Search

Your search keyword '"Wirths, J."' showing total 70 results
Start Over Author "Wirths, J."
70 results on '"Wirths, J."'

1. Adverse events associated with deep brain stimulation in patients with childhood-onset dystonia

Author

Abdallat, Mahmoud, Ascencao, Laura Cassini, Grünwald, Svetlana, Wloch, Andreas, Schrader, Christoph, Groiss, Stefan J., Wojtecki, Lars, Koy, A., Bockhorn, N., Kühn, A.A., Schneider, G.-H., Krause, P., Lauritsch, K., Witt, K., Paschen, S., Deuschl, G., Krauss, J.K., Saryyeva, A., Runge, J., Borggraefe, I., Mehrkens, J.H., Horn, A., Vesper, J., Schnitzler, A., Siegert, S., Freilinger, M., Eckenweiler, M., Coenen, V.A., Tadic, V., Voges, J., Pauls, K.A.M., Wirths, J., Timmermann, L., and Hellmich, M.

Published
2019
Full Text
View/download PDF

2. Biodiversity and agriculture: rapid evidence review

Author

DeClerck, F. A. J., primary, Koziell, I., additional, Sidhu, A., additional, Wirths, J., additional, Benton, T., additional, Garibaldi, L. A., additional, Kremen, C., additional, Maron, M., additional, Rumbaitis del Rio, C., additional, Clark, M., additional, Dickens, C., additional, Estrada-Carmona, N., additional, Fremier, A. K., additional, Jones, S. K., additional, Khoury, C. K., additional, Lal, R., additional, Obersteiner, M., additional, Remans, R., additional, Rusch, A., additional, Schulte, L. A., additional, Simmonds, J., additional, Stringer, L. C., additional, Weber, C., additional, and Winowiecki, L., additional

Published
2021
Full Text
View/download PDF

7. A functional micro-electrode mapping of ventral thalamus in essential tremor

Author

Pedrosa, D, Brown, P, Cagnan, H, Visser-Vandewalle, V, Wirths, J, Timmermann, L, and Brittain, J

Subjects
Male, Brain Mapping, Ventral Thalamic Nuclei, ventrolateral thalamus, Deep Brain Stimulation, Essential Tremor, Original Articles, Middle Aged, electrophysiology, nervous system diseases, Thalamus, Tremor, Humans, Female, posterior subthalamic area, Electrodes, Aged
Abstract

Using microelectrode recordings in patients with essential tremor undergoing DBS surgery, Pedrosa et al. demonstrate that the ventrolateral thalamus shows maximum tremor-related activity and the highest coherence with electromyographic activity in the contralateral arm. Efferent pockets of activity outnumber afferent, and the phase relationship between these components modulates tremor amplitude., Deep brain stimulation enables the delivery of therapeutic interventions to otherwise inaccessible areas of the brain while, at the same time, offering the unique opportunity to record from these same regions in awake patients. The posterior ventrolateral thalamus has become a reliable deep brain stimulation target for medically-refractory patients suffering from essential tremor. However, the contribution of the thalamus in essential tremor, and even whether posterior ventrolateral thalamus is the optimal target, remains a matter of ongoing debate. There are several lines of evidence supporting clusters of activity within the posterior ventrolateral thalamus that are important for tremor emergence. In this study we sought to map the functional properties of these clusters through microelectrode recordings during deep brain stimulation surgery. Data were obtained from 10 severely affected patients with essential tremor (12 hemispheres) undergoing deep brain stimulation surgery. Our results demonstrate power and coherence maxima located in the inferior posterior ventrolateral thalamus and immediate ventral region. Moreover, we identified distinct yet overlapping clusters of predominantly efferent (driving) and afferent (feedback) activity, with a preference for more efferent contributors, consistent with a net role in the driving of tremor output. Finally, we demonstrate that resolvable thalamic spiking activity directly relates to background activity and that the strength of tremor may be dictated by phase relationships between efferent and afferent pockets in the posterior ventrolateral thalamus. Taken together, these results provide important evidence for the role of the inferior posterior ventrolateral thalamus and its border region in essential tremor pathophysiology. Such results progress our mechanistic understanding and promote the adoption of next-generation therapies such as high resolution segregated deep brain stimulation electrodes.

Published
2018

8. Adverse events associated with deep brain stimulation in patients with childhood-onset dystonia

Author

Koy, A., primary, Bockhorn, N., additional, Kühn, A.A., additional, Schneider, G.-H., additional, Krause, P., additional, Lauritsch, K., additional, Witt, K., additional, Paschen, S., additional, Deuschl, G., additional, Krauss, J.K., additional, Saryyeva, A., additional, Runge, J., additional, Borggraefe, I., additional, Mehrkens, J.H., additional, Horn, A., additional, Vesper, J., additional, Schnitzler, A., additional, Siegert, S., additional, Freilinger, M., additional, Eckenweiler, M., additional, Coenen, V.A., additional, Tadic, V., additional, Voges, J., additional, Pauls, K.A.M., additional, Wirths, J., additional, Timmermann, L., additional, Hellmich, M., additional, Abdallat, Mahmoud, additional, Ascencao, Laura Cassini, additional, Grünwald, Svetlana, additional, Wloch, Andreas, additional, Schrader, Christoph, additional, Groiss, Stefan J., additional, and Wojtecki, Lars, additional

Published
2019
Full Text
View/download PDF

10. Adverse events associated with deep brain stimulation in patients with childhood-onset dystonia

Author

Koy, A., Bockhorn, N., Kuehn, A. A., Schneider, G-H, Krause, P., Lauritsch, K., Witt, K., Paschen, S., Deuschl, G., Krauss, J. K., Saryyeva, A., Runge, J., Borggraefe, I, Mehrkens, J. H., Horn, A., Vesper, J., Schnitzler, A., Siegert, S., Freilinger, M., Eckenweiler, M., Coenen, V. A., Tadic, V, Voges, J., Pauls, K. A. M., Wirths, J., Timmermann, L., Hellmich, M., Koy, A., Bockhorn, N., Kuehn, A. A., Schneider, G-H, Krause, P., Lauritsch, K., Witt, K., Paschen, S., Deuschl, G., Krauss, J. K., Saryyeva, A., Runge, J., Borggraefe, I, Mehrkens, J. H., Horn, A., Vesper, J., Schnitzler, A., Siegert, S., Freilinger, M., Eckenweiler, M., Coenen, V. A., Tadic, V, Voges, J., Pauls, K. A. M., Wirths, J., Timmermann, L., and Hellmich, M.

Abstract

Background: Data on pediatric DBS is still limited because of small numbers in single center series and lack of systematic multi-center trials. Objectives: We evaluate short- and long-term adverse events (AEs) of patients undergoing deep brain stimulation (DBS) during childhood and adolescence. Methods: Data collected by the German registry on pediatric DBS (GEPESTIM) were analyzed according to reversible and irreversible AEs and time of occurrence with relation to DBS-surgery: Intraoperative, perioperative (<4 weeks), postoperative (4 weeks <6 months) and long term AEs (>6 months). Results: 72 patients with childhood-onset dystonia from 10 DBS-centers, who received 173 DBS electrodes and 141 implantable pulse generators (IPG), were included in the registry. Mean time of postoperative follow-up was 4.6 +/- 4 years. In total, 184 AEs were documented in 53 patients (73.6%). 52 DBS-related AEs in 26 patients (36.1%) required 45 subsequent surgical interventions 4.7 +/- 4.1 years (range 3 months-15 years) after initial implantation. The total risk of an AE requiring surgical intervention was 7.9% per electrode-year. Hardware-related AEs were the most common reason for surgery. There was a tendency of a higher rate of AEs in patients aged 7-9 years beyond 6 months after implantation. Discussion: The intraoperative risk of AEs in pediatric patients with dystonia undergoing DBS is very low, whereas the rate of postoperative hardware-related AEs is a prominent feature with a higher occurrence compared to adults, especially on long-term follow-up. Conclusion: Factors leading to such AEs must be identified and patient management has to be focused on risk minimization strategies in order to improve DBS therapy and maximize outcome in pediatric patients. (C) 2019 Elsevier Inc. All rights reserved.

