Your search keyword '"MOTOR cortex"' showing total 156 results

1. Effekte transkranieller Wechselstromstimulation auf das Putten bei fortgeschrittenen Golfern.

Author

Schäring, Ulrich, Emkes, Reiner, Strüber, Daniel, Schorer, Jörg, and Herrmann, Christoph S.

Subjects

*OSCILLATIONS, *TRANSCRANIAL alternating current stimulation, *ALPHA rhythm, *MOTOR cortex, *GOLF, *ELECTROENCEPHALOGRAPHY

Abstract

Abstract: There are presently no studies investigating the effects of transcranial alternating current stimulation (tACS) on complex precision sports such as golf. For the golf putt, previous electrophysiological studies indicate a connection between putt performance and EEG alpha activity. Here, we investigate whether alpha-tACS over the motor cortex improves golf putting. To this end, 15 advanced golfers each received either alpha-tACS or sham stimulation in three blocks of 50 putts before, during, and after stimulation. We measured both movement execution (repeatability) and movement result (distance control) as dependent variables. We did not find an enhancing effect of alpha-tACS on golf putting performance. [ABSTRACT FROM AUTHOR]

Published

2023

2. Klinische Anatomie des Frontallappens und der Insula.

Author

Schumann, Sven, Roesler, Mona K., and Schmeißer, Michael J.

Abstract

Copyright of Zeitschrift für Epileptologie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

3. Einfluss einer auditiven Aufgabe (Oddball-Task) auf die Modulation der Erregbarkeit des motorischen Kortex durch statische Magnetfelder

Author

Alex, Birte, Kammer, Thomas, and Lewerenz, Jan

Subjects

Oddball-Task, Motorischer Cortex, Motor cortex, ddc:610, Transkranielle statische Magnetfeldstimulation, motorischer Kortex, Transkranielle magnetische Stimulation, DDC 610 / Medicine & health, Transcranial magnetic stimulation

Abstract

In der Vergangenheit konnte in einigen Studien ein modulierender Effekt von transkranieller statischer Magnetstimulation (tSMS) auf die Erregbarkeit des motorischen Kortex beobachtet werden. Nachdem dieser in der Vorgängerstudie zu dieser Arbeit nicht repliziert werden konnte, war das Ziel dieser Arbeit, zu evaluieren, ob ein auditiver Oddball-Task der Grund dafür ist. Die Evaluierung des Effektes des Oddball-Task erfolgte anhand eines Experimentes in einem within-subject Design mit direktem Vergleich der Stimulation mit und ohne Verwendung des Oddball-Task. Dabei fanden pro Proband 2 Sitzungen statt. In jeder Sitzung wurde ein starker Dauermagnet 10 Minuten lang an den Kopf des Probanden gehalten. In einer der beiden Sitzungen lösten die Probanden während der tSMS einen auditiven Oddball-Task, wobei sie Töne zählen mussten, ohne dabei zu reden oder die Finger zu benutzen. In der anderen Sitzung gab es keine Aufgabe, sodass die Probanden nur dazu angehalten wurden, still zu sitzen und nicht zu reden. Vor und nach tSMS wurde die Erregbarkeit des motorischen Kortex gemessen. Dafür wurden motorisch evoziert Potentiale (MEP) des rechten Musculus interosseus dorsalis I (first dorsal interosseous, FDI) mittels Einzelpulse transkranieller Magnetstimulation (TMS) generiert und abgeleitet. Es konnte weder in den Sitzungen mit noch in den Sitzungen ohne Oddball-Task eine Verringerung der MEP-Amplituden nach tSMS beobachtet werden. Demzufolge konnte der Oddball-Task nicht als Grund für ausbleibende tSMS-Effekte bestätigt werden. Außerdem konnte erneut der modulierende Effekt der tSMS auf die Erregbarkeit des motorischen Kortex nicht repliziert werden. Auffällig waren jedoch starke Schwankungen der MEP-Amplituden, die einen modulierenden Effekt möglicherweise verbergen könnten. Neben dem Oddball-Task gibt es verschiedene weitere Unterschiede zwischen den Vorgänger-tSMS-Studien und der vorliegenden Arbeit, darunter die Verwendung eines Neuronavigationssystems, die Wahl der Hemisphäre, die stimuliert wurde, die Pulsform und die Dauer der tSMS. Von diesen Faktoren scheint keiner ausschlaggebend für die unterschiedlichen Ergebnisse zu sein. Um den tSMS-Effekt unterschiedlicher Studien vergleichen zu können, sollten alle anderen Faktoren, die die Erregbarkeit potentiell beeinflussen können, möglichst einheitlich gehalten werden. Auch in Bezug auf die Fluktuationen bei MEP-Messungen lässt die Studienlage keine eindeutigen Aussagen zur 42 Verbesserung dieser Problematik erkennen. Somit ist es schwer, einheitliche Protokolle zur Erregbarkeitsmessung bei neuromodulatorischen Verfahren zu schaffen. Zusammenfassend lässt sich sagen, dass ein modulierender Effekt transkranieller statischer Magnetfeldstimulation auf den motorischen Kortex in dieser Arbeit nicht repliziert werden konnte. Die vorgeschlagene mögliche Ursache, die Verwendung eines auditiven Oddball-Tasks, konnte nicht als tatsächlicher Grund für die Unterschiede bestätigt werden.

