR cortex, *FRONTAL lobe

Abstract

Animal experiments suggest that cortical sensory representations may be remodelled as a consequence of changing synaptic efficacy by timing-dependent associative neuronal activity. Here we describe a timing-based associative form of plasticity in human somatosensory cortex. Paired associative stimulation (PAS) was performed by combining repetitive median nerve stimulation with transcranial magnetic stimulation (TMS) over the contralateral postcentral region. PAS increased exclusively the amplitude of the P25 component of the median nerve-evoked somatosensory-evoked potential (MN-SSEP), which is probably generated in the superficial cortical layers of area 3b. SSEP components reflecting neuronal activity in deeper cortical layers (N20 component) or subcortical regions (P14 component) remained constant. PAS-induced enhancement of P25 amplitude displayed topographical specificity both for the recording (MN-SSEP versus tibial nerve-SSEP) and the stimulation (magnetic stimulation targeting somatosensory versus motor cortex) arrangements. Modulation of P25 amplitude was confined to a narrow range of interstimulus intervals (ISIs) between the MN pulse and the TMS pulse, and the sign of the modulation changed with ISIs differing by only 15 ms. The function describing the ISI dependence of PAS effects on somatosensory cortex resembled one previously observed in motor cortex, shifted by ∼7 ms. The findings suggest a simple model of modulation of excitability in human primary somatosensory cortex, possibly by mechanisms related to the spike-timing-dependent plasticity of neuronal synapses located in upper cortical layers. [ABSTRACT FROM AUTHOR]

Published

2005

6. Measurements of transcallosally mediated cortical inhibition for differentiating parkinsonian syndromes.

Author

Wolters, Alexander, Classen, Joseph, Kunesch, Erwin, Grossmann, Annette, and Benecke, Reiner

Abstract

Clinicopathologic evidence suggests differential involvement of cortex and corpus callosum (CC) in various disorders presenting with a parkinsonian syndrome. We tested the hypothesis of whether neurophysiologic and morphometric assessments of CC as surrogate parameters of cortical involvement could be helpful in differential diagnosis of parkinsonian disorders. The integrity of CC was assessed neurophysiologically by measuring the ipsilateral silent period (iSP) evoked by transcranial magnetic stimulation (TMS) in a total of 25 patients with idiopathic parkinsonian syndromes (IPS), corticobasal ganglionic degeneration (CBD), progressive supranuclear palsy (PSP), or multiple system atrophy (MSA). Additionally, morphometric analyses of magnetic resonance imaging (MRI) measurements of CC was carried out in all patients. iSP was abnormal in all 5 CBD and all 5 PSP patients, whereas it was intact in all 10 IPS patients and all 5 MSA patients. Among various MRI parameters of CC, testing between different groups revealed a significant difference only for measurements of the middle part of the truncus. CBD and PSP patients exhibited a significant atrophy as compared with control subjects. These data suggest impairment of callosal integrity in patients with CBD and PSP. iSP measurements may be a useful clinical neurophysiologic test in differential diagnosis of patients with parkinsonian syndromes. © 2004 Movement Disorder Society [ABSTRACT FROM AUTHOR]

Published

2004

7. Novel GNAL mutations in two German patients with sporadic dystonia.

Author

Ziegan, Julia, Wittstock, Matthias, Westenberger, Ana, Dobričić, Valerija, Wolters, Alexander, Benecke, Reiner, Klein, Christine, and Kamm, Christoph

Published

2014

8. No evidence for THAP1/ DYT6 variants as disease modifiers in DYT1 dystonia.

Author

Kamm, Christoph, Uflacker, Nils, Asmus, Friedrich, Schrader, Christoph, Wolters, Alexander, Wittstock, Matthias, Pahnke, Jens, Gasser, Thomas, Volkmann, Jens, Münchau, Alexander, Hagenah, Johann, Benecke, Reiner, Klein, Christine, and Lohmann, Katja

Published

2011