Published
2019

11. Directional DBS leads show large deviations from their intended implantation orientation

Author

Dembek, T. A., Hoevels, M., Hellerbach, A., Horn, A., Petry-Schmelzer, J. N., Borggrefe, J., Wirths, J., Dafsari, H. S., Barbe, M. T., Visser-Vandewalle, V., Treuer, H., Dembek, T. A., Hoevels, M., Hellerbach, A., Horn, A., Petry-Schmelzer, J. N., Borggrefe, J., Wirths, J., Dafsari, H. S., Barbe, M. T., Visser-Vandewalle, V., and Treuer, H.

Abstract

Objective: Lead orientation is a new degree of freedom with directional deep brain stimulation (DBS) leads. We investigated how prevalent deviations from the intended implantation direction are in a large patient cohort. Methods: The Directional Orientation Detection (DiODe) algorithm to determine lead orientation from postoperative CT scans was implemented into the open-source Lead-DBS toolbox. Lead orientation was analyzed in 100 consecutive patients (198 leads). Different anatomical targets and intraoperative setups were compared. Results: Deviations of up to 90 degrees from the intended implantation direction were observed. Deviations of more than 30 degrees were seen in 42% of the leads and deviations of more than 60 degrees in about 11% of the leads. Deviations were independent from the neuroanatomical target and the stereotactic frame but increased depending on which microdrive was used. Discussion: Our results indicate that large deviations from the intended implantation direction are a common phenomenon in directional leads. Postoperative determination of lead orientation is thus mandatory for investigating directional DBS.

Published
2019

12. Chronic directional subthalamic nucleus stimulation in Parkinson’s disease – a pilot study

Author

Klehr, M, Dembek, T, Gierich, A, Wirths, J, Timmermann, L, and Visser-Vandewalle, V

Subjects
directional leads, ddc: 610, DBS, Parkinson, 610 Medical sciences, Medicine, nervous system diseases
Abstract

Objective: Unwanted side effects, induced by current spread into adjacent structures, limit the efficacy of deep brain stimulation (DBS). In Parkinson’s disease (PD), the corticospinal tract and the medial lemniscus are correlated with motor and sensory side effects from subthalamic nucleus (STN)[for full text, please go to the a.m. URL], 67. Jahrestagung der Deutschen Gesellschaft für Neurochirurgie (DGNC), 1. Joint Meeting mit der Koreanischen Gesellschaft für Neurochirurgie (KNS)

Published
2016
Full Text
View/download PDF

13. Die Wirkung von Zytokinen auf das Regenerationsergebnis komprimierter Nervenwurzeln und durchtrennter peripherer Nerven

Author

Wirths J, Peter Wehling, and Evans Ch

Subjects
medicine.medical_specialty, Fiber diameter, Fibrin adhesive, Nerve root, business.industry, medicine.medical_treatment, Regeneration (biology), Anatomy, Surgery, Lesion, Animal model, Peripheral nerve injury, medicine, Orthopedics and Sports Medicine, medicine.symptom, business, Saline
Abstract

The possible beneficial effect of Interleukin-1 (IL-1) on nerve regeneration was studied using clinical, neurophysiological and histomorphological methods. The sciatic nerves of Wistar rats were transsected and the severed ends abutted, sewn together and covered with fibrin adhesive. In a second group the lumbar-sacral nerve roots were exposed, IL-1 was injected and compression of the nerve roots was carried out. The region surrounding the lesion was infused with either saline (controls) or IL-1 (treatment group) in both groups. Compared to the controls, the treated animals showed a significant improvement of nerve regeneration as measured by clinical and neurophysiological parameters. After 3 months of observation, the total number of myelinated axons distal to the site of lesion was increased, while the fiber diameter distribution was unchanged. It is likely that cloned IL-1 will soon become available for human treatment. The present results indicate that it may be worthwhile to investigate its usefulness in the treatment of peripheral nerve injury in primates and humans.

Published
2008
Full Text
View/download PDF

14. The effect of uni- and bilateral thalamic Deep Brain Stimulation on speech in patients with Essential Tremor: production and perception

Author

Becker, Johannes, Barbe, Michael T., Röttger, Timo B., Hartinger, M., Pochmann, J., Dembek, Till Anselm, Wirths, J., Allert, N., Mücke, Doris, Meister, Ingo G., Visser-Vandewalle, Veerle, Grice, Martine, Timmermann, Lars, Becker, Johannes, Barbe, Michael T., Röttger, Timo B., Hartinger, M., Pochmann, J., Dembek, Till Anselm, Wirths, J., Allert, N., Mücke, Doris, Meister, Ingo G., Visser-Vandewalle, Veerle, Grice, Martine, and Timmermann, Lars

Abstract

Titel im Abstract: The effect of uni- and bilateral thalamic deep brain stimulation on speech in patients with essential tremor: Acoustics and intelligibility

Published
2016

16. Voxel-based dose calculation in radiocolloid therapy of cystic craniopharyngiomas

Author

Treuer, H., Hoevels, M., Luyken, K., Gierich, A., Hellerbach, A., Lachtermann, B., Visser-Vandewalle, V., Ruge, M., Wirths, J., Treuer, H., Hoevels, M., Luyken, K., Gierich, A., Hellerbach, A., Lachtermann, B., Visser-Vandewalle, V., Ruge, M., and Wirths, J.

Abstract

Very high doses are administered in radiocolloid therapy of cystic craniopharyngiomas. However individual dose planning is not common yet mainly due to insufficient image resolution. Our aim was to investigate whether currently available high-resolution image data can be used for voxel-based dose calculation for short-ranged beta-emitters (P-32,Y-90,Re-186) and to assess the achievable accuracy. We developed a convolution algorithm based on voxelized dose activity distributions and dose-spread kernels. Results for targets with 5-40 mm diameter were compared with high-resolution Monte Carlo calculations in spherical phantoms. Voxel size was 0.35 mm. Homogeneous volume and surface activity distributions were used. Dose-volume histograms of targets and shell structures were compared and gamma index (dose tolerance 5%, distance to agreement 0.35 mm) was calculated for dose profiles along the principal axes. For volumetric activity distributions 89.3% +/- 11.9% of all points passed the gamma test (mean gamma 0.53 +/- 0.16). For surface distributions 33.6% +/- 14.8% of all points passed the gamma test (mean gamma 2.01 +/- 0.60). The shift of curves in dose-volume histograms was -1.7 Gy +/- 7.6 Gy (-4.4 Gy +/- 24.1 Gy for Re-186) in volumetric distributions and 46.3% +/- 32.8% in surface distributions. The results show that individual dose planning for radiocolloid therapy of cystic craniopharyngiomas based on high-resolution voxelized image data is feasible and yields highly accurate results for volumetric activity distributions and reasonable dose estimates for surface distributions.

Published
2015

22. [Alleles in chromosome 10p21-26 in malignant gliomas]

Author

Oberstrass J, Gu, Ring, Kai Vogeley, Cm, Kramm, Jm, Cobbers, Wirths J, Bilzer T, and Wechsler W

Subjects
Epidermal Growth Factor, Brain Neoplasms, Chromosomes, Human, Pair 10, Chromosome Mapping, Gene Expression, DNA, Neoplasm, Glioma, DNA, Satellite, Transforming Growth Factor alpha, Immunohistochemistry, Polymerase Chain Reaction, ErbB Receptors, Paraffin, Humans, Chromosome Deletion, Glioblastoma
Abstract

Loss of genetic material on chromosome 10 is regarded as a prominent feature in the genesis of glioblastomas. To use chromosome 10 deletions as diagnostic markers for glioblastomas we investigated, if the loss of chromosome 10 material could be restricted on the region 10q21-26. By PCR microsatellite analysis on frozen tissue and paraffin material from the ZULCH brain tumor collection we found (1) loss of heterozygosity in 10q21-26 in 75% of the investigated DNA from frozen tissue and (2) an interstitial loss in the region of the microsatellite marker D10S186. The combined immunohistochemical analysis of overexpression of EGFR, EGF and TGF alpha with LOH on chromosome 10 showed that chromosome 10 deletions are not exclusively bound to EGFR overexpression.