Published

2023

4. Erfolgreiche Resektion einer fokalen kortikalen Dysplasie (FCD) der Zentralregion bei einem 6 Monate alten Säugling mit nur sehr milder postoperativer Parese.

Author

Dietel, T., Zentner, J., Ramantani, G., Schulze-Bonhage, A., Hethey, S., Kruse, B., Reutlinger, C., Mayer, H., Steinhoff, B., and Bast, T.

Abstract

Copyright of Zeitschrift für Epileptologie is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

5. Kombination von Disinhibierungsprotokollen zur Erhöhung der kortikospinalen Erregbarkeit

Author

Schulte, Robin and Gharabaghi, Alireza (Prof. Dr.)

Subjects

Motor imagery, Motor Kortex, Electrical stimulation, Motor cortex, Transkranielle Magnet Stimulation, Motorischer Cortex , Elektrostimulation , Transkranielle magnetische Stimulation , Enthemmung , Neuromuskuläre Erregbarkeit, Disinhibition, Motor evoked potential, Transcranial magnetic stimulation

Abstract

Während der Vorstellung einer Bewegung (motor imagery, MI) erhöht sich die kortikospinale Erregbarkeit, d.h. die Muskelantwort nach einem externen Impuls über dem korrespondierenden motorischen Kortex. Diese erhöhte Erregbarkeit hält jedoch nicht nach der Bewegungsvorstellung an. In der vorliegenden Studie wurde MI mit transkranieller magnetischer Stimulation (TMS) des korrespondierenden motorischen Hirnareals kombiniert. Hierbei wurde ein spezielles Stimulationsmuster eingesetzt: Ein repetitives, disinhibierendes TMS-Protokoll (DIS) mit gepaarten Pulsen, die für jeden Probanden individuell angepasst wurden, um bestimmte Neuronen- Verbindungen zu aktivieren (short-interval intra-cortical facilitation, SICF) und andere zu disinhibieren (late cortical disinhibition, LCD). Insgesamt wurden bei 15 gesunde Probanden in randomisierter Reihenfolge vier verschiedene Interventionen an unterschiedlichen Tagen durchgeführt: Bewegungsvorstellung einer Handöffnung (MI), TMS über dem kortikalen Handareal (DIS) und zwei kombinierten MI/DIS-Interventionen mit einer unterschiedlichen Anzahl an Impulsen (48 vs. 480). Lediglich die beiden MI/DIS- Konditionen führten zu einer Erhöhung der kortikospinalen Erregbarkeit nach der Intervention, wobei die höhere Interventionsdosis anhaltende Effekte zeigte. Diese plastischen Effekte traten auf, ohne dass die Probanden aktive Bewegungen durchführen mussten. Deswegen sollte in zukünftigen Studien untersucht werden, ob diese Interventionsart auch als Therapie für Patienten in Frage kommt, bei denen aktive Bewegungen nicht mehr möglich sind, z.B. bei Schlaganfall-Patienten mit einer Lähmung der Hand.