23. Biodiversity and agriculture: rapid evidence review

Author

DeClerck, F.A.J., Koziell, I., Sidhu, A., Wirths, J., Benton, T., Garibaldi, L.A., Kremen, C., Maron, M., Rumbaitis del Rio, C., Clark, M., Dickens, Chris, Estrada-Carmona, N., Fremier, A.K., Jones, S.K., Khoury, C.K., Lal, R., Obersteiner, M., Remans, R., Rusch, A., Schulte, L.A., Simmonds, J., Stringer, L.C., Weber, C., Winowiecki, L., DeClerck, F.A.J., Koziell, I., Sidhu, A., Wirths, J., Benton, T., Garibaldi, L.A., Kremen, C., Maron, M., Rumbaitis del Rio, C., Clark, M., Dickens, Chris, Estrada-Carmona, N., Fremier, A.K., Jones, S.K., Khoury, C.K., Lal, R., Obersteiner, M., Remans, R., Rusch, A., Schulte, L.A., Simmonds, J., Stringer, L.C., Weber, C., and Winowiecki, L.

24. Biodiversity and agriculture: rapid evidence review

Author

DeClerck, Fabrice A.J., Koziell, I., Sidhu, A., Wirths, J., Benton, Tim G., Garibaldi, L.A., Kremen, C., Maron, M., Rumbaitis Del Rio, Cristina, Clark, M., Dickens, Chris, Estrada-Carmona, Natalia, Fremier, A.K., Jones, S.K., Khoury, Colin K., Lal, R., Obersteiner, M., Remans, R., Rusch, A., Schulte, Lisa A., Simmonds, J., Stringer, L.C., Weber, C., Winowiecki, Leigh A., DeClerck, Fabrice A.J., Koziell, I., Sidhu, A., Wirths, J., Benton, Tim G., Garibaldi, L.A., Kremen, C., Maron, M., Rumbaitis Del Rio, Cristina, Clark, M., Dickens, Chris, Estrada-Carmona, Natalia, Fremier, A.K., Jones, S.K., Khoury, Colin K., Lal, R., Obersteiner, M., Remans, R., Rusch, A., Schulte, Lisa A., Simmonds, J., Stringer, L.C., Weber, C., and Winowiecki, Leigh A.

25. Automatic Detection of Directional Lead Orientation in Deep Brain Stimulation using Photon-Counting Detector Computed Tomography: A Phantom Study.

Author

Hunsche S, Hellerbach A, Eichner M, Panknin C, Faby S, Wirths J, Visser-Vandewalle V, Treuer H, and Fedders D

Abstract

Introduction: Photon-counting detector computed tomography (PCD-CT) represents the next generation of CT technology, offering enhanced capabilities for detecting the orientation of directional leads in deep brain stimulation (DBS). This study aims to refine PCD-CT-based lead orientation determination using an automated method applicable to devices from various manufacturers, addressing current methodological limitations and improving neurosurgical precision., Methods: An automated method was developed to ascertain the orientation of directional DBS leads using PCD-CT data and grayscale model fitting for devices from Boston Scientific, Medtronic, and Abbott. A phantom study was conducted to evaluate the precision and accuracy of this method, comparing it with the stripe artifact method across different lead alignments relative to the CT gantry axis., Results: Except for the Medtronic Sensight™ lead, where detection was occasionally unfeasible if aligned normal to the z-axis of the CT gantry, a clinically very unlikely alignment, the lead orientation could be automatically determined regardless of its position. The accuracy and precision of this automated method was comparable to those of the stripe artifact method., Conclusion: PCD-CT enables the automatic determination of lead orientation from leading manufacturers with an accuracy comparable to the stripe artifact method, and it offers the added benefit of being independent of the clinically occurring orientation of the head and, consequently, the lead relative to the CT gantry axis., (© 2024 S. Karger AG, Basel.)

Published
2024
Full Text
View/download PDF

26. Video-Guided Optimization of Stimulation Settings in Patients with Parkinson's Disease and Deep Brain Stimulation.

Author

Jergas H, Steffen JK, Schedlich-Teufer C, Strelow JN, Kramme J, Fink GR, Visser-Vandewalle V, Barbe MT, and Wirths J

Abstract

Deep brain stimulation (DBS) for Parkinson's disease (PD) often necessitates frequent clinic visits for stimulation program optimization, with limited experience in remote patient management. Due to the resource-intensive nature of these procedures, we investigated a way to simplify stimulation optimization for these patients that allows for the continuous monitoring of symptoms while also reducing patient burden and travel distances. To this end, we prospectively recruited ten patients treated with DBS for PD to evaluate the feasibility of telemedicinal optimization in a home-based setting. Patients recorded daily videos of a modified Unified Parkinson's Disease Rating Scale (UPDRS) III, which experienced DBS physicians located at the clinic assessed to provide instructions on adjusting stimulation settings using a handheld programmer with previously set programs as well as patient amplitude control. This study concluded with significant improvements in participants' motor status as measured by the UPDRS-III ( p = 0.0313) compared to baseline values. These findings suggest that remote video-guided optimization of DBS settings is feasible and may enhance motor outcomes for patients.

Published
2024
Full Text
View/download PDF

27. Diffusion tensor imaging in pediatric patients with dystonia.

Author

Loução R, Burkhardt J, Wirths J, Kabbasch C, Dembek TA, Heiden P, Cirak S, Al-Fatly B, Treuer H, Visser-Vandewalle V, Hoevels M, and Koy A

Subjects
Humans, Male, Female, Child, Diffusion Tensor Imaging methods, Retrospective Studies, Brain, Diffusion Magnetic Resonance Imaging, Anisotropy, Dystonia diagnostic imaging, Dystonic Disorders diagnostic imaging
Abstract

Background: Childhood-onset dystonia is often progressive and severely impairs a child´s life. The pathophysiology is very heterogeneous and treatment responses vary in patients with dystonia. Factors influencing treatment effects remain to be elucidated. We hypothesize that differences in brain connectivity and fiber coherence contribute to the heterogeneity in treatment response among pediatric patients with inherited and acquired dystonia., Methods: Twenty patients with childhood-onset dystonia were retrospectively recruited including twelve patients with inherited or idiopathic, and eight patients with acquired dystonia (mean age 10 years; 8 female/12 male). Fiber density between the internal part of the globus pallidus and selective target regions, as well as the diffusion measures of fractional anisotropy (FA) and mean diffusivity (MD) were analyzed and compared between different etiologies., Results: Patients with acquired dystonia presented higher fiber density to the premotor cortex and putamen and lower FA values in the thalamus compared to patients with inherited/idiopathic dystonia. MD in the premotor cortex was higher in patients with acquired dystonia, while it was lower in the thalamus., Conclusion: Diffusion MRI reveals microstructural and network alterations in patients with dystonia of different etiologies., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Anne Koy reports financial support was provided by Dr. Hans Günther and Dr. Rita Herfort Foundation. Anne Koy reports financial support was provided by Boston Scientific Neuromodulation. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
Full Text
View/download PDF

28. General Algorithm Applicability in Determining DBS Lead Orientation: Adapting 2D and 3D X-Ray Techniques for SenSightTM Leads.

Author

Hunsche S, Fedders D, Hellerbach A, Eichner M, Wirths J, Dembek TA, Visser-Vandewalle V, and Treuer H

Subjects
Humans, X-Rays, Retrospective Studies, Reproducibility of Results, Algorithms, Electrodes, Implanted, Deep Brain Stimulation methods
Abstract

Introduction: With recent advancements in deep brain stimulation (DBS), directional leads featuring segmented contacts have been introduced, allowing for targeted stimulation of specific brain regions. Given that manufacturers employ diverse markers for lead orientation, our investigation focuses on the adaptability of the 2017 techniques proposed by the Cologne research group for lead orientation determination., Methods: We tailored the two separate 2D and 3D X-ray-based techniques published in 2017 and originally developed for C-shaped markers, to the dual-marker of the Medtronic SenSight™ lead. In a retrospective patient study, we evaluated their feasibility and consistency by comparing the degree of agreement between the two methods., Results: The Bland-Altman plot showed favorable concordance without any noticeable systematic errors. The mean difference was 0.79°, with limits of agreement spanning from 21.4° to -19.8°. The algorithms demonstrated high reliability, evidenced by an intraclass correlation coefficient of 0.99 (p &lt; 0.001)., Conclusion: The 2D and 3D algorithms, initially formulated for discerning the circular orientation of a C-shaped marker, were adapted to the marker of the Medtronic SenSight™ lead. Statistical analyses revealed a significant level of agreement between the two methods. Our findings highlight the adaptability of these algorithms to different markers, achievable through both low-dose intraoperative 2D X-ray imaging and standard CT imaging., (© 2024 The Author(s). Published by S. Karger AG, Basel.)