Published

2020

6. Der motorische Kortex als Vermittler von Schmerzreduktion und Zielstruktur zur Einschätzung von Krankheitsstadien

Author

Prüß, Magdalena

Subjects

inflammatory bowel disease, pain modulation, motor cortex, transcranial magnetic stimulation, M1, transcranial direct current stimulation, chronic pain, pain reduction, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit

Abstract

Hintergrund/ Fragestellung: Schmerz wird peripher von Nozizeptoren detektiert und ins zentrale Nervensystem weitergeleitet. Hier kommt es zur Wahrnehmung, Lokalisation und Bewertung des Schmerzes. Wiederkehrender Schmerz führt zur Chronifizierung. Chronische Schmerzen führen zu spezifischen Veränderungen sowohl im zentralen als auch im peripheren Nervensystem. Ziel war es zu untersuchen, ob der Motorkortex einen Einfluss besitzt, um die Schmerzwahrnehmung bei Gesunden und Schmerzpatienten zu verändern. Zusätzlich wurde getestet, ob der Motorkortex eine geeignete Zielstruktur darstellt, um eine Einschätzung über Krankheitsstadien bei zwei Modell-Erkrankungen (Patienten mit chronischen Schmerzen oder einer Enzephalitis) zu treffen. Methoden: Eine mentale Aufgabe sowie die transkranielle Gleichstromstimulation (tDCS) wurden auf Veränderungen in der Druckschmerzschwelle und der kortikalen Exzitabilität (mittels transkranieller Magnetstimulation (TMS)) bzw. der funktionellen Konnektivität (mittels Magnetresonanztomographie (MRT)) getestet. Es wurden gesunde Probanden und Schmerzpatienten mit einer chronisch entzündlichen Darmerkrankung (CED) und chronisch myofaszialen Schmerzen untersucht. Weiter wurde geprüft, ob neurophysio-logische TMS-Parameter des Motorkortex mit klinischen Skalen für Krankheitsstadien (Schmerz-Katastrophisieren-Skala oder modifizierte Rankin-Skala) korrelieren. Ergebnisse: Die Arbeiten zeigen, dass die Aktivierung des Motorkortex im Zusammen-hang mit der Schmerzwahrnehmung steht. Dabei erscheint eine gesteigerte Motorkortex-Exzitabilität mit einer Schmerzreduktion einherzugehen und umgekehrt eine reduzierte Exzitabilität mit einer Schmerzsteigerung. Die tDCS-Therapie, die die Motorkortexaktivität steigert, führte bei CED-Patienten mit chronischen Schmerzen zu einer signifikanten Schmerzreduktion. Dies war von einer Veränderung in der Ruhezustands-MRT im Sinne einer gesteigerten funktionellen Konnektivität in verschiedenen Gehirnnetzwerken begleitet. Zudem zeigten sich signifikante Assoziationen zwischen verschiedenen TMS-Parametern der Motorkortex-Exzitabilität und den gewählten klinischen Skalen. Schlussfolgerungen: Der Motorkortex und dessen Aktivitätssteigerung haben einen bedeutenden Einfluss auf die Schmerzreduktion bzw. vermitteln diese. Die gewonnenen Erkenntnisse können für eine neue, multimodale Schmerztherapie genutzt werden. Darüber hinaus bietet der Motorkortex eine mögliche Zielstruktur, um nicht-invasiv eine Einschätzung der Erkrankungsschwere bei bestimmten Krankheiten zu treffen.

Published

2020

7. Veränderungen im visuomotorischen System während der Phase der Äthanolanflutung: Nachweis mithilfe der funktionellen Magnetresonanztomographie.

Author

Luchtmann, M., Jachau, K., Adolf, D., Baecke, S., Lützkendorf, R., and Bernarding, J.

Abstract

Copyright of Rechtsmedizin is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013

8. Langsame Augenfolgebewegungen.

Author

Heide, Wolfgang and Trillenberg, Peter

Subjects

EYE movement disorders, VISUAL discrimination, MOTOR ability, VISUAL evoked response, CEREBELLUM physiology, MOTOR cortex