Published
2024
Full Text
View/download PDF

29. Incidence and Management of Hardware-Related Wound Infections in Spinal Cord, Peripheral Nerve Field, and Deep Brain Stimulation Surgery: A Single-Center Study.

Author

van Kroonenburgh I, Tan SKH, Heiden P, Wirths J, Matis G, Seifert H, Visser-Vandewalle V, and Andrade P

Subjects
Humans, Incidence, Retrospective Studies, Staphylococcus aureus, Surgical Wound Infection epidemiology, Surgical Wound Infection etiology, Surgical Wound Infection surgery, Anti-Bacterial Agents, Spinal Cord, Electrodes, Implanted adverse effects, Deep Brain Stimulation adverse effects, Deep Brain Stimulation methods, Surgical Wound drug therapy, Spinal Cord Stimulation adverse effects
Abstract

Introduction: Neuromodulation using deep brain stimulation (DBS), spinal cord stimulation (SCS), and peripheral nerve field stimulation (PNFS) to treat neurological, psychiatric, and pain disorders is a rapidly growing field. Infections related to the implanted hardware are among the most common complications and result in health-related and economic burden. Unfortunately, conservative medical therapy is less likely to be successful. In this retrospective study, we aimed to identify characteristics of the infections and investigated surgical and antimicrobial treatments., Methods: A retrospective analysis was performed of patients with an infection related to DBS, SCS, and/or PNFS hardware over an 8-year period at our institution. Data were analyzed for type of neurostimulator, time of onset of infection following the neurosurgical procedure, location, and surgical treatment strategy. Surgical treatment of infections consisted of either a surgical wound revision without hardware removal or a surgical wound revision with partial or complete hardware removal. Data were further analyzed for the microorganisms involved, antimicrobial treatment and its duration, and clinical outcome., Results: Over an 8-year period, a total of 1,250 DBS, 1,835 SCS, and 731 PNFS surgeries were performed including de novo system implantations, implanted pulse generator (IPG) replacements, and revisions. We identified 82 patients with infections related to the neurostimulator hardware, representing an incidence of 3.09% of the procedures. Seventy-one percent of the patients had undergone multiple surgeries related to the neurostimulator prior to the infection. The infections occurred after a mean of 12.2 months after the initial surgery. The site of infection was most commonly around the IPG, especially in DBS and SCS. The majority (62.2%) was treated by surgical wound revision with simultaneous partial or complete removal of hardware. Microbiological specimens predominantly yielded Staphylococcus epidermidis (39.0%) and Staphylococcus aureus (35.4%). After surgery, antimicrobials were given for a mean of 3.4 weeks. The antimicrobial regime was significantly shorter in patients with hardware removal in comparison to those who only had undergone surgical wound revision. One intracranial abscess occurred. No cases of infection-related death, sepsis, bacteremia, or intraspinal abscesses were found., Conclusion: Our data did show the predominance of S. epidermidis and S. aureus as etiologic organisms in hardware-related infections. Infections associated with S. aureus most likely required (partial) hardware removal. Aggressive surgical treatment including hardware removal shortens the duration of antimicrobial treatment. Clear strategies should be developed to treat hardware-related infections to optimize patient management and reduce health- and economic-related burden., (© 2023 The Author(s). Published by S. Karger AG, Basel.)

Published
2024
Full Text
View/download PDF

30. Pallidal deep brain stimulation in a patient with nonketotic hyperglycemic hemichorea.

Author

Jergas H, Baldermann JC, Wirths J, Barbe MT, Visser-Vandewalle V, and Andrade P

Abstract

Background: Hyperkinetic movement disorders secondary to brain tissue damage due to hyperglycemia are a rare complication of diabetes mellitus. Nonketotic hyperglycemic hemichorea (NH-HC) is characterized by a rapid onset of involuntary movements after increased serum glucose levels., Case Description: We report on a case of a 62-year-old male patient with a 28-year history of Type II diabetes mellitus with NH-HC following an infect-associated exacerbation of blood glucose levels. Choreiform movements of the right upper extremity, face, and trunk persisted 6 months after onset. Due to failure of conservative treatments, we opted for unilateral deep brain stimulation of the globus pallidus internus, which led to complete cessation of symptoms within a week after initial programming. Symptom control was still satisfactory 12 months after surgery. No side-effects or surgery-associated complications were observed., Conclusion: Globus pallidus internus DBS is an effective and safe treatment option for hyperkinetic movement disorders secondary to brain tissue damage caused by hyperglycemia. Postoperatively, stimulation effects can be observed quickly and effects persist even after 12 months., Competing Interests: Jochen Wirths received speaker’s honoraria from Boston Scientific. Michael T. Barbe received speaker’s honoraria from Medtronic, Boston Scientific, Abbott (formerly St. Jude), GE Medical, UCB, Apothekerverband Köln e.V. and Bial as well as research funding from the Felgenhauer-Stiftung, Forschungspool Klinische Studien (University of Cologne), Horizon 2020 (Gondola), Medtronic (ODIS), and Boston Scientific and advisory honoraria for the IQWIG. Veerle Visser-Vandewalle reports consultancies for Medtronic, Boston Scientific and St. Jude Medical. She received a grant from SAPIENS Steering Brain Stimulation. Pablo Andrade received speaker’s honoraria from Medtronic and Boston Scientific., (Copyright: © 2023 Surgical Neurology International.)

Published
2023
Full Text
View/download PDF

31. Neuroimaging-based analysis of DBS outcomes in pediatric dystonia: Insights from the GEPESTIM registry.

Author

Al-Fatly B, Giesler SJ, Oxenford S, Li N, Dembek TA, Achtzehn J, Krause P, Visser-Vandewalle V, Krauss JK, Runge J, Tadic V, Bäumer T, Schnitzler A, Vesper J, Wirths J, Timmermann L, Kühn AA, and Koy A

Subjects
Adult, Humans, Child, Reproducibility of Results, Neuroimaging methods, Globus Pallidus diagnostic imaging, Registries, Treatment Outcome, Dystonia diagnostic imaging, Dystonia therapy, Deep Brain Stimulation methods, Dystonic Disorders
Abstract

Introduction: Deep brain stimulation (DBS) is an established treatment in patients of various ages with pharmaco-resistant neurological disorders. Surgical targeting and postoperative programming of DBS depend on the spatial location of the stimulating electrodes in relation to the surrounding anatomical structures, and on electrode connectivity to a specific distribution pattern within brain networks. Such information is usually collected using group-level analysis, which relies on the availability of normative imaging resources (atlases and connectomes). Analysis of DBS data in children with debilitating neurological disorders such as dystonia would benefit from such resources, especially given the developmental differences in neuroimaging data between adults and children. We assembled pediatric normative neuroimaging resources from open-access datasets in order to comply with age-related anatomical and functional differences in pediatric DBS populations. We illustrated their utility in a cohort of children with dystonia treated with pallidal DBS. We aimed to derive a local pallidal sweetspot and explore a connectivity fingerprint associated with pallidal stimulation to exemplify the utility of the assembled imaging resources., Methods: An average pediatric brain template (the MNI brain template 4.5-18.5 years) was implemented and used to localize the DBS electrodes in 20 patients from the GEPESTIM registry cohort. A pediatric subcortical atlas, analogous to the DISTAL atlas known in DBS research, was also employed to highlight the anatomical structures of interest. A local pallidal sweetspot was modeled, and its degree of overlap with stimulation volumes was calculated as a correlate of individual clinical outcomes. Additionally, a pediatric functional connectome of 100 neurotypical subjects from the Consortium for Reliability and Reproducibility was built to allow network-based analyses and decipher a connectivity fingerprint responsible for the clinical improvements in our cohort., Results: We successfully implemented a pediatric neuroimaging dataset that will be made available for public use as a tool for DBS analyses. Overlap of stimulation volumes with the identified DBS-sweetspot model correlated significantly with improvement on a local spatial level (R = 0.46, permuted p = 0.019). The functional connectivity fingerprint of DBS outcomes was determined to be a network correlate of therapeutic pallidal stimulation in children with dystonia (R = 0.30, permuted p = 0.003)., Conclusions: Local sweetspot and distributed network models provide neuroanatomical substrates for DBS-associated clinical outcomes in dystonia using pediatric neuroimaging surrogate data. Implementation of this pediatric neuroimaging dataset might help to improve the practice and pave the road towards a personalized DBS-neuroimaging analyses in pediatric patients., Competing Interests: Declaration of Competing Interest AAK received honoraria from Medtronic and Boston Scientific, not related to this work. AK is a principal investigator in the STIM-CP trial, partly sponsored by Boston Scientific. JKK is a consultant to Medtronic, Boston Scientific, aleva and Inomed. LT serves as the vice president of the German Neurological Society. TAD has received speaker honoraria from Medtronic & Boston Scientific. The remaining authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

32. Quality of Life After Deep Brain Stimulation of Pediatric Patients with Dyskinetic Cerebral Palsy: A Prospective, Single-Arm, Multicenter Study with a Subsequent Randomized Double-Blind Crossover (STIM-CP).