Abstract

Zusammenfassung: Langsame Augenfolgebewegungen (AFB) stellen nach den Sakkaden den 2. Grundtyp von Augenbewegungen dar. Ihr optimaler Geschwindigkeitsbereich ist mit <30°/s viel langsamer als bei Sakkaden. Sie dienen der visuellen Diskrimination bewegter Objekte, wofür sich die Augen möglichst genau der Objektgeschwindigkeit anpassen müssen. Dies erfordert eine exakte visuo-motorische Koordination mittels Feedback von visueller (retinale Bildverschiebung) und nicht-visueller Information (über die aktuell ausgeführte Augenbewegung sowie die Antizipation der Objektbewegung). Neuronal wird dies über ein kortikales Projektionssystem realisiert, welches visuelle Bewegungsinformation vom occipito-temporalen Kortex mit nicht-visuellen Signalen aus dem Parietal- und Frontallappen kombiniert und zu einem motorischen Signal verarbeitet, das vom frontalen Augenfeld zu den pontinen Kernen und zum Kleinhirn geleitet wird. Läsionen der einzelnen Strukturen verursachen spezifische Störungsmuster der AFB (richtungspezifische, retinotope oder omnidirektionale), deren Topodiagnostik und klinische Relevanz systematisch beschrieben wird. [ABSTRACT FROM AUTHOR]

Published

2013

9. Magnetstimulation des N. femoralis.

Author

Milnik, Volker

Subjects

TRANSCRANIAL magnetic stimulation, NEUROPATHY, FEMORAL nerve, MOTOR cortex, VASTUS medialis, LUMBOSACRAL region

Abstract

Copyright of Neurophysiologie-Labor is the property of Elsevier GmbH, Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2012

10. TMS in der Schlaganfallrehabilitation.

Author

Flöel, Agnes

Subjects

MEDICAL rehabilitation, STROKE, TRANSCRANIAL magnetic stimulation, MOTOR cortex, COHORT analysis, BRAIN imaging, NEUROPHYSIOLOGY, EDUCATION

Abstract

Copyright of Neurophysiologie-Labor is the property of Elsevier GmbH, Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

11. rTMS zur Therapie von Schmerz.

Author

Schwenkreis, Peter

Subjects

TRANSCRANIAL magnetic stimulation, PAIN management, PERIPHERAL neuropathy, MOTOR cortex, BRAIN stimulation, CLINICAL trials

Abstract

Copyright of Neurophysiologie-Labor is the property of Elsevier GmbH, Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

12. Prä- und intraoperative Funktionslokalisierung bei komplexen Hirntumoren.

Author

Picht, T., Vajkoczy, P., and Kombos, T.

Abstract

Copyright of Der Onkologe is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

13. Grundlagen der Transkraniellen Magnetsstimulation.

Author

Milnik, Volker

Subjects

MOTOR cortex, TRANSCRANIAL magnetic stimulation, PERIPHERAL neuropathy diagnosis, PRECANCEROUS conditions, FACIAL nerve, NEURAL conduction, DIAGNOSIS

Abstract

Copyright of Neurophysiologie-Labor is the property of Elsevier GmbH, Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2011

14. Kortikale Aktivierungen durch Yamamoto Neue Schädelakupunktur (YNSA) in der Behandlung von Schlaganfallpatienten: Eine Sham-kontrollierte Studie mit Hilfe der funktionellen Kernspintomographie (fMRI).

Author

Schockert, T., Schnitker, R., Boroojerdi, B., Vietzke, K., Smith, I. Qua, Yamamoto, T., and Kastrau, F.

Subjects

ACUPUNCTURE, CEREBROVASCULAR disease patients, MAGNETIC resonance imaging, NEEDLES & pins, GROUP psychoanalysis, MOTOR cortex

Abstract

Copyright of Deutsche Zeitschrift für Akupunktur is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2009

15. Motorkortikale Repräsentation beim komplex regionalen Schmerzsyndrom Typ I.

Author

Krause, P., Förderreuther, S., and Straube, A.

Abstract

Copyright of Der Schmerz is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2006

16. Modulation kortikaler Erregbarkeit beim Menschen durch transkranielle Gleichstromstimulation.

Author

Nitsche, M. A., Liebetanz, D., Tergau, F., and Paulus, W.

Abstract

Copyright of Der Nervenarzt is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2002

17. [Brain stimulation for treating stroke-related motor deficits]

Author

Caroline, Tscherpel and Christian, Grefkes

Subjects

Stroke, Neuronal Plasticity, Motor Disorders, Motor Cortex, Stroke Rehabilitation, Humans, Recovery of Function, Transcranial Magnetic Stimulation

Abstract

Functional recovery of stroke-related deficits is mainly achieved through neural reorganization. Neurorehabilitative approaches, therefore, aim at supporting positive processes while suppressing maladaptive neuronal processes. This review summarizes the main findings of studies using non-invasive and invasive brain stimulation with respect to the benefits of the treatment for motor deficits after stroke. In addition, the article discusses possible approaches to enhance the effectiveness of neuromodulatory approaches and thus improve the outcome of patients.