Author

Koy A, Kühn AA, Huebl J, Schneider GH, van Riesen AK, Eckenweiler M, Rensing-Zimmermann C, Coenen VA, Krauss JK, Saryyeva A, Hartmann H, Haeussler M, Volkmann J, Matthies C, Horn A, Schnitzler A, Vesper J, Gharabaghi A, Weiss D, Bevot A, Marks W, Pomykal A, Monbaliu E, Borck G, Mueller J, Prinz-Langenohl R, Dembek T, Visser-Vandewalle V, Wirths J, Schiller P, Hellmich M, and Timmermann L

Subjects
Adolescent, Canada, Child, Globus Pallidus, Humans, Prospective Studies, Quality of Life, Treatment Outcome, Cerebral Palsy therapy, Deep Brain Stimulation methods, Dystonia, Dystonic Disorders
Abstract

Background: Patients with dyskinetic cerebral palsy are often severely impaired with limited treatment options. The effects of deep brain stimulation (DBS) are less pronounced than those in inherited dystonia but can be associated with favorable quality of life outcomes even in patients without changes in dystonia severity., Objective: The aim is to assess DBS effects in pediatric patients with pharmacorefractory dyskinetic cerebral palsy with focus on quality of life., Methods: The method used is a prospective, single-arm, multicenter study. The primary endpoint is improvement in quality of life (CPCHILD [Caregiver Priorities & Child Health Index of Life with Disabilities]) from baseline to 12 months under therapeutic stimulation. The main key secondary outcomes are changes in Burke-Fahn-Marsden Dystonia Rating Scale, Dyskinesia Impairment Scale, Gross Motor Function Measure-66, Canadian Occupational Performance Measure (COPM), and Short-Form (SF)-36. After 12 months, patients were randomly assigned to a blinded crossover to receive active or sham stimulation for 24 hours each. Severity of dystonia and chorea were blindly rated. Safety was assessed throughout. The trial was registered at ClinicalTrials.gov, number NCT02097693., Results: Sixteen patients (age: 13.4 ± 2.9 years) were recruited by seven clinical sites. Primary outcome at 12-month follow-up is as follows: mean CPCHILD increased by 4.2 ± 10.4 points (95% CI [confidence interval] -1.3 to 9.7; P = 0.125); among secondary outcomes: improvement in COPM performance measure of 1.1 ± 1.5 points (95% CI 0.2 to 1.9; P = 0.02) and in the SF-36 physical health component by 5.1 ± 6.2 points (95% CI 0.7 to 9.6; P = 0.028). Otherwise, there are no significant changes., Conclusion: Evidence to recommend DBS as routine treatment to improve quality of life in pediatric patients with dyskinetic cerebral palsy is not yet sufficient. Extended follow-up in larger cohorts will determine the impact of DBS further to guide treatment decisions in these often severely disabled patients. © 2021 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society., (© 2021 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published
2022
Full Text
View/download PDF

33. DiODe v2: Unambiguous and Fully-Automated Detection of Directional DBS Lead Orientation.

Author

Dembek TA, Hellerbach A, Jergas H, Eichner M, Wirths J, Dafsari HS, Barbe MT, Hunsche S, Visser-Vandewalle V, and Treuer H

Abstract

Directional deep brain stimulation (DBS) leads are now widely used, but the orientation of directional leads needs to be taken into account when relating DBS to neuroanatomy. Methods that can reliably and unambiguously determine the orientation of directional DBS leads are needed. In this study, we provide an enhanced algorithm that determines the orientation of directional DBS leads from postoperative CT scans. To resolve the ambiguity of symmetric CT artifacts, which in the past, limited the orientation detection to two possible solutions, we retrospectively evaluated four different methods in 150 Cartesia™ directional leads, for which the true solution was known from additional X-ray images. The method based on shifts of the center of mass (COM) of the directional marker compared to its expected geometric center correctly resolved the ambiguity in 100% of cases. In conclusion, the DiODe v2 algorithm provides an open-source, fully automated solution for determining the orientation of directional DBS leads.

Published
2021
Full Text
View/download PDF

34. Potentials and Limitations of Directional Deep Brain Stimulation: A Simulation Approach.

Author

Kramme J, Dembek TA, Treuer H, Dafsari HS, Barbe MT, Wirths J, and Visser-Vandewalle V

Subjects
Deep Brain Stimulation instrumentation, Humans, Algorithms, Computer Simulation, Deep Brain Stimulation methods, Electrodes, Implanted, Finite Element Analysis
Abstract

Background: Directional leads are increasingly used in deep brain stimulation. They allow shaping the electrical field in the axial plane. These new possibilities increase the complexity of programming. Thus, optimized programming approaches are needed to assist clinical testing and to obtain full clinical benefit., Objectives: This simulation study investigates to what extent the electrical field can be shaped by directional steering to compensate for lead malposition., Method: Binary volumes of tissue activated (VTA) were simulated, by using a finite element method approach, for different amplitude distributions on the three directional electrodes. VTAs were shifted from 0 to 2 mm at different shift angles with respect to the lead orientation, to determine the best compensation of a target volume., Results: Malpositions of 1 mm can be compensated with the highest gain of overlap with directional leads. For larger shifts, an improvement of overlap of 10-30% is possible, depending on the stimulation amplitude and shift angle of the lead. Lead orientation and shift determine the amplitude distribution of the electrodes., Conclusion: To get full benefit from directional leads, both the shift angle as well as the shift to target volume are required to choose the correct amplitude distribution on the electrodes. Current directional leads have limitations when compensating malpositions >1 mm; however, they still outperform conventional leads in reducing overstimulation. Further, their main advantage probably lies in the reduction of side effects. Databases like the one from this simulation could serve for optimized lead programming algorithms in the future., (© 2020 The Author(s) Published by S. Karger AG, Basel.)

Published
2021
Full Text
View/download PDF

35. Temporal Stability of Lead Orientation in Directional Deep Brain Stimulation.

Author

Dembek TA, Asendorf AL, Wirths J, Barbe MT, Visser-Vandewalle V, and Treuer H

Subjects
Algorithms, Artifacts, Humans, Tomography, X-Ray Computed, Deep Brain Stimulation
Abstract

Background: Directional deep brain stimulation (DBS) enlarges the therapeutic window by increasing side-effect thresholds and improving clinical benefits. To determine the optimal stimulation settings and interpret clinical observations, knowledge of the lead orientation in relation to the patient's anatomy is required., Objective: To determine if directional leads remain in a fixed orientation after implantation or whether orientation changes over time., Method: Clinical records of 187 patients with directional DBS electrodes were screened for CT scans in addition to the routine postoperative CT. The orientation angle of each electrode at a specific point in time was reconstructed from CT artifacts using the DiODe algorithm implemented in Lead-DBS. The orientation angles over time were compared with the originally measured orientations from the routine postoperative CT., Results: Multiple CT scans were identified in 18 patients and the constancy of the orientation angle was determined for 29 leads at 48 points in time. The median time difference between the observations and the routine postoperative CT scan was 82 (range 1-811) days. The mean difference of the orientation angles compared to the initial measurement was -1.1 ± 3.9° (range -7.6 to 8.7°). Linear regression showed no relevant drift of the absolute value of the orientation angle over time (0.8°/year, adjusted R2: 0.040, p = 0.093)., Conclusion: The orientation of directional leads was stable and showed no clinically relevant changes either in the first weeks after implantation or over longer periods of time., (© 2020 S. Karger AG, Basel.)