Published

2019

18. Verzögerter Start der Willkürbewegung bei Pyramidenläsionen des Menschen.

Author

Jung, Richard and Dietz, Volker

Abstract

Copyright of Archiv für Psychiatrie und Nervenkrankheiten is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1975

19. Evozierte Enthemmung und Bahnungsminderung in corticalen Nervenzellen.

Author

Vieth, Jürgen, Kneise, Ullrich, and Käferlein, Johanna

Abstract

Copyright of Archiv für Psychiatrie und Nervenkrankheiten is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1974

20. Spontane postsynaptische potentiale von nervenzellen des motorischen cortex der katze.

Author

Watanabe, S. and Creutzfeldt, O.

Abstract

Spontaneous post-synaptic potentials (PSP's) of neurones of the motor cortex are analysed (intracellular recording, Nembutal anesthesia, cats). Distinct EPSP's either appear grouped or more sporadically distributed. Spontaneous EPSP's only represent about 3-10% of all spontaneous PSP's. The mean amplitude of EPSP's is about 0.7 mV. The smallest EPSP's have an amplitude of 150-200 μV, smaller slow fluctuations of the membrane potential (MP) are seen occasionally. Amplitude histograms of spontaneous EPSP's are similar to those of evoked EPSP units following weak thalamic stimulation. - The rising time of spontaneous EPSP's varies between 2 and 15 msec. and is not correlated with the peak amplitude. The decay is almost exponential, the time constant is between 8 and 12msec., thus being slightly higher than the neurone time constant of cortical pyramidal cells (8.5±2.2 msec. Creutzfeldt et al., 1964b). No consistant differences in time course and amplitude of 'EPSP units' after VL and CM thalamic stimulation and of spontaneous EPSP's was found. Cortical and thalamic components of post-tetanic depression of spontaneous and evoked PSP activity cannot be distinguished. Interval histograms are different whether all EPSP's during sporadic and grouped activity or whether only sporadically appearing EPSP's are counted. Non-grouped EPSP's show longer mean intervals (between 70 and 80 msec.). - During reversible deafferentation with K-depolarization of afferent fibers and in the chronically isolated cortex no spontaneous EPSP's or IPSP's are found eventhough membrane fluctuations of cells in the latter preparation may sometimes be difficult to distinguish from real EPSP's. In the chronically isolated cortex, EPSP's and IPSP's can still be elicited by epicortical stimulation. - From these findings it is concluded that the observed spontaneous PSP's represent 'unit' EPSP's and IPSP's due to afferent and collateral fiber activity and that no true miniature potentials due to spontaneous liberation of transmitter substance can be recorded. Thus, the 'synaptic noise' of cortical neurones represents convergent activity on these cells and consequently cannot be considered as true 'spontaneous noise'. [ABSTRACT FROM AUTHOR]

Published

1966

21. Gesten helfen beim Fremdsprachenlernen.

Subjects

MOTOR cortex, VOCABULARY, FOREIGN language education, LEARNING, GESTURE

Abstract

The article informs on a study "Motor cortex causally contributes to vocabulary translation following sensorimotor-enriched training" conducted by TU Dresden and published in the "Journal of Neuroscience". It mentions that motor cortex controls the voluntary movements of the body, but can also help to learn foreign-language vocabulary more quickly and translate it into the mother tongue, and learning techniques that involve making gestures accelerate learning.

Published

2021

22. Repetitive transkranielle Magnetstimulation des dorsolateralen präfrontalen Kortex und kortikale Exzitabilität bei Patienten mit Major Depression

Author

Schindowski, Christina Constance Alice

Subjects

major depressive disorder, motor cortex, repetitive transcranial magnetic stimulation, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit, cortical inhibition

Abstract

Die repetitive transkranielle Magnetstimulation (rTMS) des dorsolateralen präfrontalen Kortex (DLPFC) ist eine gut verträgliche und nicht-invasive Methode mit nachweislichen therapeutischen Nutzen bei Patienten mit einer Major Depression. Die genauen neurophysiologischen Grundlagen der Wirkung sind noch nicht ausreichend geklärt. Vor allem Veränderungen von zentralen exzitatorischen und inhibitorischen Mechanismen werden als Erklärungsansatz diskutiert. Unter dieser Annahme haben wir den Einfluss von 10 Sitzungen mit rTMS über dem DLPFC, die innerhalb von zwei Wochen durchgeführt wurden, auf die kortikale Erregbarkeit (Exzitabilität) durch motorisch evozierte Potentiale bei 30 depressiven Patienten untersucht. Im Vergleich zu den Non- Respondern zeigen die Responder (33%) signifikante Veränderungen in den neurophysiologischen Parametern, die auf eine reduzierte kortikale Erregbarkeit zurückzuführen sind. Diese Ergebnisse suggerieren, dass repetitive transkranielle Magnetstimulation des DLPFC inhibitorische Effekte auf die motorische kortikal vermittelte Exzitabilität bei Patienten mit einer Major Depression hat. Die Bestimmung motorisch vermittelter kortikaler Erregbarkeit konnte als ein überaus nützliches Instrument zur Untersuchung und Verlaufsbeurteilung inhibitorischer Effekte von antidepressiven Stimulationsverfahren wie der rTMS bestätigt werden. Darüber hinaus hypothesierten wir einen potentiell anxiolytischen Effekt durch die rTMS über dem dorsolateralen präfrontalen Kortex. Wir vermuteten, dass die Veränderungen in den Einzel-Items der Hamilton-Depressionsskala als potentielle Biomarker definiert werden könnten, die eine noch spezifischere Behandlung von Depressionen ermöglichen würden., Repetitive transcranial magnetic stimulation (rTMS) of the dorsolateral prefrontal cortex is a relatively non-invasive technique with proofed therapeutic effect in major depression. However, the exact neurophysiological basis of this effect remains still unclear. Lately changes of central excitatory and inhibitory mechanisms were discussed. On basis of this assumption we studied the impact of ten sessions of left, dorsolateral prefrontal rTMS on motor cortical excitability, as revealed by transcranial magnetic stimulation-elicted motor-evoked potentials in 30 patients within two weeks. As compared to the non-responders, responders (33 %) showed changes in parameters pointing towards a reduced cortical excitability. These results suggest that repetitive transcranial magnetic stimulation of the dorsolateral prefrontal cortex may have inhibitory effects on motor cortical neuronal excitability in patients with major depressive disorder. Measurement of motor cortical excitability has been proofed to be a useful tool for investigating and monitoring inhibitory brain effects of antidepressant stimulation- techniques like rTMS. Furthermore we hypothesized that rTMS of DLPFC has a potential anxiolytic effect in depressed. In addition we assume that changes in subitems of Hamilton Depression Rating Scale could be defined as possible biomarkers for more specific treatment options of depression.

Published

2015

23. [Transcranial magnetic stimulation (TMS), inhibition processes and attention deficit/hyperactivity disorder (ADHD) - an overview]

Author

Thomas, Hoegl, Stephan, Bender, Johannes, Buchmann, Oliver, Kratz, Gunther H, Moll, and Hartmut, Heinrich

Subjects

Brain Mapping, Dopamine, Motor Cortex, Pyramidal Tracts, Neural Inhibition, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Functional Laterality, Translational Research, Biomedical, Attention Deficit Disorder with Hyperactivity, Interneurons, Germany, Humans, Child