Published
2021
Full Text
View/download PDF

36. Thalamic Deep Brain Stimulation in Essential Tremor Plus Is as Effective as in Essential Tremor.

Author

Steffen JK, Jergas H, Petry-Schmelzer JN, Dembek TA, Thies T, Jost ST, Dafsari HS, Kessler J, Wirths J, Fink GR, Visser-Vandewalle V, and Barbe MT

Abstract

The new essential tremor (ET) classification defined ET-plus (ET-p) as an ET subgroup with additional neurological signs besides action tremor. While deep brain stimulation (DBS) is effective in ET, there are no studies specifically addressing DBS effects in ET-p. 44 patients with medication-refractory ET and thalamic/subthalamic DBS implanted at our center were postoperatively classified into ET and ET-p according to preoperative documentation. Tremor suppression with DBS (stimulation ON vs. preoperative baseline and vs. stimulation OFF), measured via the Fahn-Tolosa-Marin tremor rating scale (TRS), stimulation parameters, and the location of active contacts were compared between patients classified as ET and ET-p. TRS scores at baseline were higher in ET-p. ET-p patients showed comparable tremor reduction as patients with ET, albeit higher stimulation parameters were needed in ET-p. Active electrode contacts were located more dorsally in ET-p of uncertain reason. Our data show that DBS is similarly effective in ET-p compared to ET. TRS scores were higher in ET-p preoperatively, and higher stimulation parameters were needed for tremor reduction compared to ET. The latter may be related to a more dorsal location of active electrode contacts in the ET-p group of this cohort. Prospective studies are warranted to investigate DBS in ET-p further.

Published
2020
Full Text
View/download PDF

37. PSA and VIM DBS efficiency in essential tremor depends on distance to the dentatorubrothalamic tract.

Author

Dembek TA, Petry-Schmelzer JN, Reker P, Wirths J, Hamacher S, Steffen J, Dafsari HS, Hövels M, Fink GR, Visser-Vandewalle V, and Barbe MT

Subjects
Aged, Female, Humans, Male, Middle Aged, Neural Pathways physiology, Subthalamic Nucleus physiology, Ventral Thalamic Nuclei physiology, Deep Brain Stimulation methods, Essential Tremor therapy
Abstract

Objective: To investigate the relation between deep brain stimulation (DBS) of the posterior-subthalamic-area (PSA) and the ventral-intermediate-nucleus (VIM) and the distance to the dentatorubrothalamic tract (DRTT) in essential tremor (ET)., Methods: Tremor rating scale (TRS) hemi-scores were analyzed in 13 ET patients, stimulated in both the VIM and the PSA in a randomized, crossover trial. Distances of PSA and VIM contacts to population-based DRTTs were calculated. The relationships between distance to DRTT and stimulation amplitude, as well as DBS efficiency (TRS improvement per amplitude) were investigated., Results: PSA contacts were closer to the DRTT (p = 0.019) and led to a greater improvement in TRS hemi-scores (p = 0.005) than VIM contacts. Proximity to the DRTT was related to lower amplitudes (p < 0.001) and higher DBS efficiency (p = 0.017)., Conclusions: Differences in tremor outcome and stimulation parameters between contacts in the PSA and the VIM can be explained by their different distance to the DRTT., Competing Interests: Declaration of Competing Interest None., (Copyright © 2020. Published by Elsevier Inc.)

Published
2020
Full Text
View/download PDF

39. DBS of the PSA and the VIM in essential tremor: A randomized, double-blind, crossover trial.

Author

Barbe MT, Reker P, Hamacher S, Franklin J, Kraus D, Dembek TA, Becker J, Steffen JK, Allert N, Wirths J, Dafsari HS, Voges J, Fink GR, Visser-Vandewalle V, and Timmermann L

Subjects
Adult, Aged, Cohort Studies, Cross-Over Studies, Double-Blind Method, Essential Tremor diagnosis, Female, Follow-Up Studies, Humans, Male, Middle Aged, Prospective Studies, Deep Brain Stimulation methods, Essential Tremor physiopathology, Essential Tremor therapy, Subthalamic Nucleus physiology, Ventral Thalamic Nuclei physiology
Abstract

Objective: To evaluate deep brain stimulation (DBS) of the posterior subthalamic area (PSA) in essential tremor (ET) and compare it to the ventral intermediate nucleus of the thalamus (VIM) in terms of stimulation efficacy, efficiency, and side effects., Methods: DBS leads were implanted such that contacts were placed in the VIM, on the intercommissural line, and in the PSA. Thirteen patients with ET entered a randomized, double-blind crossover phase and completed a 1-year follow-up., Results: PSA-DBS significantly reduced tremor severity and improved quality of life. There were no relevant differences in quality and frequency of stimulation side effects between VIM and PSA, with a tendency toward greater tremor improvement with PSA stimulation. Clinical benefit was achieved at significantly lower stimulation amplitudes in the PSA. The majority of patients remained with PSA-DBS after 1 year., Conclusion: In accordance with previous retrospective investigations, our prospective data suggest that PSA-DBS is at least equally effective as but possibly more efficient than VIM-DBS., Classification of Evidence: This study provides Class I evidence that for patients with essential tremor, PSA-DBS is not significantly different from VIM-DBS in suppressing tremor, but clinical benefit from PSA-DBS is attained at lower stimulation amplitudes., (© 2018 American Academy of Neurology.)

Published
2018
Full Text
View/download PDF

40. DiODe: Directional Orientation Detection of Segmented Deep Brain Stimulation Leads: A Sequential Algorithm Based on CT Imaging.

Author

Hellerbach A, Dembek TA, Hoevels M, Holz JA, Gierich A, Luyken K, Barbe MT, Wirths J, Visser-Vandewalle V, and Treuer H

Subjects
Artifacts, Deep Brain Stimulation methods, Humans, Phantoms, Imaging, Tomography, X-Ray Computed methods, Algorithms, Deep Brain Stimulation instrumentation, Electrodes, Implanted, Tomography, X-Ray Computed instrumentation
Abstract

Background: Directional deep brain stimulation (DBS) allows steering the stimulation in an axial direction which offers greater flexibility in programming. However, accurate anatomical visualization of the lead orientation is required for interpreting the observed stimulation effects and to guide programming., Objectives: In this study we aimed to develop and test an accurate and robust algorithm for determining the orientation of segmented electrodes based on standard postoperative CT imaging used in DBS., Methods: Orientation angles of directional leads (CartesiaTM; Boston Scientific, Marlborough, MA, USA) were determined using CT imaging. Therefore, a sequential algorithm was developed that quantitatively compares the similarity of the observed CT artifacts with calculated artifact patterns based on the lead's orientation marker and a geometric model of the segmented electrodes. Measurements of seven ground truth phantoms and three leads with 60 different configurations of lead implantation and orientation angles were analyzed for validation., Results: The accuracy of the determined electrode orientation angles was -0.6 ± 1.5° (range: -5.4 to 4.2°). This accuracy proved to be sufficiently high to resolve even subtle differences between individual leads., Conclusions: The presented algorithm is user independent and provides highly accurate results for the orientation of the segmented electrodes for all angular constellations that typically occur in clinical cases., (© 2018 S. Karger AG, Basel.)

Published
2018
Full Text
View/download PDF

41. Directional DBS increases side-effect thresholds-A prospective, double-blind trial.

Author

Dembek TA, Reker P, Visser-Vandewalle V, Wirths J, Treuer H, Klehr M, Roediger J, Dafsari HS, Barbe MT, and Timmermann L

Subjects
Aged, Cross-Over Studies, Double-Blind Method, Female, Humans, Male, Middle Aged, Prospective Studies, Treatment Outcome, Deep Brain Stimulation adverse effects, Muscle Rigidity etiology, Parkinson Disease therapy, Subthalamic Nucleus physiology
Abstract

Objective: The objective of this study was to investigate whether directional deep brain stimulation (DBS) of the subthalamic nucleus in Parkinson's disease (PD) offers increased therapeutic windows, side-effect thresholds, and clinical benefit., Methods: In 10 patients, 20 monopolar reviews were conducted in a prospective, randomized, double-blind design to identify the best stimulation directions and compare them to conventional circular DBS regarding side-effect thresholds, motor improvement, and therapeutic window. In addition, circular and best-directional DBS were directly compared in a short-term crossover. Motor outcome was also assessed after an open-label follow-up of 3 to 6 months., Results: Stimulation in the individual best direction resulted in significantly larger therapeutic windows, higher side-effect thresholds, and more improvement in hand rotation than circular DBS. Rigidity and finger tapping did not respond differentially to the stimulation conditions. There was no difference in motor efficacy or stimulation amplitudes between directional and circular DBS in the short-term crossover. Follow-up evaluations 3 to 6 months after implantation revealed improvements in motor outcome and medication reduction comparable to other DBS studies with a majority of patients remaining with a directional setting., Conclusion: Directional DBS can increase side-effect thresholds while achieving clinical benefit comparable to conventional DBS. Whether directional DBS improves long-term clinical outcome needs to be investigated in the future. © 2017 International Parkinson and Movement Disorder Society., (© 2017 International Parkinson and Movement Disorder Society.)

Published
2017
Full Text
View/download PDF

42. Determining the orientation angle of directional leads for deep brain stimulation using computed tomography and digital x-ray imaging: A phantom study.

Author

Sitz A, Hoevels M, Hellerbach A, Gierich A, Luyken K, Dembek TA, Klehr M, Wirths J, Visser-Vandewalle V, and Treuer H

Subjects
Boston, Humans, Lead, Phantoms, Imaging, X-Rays, Deep Brain Stimulation, Radiographic Image Enhancement, Tomography, X-Ray Computed
Abstract

Purpose: Orientating the angle of directional leads for deep brain stimulation (DBS) in an axial plane introduces a new degree of freedom that is indicated by embedded anisotropic directional markers. Our aim was to develop algorithms to determine lead orientation angles from computed tomography (CT) and stereotactic x-ray imaging using standard clinical protocols, and subsequently assess the accuracy of both methods., Methods: In CT the anisotropic marker artifact was taken as a signature of the lead orientation angle and analyzed using discrete Fourier transform of circular intensity profiles. The orientation angle was determined from phase angles at a frequency 2/360° and corrected for aberrations at oblique leads. In x-ray imaging, frontal and lateral images were registered to stereotactic space and sub-images containing directional markers were extracted. These images were compared with projection images of an identically located virtual marker at different orientation angles. A similarity index was calculated and used to determine the lead orientation angle. Both methods were tested using epoxy phantoms containing directional leads (Cartesia™, Boston Scientific, Marlborough, USA) with known orientation. Anthropomorphic phantoms were used to compare both methods for DBS cases., Results: Mean deviation between CT and x-ray was 1.5° ± 3.6° (range: -2.3° to 7.9°) for epoxy phantoms and 3.6° ± 7.1° (range: -5.6° to 14.6°) for anthropomorphic phantoms. After correction for imperfections in the epoxy phantoms, the mean deviation from ground truth was 0.0° ± 5.0° (range: -12° to 14°) for x-ray. For CT the results depended on the polar angle of the lead in the scanner. Mean deviation was -0.3° ± 1.9° (range: -4.6° to 6.6°) or 1.6° ± 8.9° (range: -23° to 34°) for polar angles ≤ 40° or > 40°., Conclusions: The results show that both imaging modalities can be used to determine lead orientation angles with high accuracy. CT is superior to x-ray imaging, but oblique leads (polar angle > 40°) show limited precision due to the current design of the directional marker., (© 2017 American Association of Physicists in Medicine.)

Published
2017
Full Text
View/download PDF

43. The Effect of Uni- and Bilateral Thalamic Deep Brain Stimulation on Speech in Patients With Essential Tremor: Acoustics and Intelligibility.

Author

Becker J, Barbe MT, Hartinger M, Dembek TA, Pochmann J, Wirths J, Allert N, Mücke D, Hermes A, Meister IG, Visser-Vandewalle V, Grice M, and Timmermann L

Subjects
Acoustics, Adult, Aged, Analysis of Variance, Female, Functional Laterality, Humans, Intelligence Tests, Male, Middle Aged, Sound Spectrography, Visual Analog Scale, Deep Brain Stimulation methods, Essential Tremor complications, Intelligence physiology, Speech Disorders etiology, Speech Disorders therapy
Abstract

Background: Deep brain stimulation (DBS) of the ventral intermediate nucleus (VIM) is performed to suppress medically-resistant essential tremor (ET). However, stimulation induced dysarthria (SID) is a common side effect, limiting the extent to which tremor can be suppressed. To date, the exact pathogenesis of SID in VIM-DBS treated ET patients is unknown., Objective: We investigate the effect of inactivated, uni- and bilateral VIM-DBS on speech production in patients with ET. We employ acoustic measures, tempo, and intelligibility ratings and patient's self-estimated speech to quantify SID, with a focus on comparing bilateral to unilateral stimulation effects and the effect of electrode position on speech., Methods: Sixteen German ET patients participated in this study. Each patient was acoustically recorded with DBS-off, unilateral-right-hemispheric-DBS-on, unilateral-left-hemispheric-DBS-on, and bilateral-DBS-on during an oral diadochokinesis task and a read German standard text. To capture the extent of speech impairment, we measured syllable duration and intensity ratio during the DDK task. Naïve listeners rated speech tempo and speech intelligibility of the read text on a 5-point-scale. Patients had to rate their "ability to speak"., Results: We found an effect of bilateral compared to unilateral and inactivated stimulation on syllable durations and intensity ratio, as well as on external intelligibility ratings and patients' VAS scores. Additionally, VAS scores are associated with more laterally located active contacts. For speech ratings, we found an effect of syllable duration such that tempo and intelligibility was rated worse for speakers exhibiting greater syllable durations., Conclusion: Our data confirms that SID is more pronounced under bilateral compared to unilateral stimulation. Laterally located electrodes are associated with more severe SID according to patient's self-ratings. We can confirm the relation between diadochokinetic rate and SID in that listener's tempo and intelligibility ratings can be predicted by measured syllable durations from DDK tasks., (© 2017 International Neuromodulation Society.)

Published
2017
Full Text
View/download PDF

44. Deep brain stimulation of the posterior subthalamic area and the thalamus in patients with essential tremor: study protocol for a randomized controlled pilot trial.

Author

Barbe MT, Franklin J, Kraus D, Reker P, Dembek TA, Allert N, Wirths J, Voges J, Timmermann L, and Visser-Vandewalle V

Abstract

Background: Deep brain stimulation (DBS) of the ventral intermediate nucleus (VIM) of the thalamus is effective in medication refractory essential tremor (ET). In recent years, evidence has accumulated that the region ventral to the VIM, the posterior subthalamic area (PSA), might be an equally or even more effective target for electrode implantation. However, this evidence is primarily based on case series, cross-sectional observations, and retrospective data., Methods/design: A prospective crossover pilot study investigating the effects of PSA stimulation in medication refractory ET patients was designed. In this study, bilateral electrodes are implanted such that at least one of the electrode contacts is located in the PSA and VIM, respectively. This implantation approach allows (1) a prospective double-blind investigation of the effects of PSA stimulation compared to baseline, as well as (2) a crossover comparison between VIM and PSA stimulation with respect to tremor suppression and side effect profiles., Discussion: The results of this double-blinded, prospective study will allow a better understanding of the effects and side effects of PSA compared to VIM-DBS in patients with ET., Trial Registration: German Clinical Trials Register: DRKS00004235 . Registered on 4 July 2012.

Published
2016
Full Text
View/download PDF

46. Intracranial stereotactic radiosurgery with an adapted linear accelerator vs. robotic radiosurgery: Comparison of dosimetric treatment plan quality.