Abstract

Motor system excitability can be tested by transcranial magnetic stimulation CFMS). In this article, an overview of recent methodological developments and research findings related to attention deficit/hyperactivity disorder (ADHD) is provided. Different TMS parameters that reflect the function of interneurons in the motor cortex may represent neurophysiological markers of inhibition in ADHD, particularly the so-called intracortical inhibition. In children with a high level of hyperactivity and impulsivity, intracortical inhibition was comparably low at rest as shortly before the execution of a movement. TMS-evoked potentials can also be measured in the EEG so that investigating processes of excitability is not restricted to motor areas in future studies. The effects of methylphenidate on motor system excitability may be interpreted in the sense of a 'fine-tuning' with these mainly dopaminergic effects also depending on genetic parameters (DAT1 transporter). A differentiated view on the organization of motor control can be achieved by a combined analysis of TMS parameters and event-related potentials. Applying this bimodal approach, strong evidence for a deviant implementation of motor control in children with ADHD and probably compensatory mechanisms (with involvement of the prefrontal cortex) was obtained. These findings, which contribute to a better understanding of hyperactivity/impulsivity, inhibitory processes and motor control in ADHD as well as the mechanisms of medication, underline the relevance of TMS as a neurophysiological method in ADHD research.Die Exzitabilität des motorischen Systems kann mittels der transkraniellen Magnetstimulation (TMS) untersucht werden. In dieser Arbeit wird ein Überblick über methodische Weiterentwicklungen und Forschungsergebnisse im Bereich der Aufmerksamkeitsdefizit-/Hyperaktivitätsstörung (ADHS) der vergangenen Jahre gegeben. Es werden verschiedene TMS-Parameter vorgestellt, die unter anderem die Funktion von Interneuronen im Motorkortex abbilden und neurophysiologische Inhibitionsmarker für ADHS darstellen könnten. Dies gilt insbesondere für die sogenannte intrakortikale Inhibition, die bei Kindern mit stark ausgeprägter hyperaktiver/impulsiver Symptomatik in Ruhe ähnlich gering wie kurz vor der Durchführung einer Bewegung ausfällt. Durch die Ableitung von TMS-evozierten Potentialen im EEG können Exzitabilitätsprozesse prinzipiell auch in nicht-motorischen Arealen untersucht werden. Die Effekte von Methylphenidat auf die Exzitabilität des motorischen Systems lassen sich im Sinne eines «Fine-Tunings» interpretieren, wobei diese überwiegend dopaminergen Effekte auch von genetischen Parametern (DAT1 Transporter) abhängen. Ein detaillierter Blick auf die Organisation motorischer Kontrolle ist durch eine kombinierte Messung von TMS-Parametern und ereignisbezogenen Potentialen möglich. Mit diesem Ansatz konnten bei Kindern mit ADHS eine unterschiedliche Implementierung bzw. mögliche kompensatorische Mechanismen (unter Beteiligung des präfrontalen Kortex) aufgezeigt werden. Diese Befunde, die zu einem besseren Verständnis von Hyperaktivität/Impulsivität, Inhibitionsmechanismen und motorischer Kontrolle bei ADHS sowie den Wirkmechanismen medikamentöser Therapie beitragen, unterstreichen die Bedeutung der TMS als neurophysiologische Methode zur Erforschung von ADHS.

Published

2014

24. Hirnaktivität bei willkürlichen Kontraktionen des Beckenbodens - eine fMRT-Studie

Author

Schrum, Anna Laura, van der Horst, Christof, and Strauss, Alexander

Subjects

Abschlussarbeit, motor cortex, magnetic resonance imaging, pelvic floor, Motorkortex, fMRT, Beckenboden, Motorkortex, Faculty of Medicine, body regions, doctoral thesis, fMRT, motor cortex, Medizinische Fakultät, pelvic floor, magnetic resonance imaging, ddc:610, ddc:6XX, Beckenboden

Abstract

Beckenbodentrainig beinhaltet rythmische Kontraktionen des Sphincter urethrae externus und weitere Beckenbodenmuskeln. Die Repräsentation dieser Muskeln im motorischen Kortex ist bisher nicht genau lokalisiert worden. Wir nutzten die funktionelle Magnetresonanztomographie um Hirnaktivität während schneller und langsamer Kontraktionen des Beckenbodens zu erfassen. Pelvic floor muscle training involves rhythmical voluntary contractions of the external urethral sphincter and ancillary pelvic floor muscles. The representation of these muscles in the motor cortex has not been located precisely and unambiguously. We used functional magnetic resonance imaging to determine brain activity during slow and fast pelvic floor contractions.

Published

2013

25. [Transcranial magnetic stimulation and motor cortex stimulation in neuropathic pain]

Author

V, Mylius, S S, Ayache, M, Teepker, C, Kappus, M, Kolodziej, F, Rosenow, C, Nimsky, W H, Oertel, and J P, Lefaucheur

Subjects

Analgesics, Brain Mapping, Neural Pathways, Motor Cortex, Humans, Neuralgia, Dominance, Cerebral, Transcranial Magnetic Stimulation, Neuronavigation, Electrodes, Implanted, Pain Measurement

Abstract

Non-invasive and invasive cortical stimulation allows the modulation of therapy-refractory neuropathic pain. High-frequency repetitive transcranial magnetic stimulation (rTMS) of the contralateral motor cortex yields therapeutic effects at short-term and predicts the benefits of epidural motor cortex stimulation (MCS). The present article summarizes the findings on application, mechanisms and therapeutic effects of cortical stimulation in neuropathic pain.