Author

Treuer H, Hoevels M, Luyken K, Visser-Vandewalle V, Wirths J, Kocher M, and Ruge M

Subjects
Cranial Irradiation, Humans, Radiosurgery methods, Radiotherapy Dosage, Retrospective Studies, Robotics methods, Surgery, Computer-Assisted methods, Treatment Outcome, Brain Neoplasms surgery, Particle Accelerators instrumentation, Radiosurgery instrumentation, Radiotherapy Planning, Computer-Assisted methods, Robotics instrumentation, Surgery, Computer-Assisted instrumentation
Abstract

Background and Purpose: Stereotactic radiosurgery with an adapted linear accelerator (linac-SRS) is an established therapy option for brain metastases, benign brain tumors, and arteriovenous malformations. We intended to investigate whether the dosimetric quality of treatment plans achieved with a CyberKnife (CK) is at least equivalent to that for linac-SRS with circular or micromultileaf collimators (microMLC)., Patients and Methods: A random sample of 16 patients with 23 target volumes, previously treated with linac-SRS, was replanned with CK. Planning constraints were identical dose prescription and clinical applicability. In all cases uniform optimization scripts and inverse planning objectives were used. Plans were compared with respect to coverage, minimal dose within target volume, conformity index, and volume of brain tissue irradiated with ≥ 10 Gy., Results: Generating the CK plan was unproblematic with simple optimization scripts in all cases. With the CK plans, coverage, minimal target volume dosage, and conformity index were significantly better, while no significant improvement could be shown regarding the 10 Gy volume. Multiobjective comparison for the irradiated target volumes was superior in the CK plan in 20 out of 23 cases and equivalent in 3 out of 23 cases. Multiobjective comparison for the treated patients was superior in the CK plan in all 16 cases., Conclusion: The results clearly demonstrate the superiority of the irradiation plan for CK compared to classical linac-SRS with circular collimators and microMLC. In particular, the average minimal target volume dose per patient, increased by 1.9 Gy, and at the same time a 14% better conformation index seems to be an improvement with clinical relevance.

Published
2015
Full Text
View/download PDF

47. Utilization of predefined stimulation groups by essential tremor patients treated with VIM-DBS.

Author

Barbe MT, Pochmann J, Lewis CJ, Allert N, Wirths J, Visser-Vandewalle V, and Timmermann L

Subjects
Adult, Aged, Aged, 80 and over, Female, Health Surveys, Humans, Male, Middle Aged, Retrospective Studies, Statistics, Nonparametric, Treatment Outcome, Deep Brain Stimulation methods, Essential Tremor therapy, Intralaminar Thalamic Nuclei physiology
Abstract

Objective: To identify the utilization and general acceptance of switching between predefined stimulation groups in essential tremor (ET) patients treated with deep brain stimulation (DBS) of the ventral intermediate nucleus (VIM) of the thalamus., Methods: Thirty-eight patients treated with VIM-DBS completed a telephone survey. This was designed to identify the general utilization of patient controllers and the specific usage of stimulation groups., Results: Thirty-eight patients were interviewed via phone. More than half (21 of 38 patients, 55%) of all contacted ET patients were aware of the possibility of switching between pre-defined stimulation programs themselves. Again, more than half of these patients (13 of the 21 patients) switch between the different programs on a regular basis (8 monthly, 2 weekly, and 3 daily), mainly due to occurring side effects. Age did not differ between the group of patients switching between stimulation groups, and those who did not (65.38 years (±11.36) vs. 69.15 years (±9.92), p = 0.297)., Conclusion: Some patients frequently use different stimulation settings, mainly to be able to control side effects when necessary. All patients - independent of their age - and especially patients with stimulation induced side effects, should therefore be informed about the possibility to switch between predefined stimulation groups. We propose a training for patients by specialized nurses, to give them confidence in handling the patient controllers., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2014
Full Text
View/download PDF

49. Intracavitary brachytherapy using stereotactically applied phosphorus-32 colloid for treatment of cystic craniopharyngiomas in 53 patients.

Author

Kickingereder P, Maarouf M, El Majdoub F, Fuetsch M, Lehrke R, Wirths J, Luyken K, Schomaecker K, Treuer H, Voges J, and Sturm V

Subjects
Adolescent, Adrenocorticotropic Hormone metabolism, Adult, Aged, Child, Colloids therapeutic use, Disease-Free Survival, Female, Follicle Stimulating Hormone, Follow-Up Studies, Growth Hormone, Humans, Luteinizing Hormone, Magnetic Resonance Imaging, Male, Middle Aged, Phosphorus Isotopes therapeutic use, Retrospective Studies, Survival Analysis, Treatment Outcome, Young Adult, Brachytherapy methods, Craniopharyngioma drug therapy, Pituitary Neoplasms drug therapy
Abstract

This paper summarizes outcomes of a single-center study of intracavitary brachytherapy (IBT) with stereotactically applied phosphorus-32 ((32)P) colloid for treatment of cystic craniopharyngiomas. We assessed its efficacy and safety, on the basis of clinical and radiological outcomes in one of the largest reported patient series. Between 1992 and 2011, 53 patients were treated with IBT, 14 without previous treatment and 39 who had previously been treated for recurrent cysts. Intervention was performed by applying 200 Gy to the internal cyst wall (median volume 6.1 ml). Median clinical and radiological follow-up were 60.2 and 53.0 months, respectively. Actuarial tumor cyst control was 86.0 ± 5.3 % at 12, 24, and 60 months. Actuarial out-of-field control (development of new cysts or progression of solid tumor parts) was 90.9 ± 4.3, 84.0 ± 5.6, and 54.5 ± 8.8 % after 12, 24, and 60 months, respectively. Corresponding actuarial overall progression-free survival was 79.4 ± 6.1, 72.4 ± 6.8, and 45.6 ± 8.7 % at 12, 24, and 60 months, respectively. Visual function improved for 12 patients (23.5 %), remained unchanged for 34 patients (66.7 %), and worsened for five patients (9.8 %), correlating with tumor progression in each case. Endocrinological deterioration occurred for ten patients (19.6 %); for nine patients this was a result of tumor progression or after tumor resection and for one it was attributed to irradiation. Within six months of IBT seven patients (13.7 %) experienced transient neurological deficits and two patients (3.9 %) deteriorated permanently (hemiparesis and third nerve palsy). Stereotactically applied (32)P is highly efficacious for control of cystic components of craniopharyngiomas and is associated with a low risk of permanent morbidity. The procedure does not, however affect the development of new cysts or the progression of solid tumor parts.

Published
2012
Full Text
View/download PDF

50. Whole-body kinetics and dosimetry of L-3--123I-iodo-alpha-methyltyrosine.

Author

Schmidt D, Langen KJ, Herzog H, Wirths J, Holschbach M, Kiwit JC, Ziemons K, Coenen HH, and Müller-Gärtner H

Subjects
Adult, Aged, Brain Neoplasms diagnostic imaging, Glioma diagnostic imaging, Humans, Male, Middle Aged, Radiation Dosage, Radiation Protection, Tissue Distribution, Iodine Radioisotopes pharmacokinetics, Methyltyrosines pharmacokinetics, Tomography, Emission-Computed, Single-Photon
Abstract

The synthetic amino acid L-3--123I-iodo-alpha-methyltyrosine (IMT) is currently under clinical evaluation as a single-photon emission tomography (SPET) tracer of amino acid uptake in brain tumours. So far, dosimetric data in respect of IMT are not available. Therefore we investigated the whole-body distribution of IMT in six patients with cerebral gliomas and the radiation doses were estimated. Whole-body scans were acquired at 1.5, 3 and 5 h after i.v. injection of 370-550 MBq IMT. The bladder was voided prior to each scan and the radioactivity excreted in the urine was measured. Based on the MIRD-11 method and the updated MIRDOSE3, the mean absorbed doses for various organs and the effective dose were calculated from geometric means of the anterior and posterior whole-body scans using seven source organs and the residence time. IMT was predominantly excreted by the kidneys (52.8%+/-11.5% at 1.5 h p.i., 63.0%+/-15.7% at 3 h p.i. and 74.6%+/-9.8% at 5 h p.i.). No organ system other than the urinary tract showed significant retention of the tracer. Early whole-body scans revealed slightly increased tracer uptake in the liver and in the bowel. Highest absorbed doses were found for the urinary bladder wall (0.047 mGy/MBq), the kidneys (0.010 mGy/MBq), the lower large intestinal wall (0.011 mGy/MBq) and the upper large intestinal wall (0.008 mGy/MBq). The effective dose according to ICRP 60 was estimated to be 0.0073 mSv/MBq for adults. This leads to an effective dose of 3.65 mSv in a typical brain SPET study using 500 MBq IMT. The MIRDOSE3 scheme yielded similar results. Thus, in spite of the relatively high tracer dose required for optimal brain scanning, radiation exposure in SPET studies with IMT is in the normal range of routine nuclear medicine investigations.

Published
1997
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results