Published

2012

26. [Empathy and mirror neurons. A view on contemporary neuropsychological empathy research]

Author

Leonard F, Häusser

Subjects

Cerebral Cortex, Brain Mapping, Adolescent, Emotions, Motor Cortex, Theory of Mind, Infant, Intention, Amygdala, Child, Preschool, Animals, Humans, Empathy, Child, Dominance, Cerebral, Mirror Neurons, Psychomotor Performance, Personal Construct Theory

Abstract

Neurons firing both to specific actions performed by self and matching actions performed by others are classified as mirror neurons. Since its discovery in 1991, this phenomenon has been surveyed in the field of motor and sensorimotor function and incipiently in the field of language and emotions. The research group of Giacomo Rizzolatti assumes that mirror neurons form the biological basis of compassion and thereby of affective empathic experience. The research regarding mirror neurons is yet in early stages and further research is required to specify mirror neuron systems. In view of empathy it is the insula which is of central importance for the recognition of disgust. The discovery of mirror neurons allows a comprehension of empathy as an immediate and compassionate partaking of a response, enabling an understanding of the other persons feeling. At the same time, the resonating affect remains allocated to the other person, distinguishing this comprehensive process from a mere emotional contagion. At present, the phenomenon of mirror neurons is gaining clinical relevance in the field of autism spectrum disorders and apoplexia. One's own ability for empathy as well as promoting empathetic abilities of others is of central importance for the clinical praxis, in particular concerning the treatment of children and adolescents.

Published

2012

27. [Somatosensory phenomena and the role of sensorimotor circuits in Gilles de la Tourette syndrome]

Author

Alexander, Münchau, Götz, Thomalla, and Veit, Roessner

Subjects

Adult, Brain Mapping, Obsessive-Compulsive Disorder, Adolescent, Motor Cortex, Sensation, Somatosensory Cortex, Magnetic Resonance Imaging, Diffusion Magnetic Resonance Imaging, Parietal Lobe, Humans, Nerve Net, Child, Tourette Syndrome

Abstract

Gilles de la Tourette syndrome (GTS) is characterized by multiple fluctuating motor and vocal tics. These tics are often preceded by premonitory phenomena including the urge to move, or by exaggerated bodily sensations that can lead to considerable disability and difficulties with attention and concentration. In the past the premonitory phenomena were interpreted as the driving force behind tics. However, there is not always a clear sequence of premonitory sensations followed by a tic. Also, the former typically develop around the age of 10 years, i.e. after the onset of the latter. Thus, the relationship between premonitory phenomena and tics is unclear. The present article reviews the current knowledge on this issue. Neurophysiological studies have shown some abnormalities of sensorimotor integration in GTS. In addition, structural imaging (MRT) has demonstrated a thinning of the sensorimotor cortex in children and adolescents with GTS. In contrast, an increase in fractional anisotropy as a marker of the directionality of white matter fibers underneath the pre- and postcentral gyrus has been demonstrated in adult GTS patients. These data underscore the role of developmental abnormalities and reorganisation in the somatosensory system in GTS warranting further studies. Multimodal studies including structural and functional imaging and electrophysiology in clinically well characterized GTS subgroups might foster a better understanding of somatosensory phenomena and the role of sensorimotor circuits in GTS.

Published

2011

28. [Transcranial magnetic stimulation for psychogenic tremor - a pilot study]

Author

M, Dafotakis, M, Ameli, F, Vitinius, R, Weber, C, Albus, G R, Fink, and D A, Nowak

Subjects

Adult, Male, Mental Disorders, Models, Neurological, Motor Cortex, Pilot Projects, Middle Aged, Hand, Psychophysiologic Disorders, Transcranial Magnetic Stimulation, Functional Laterality, Biomechanical Phenomena, Psychotherapy, Upper Extremity, Young Adult, Treatment Outcome, Tremor, Humans, Female, Head

Abstract

Psychogenic tremor is the most common psychogenic movement disorder. Its prognosis is widely held to be poor and strongly depends on the patient's insight into the psychogenicity of the syndrome. The clinical value of transcranial magnetic stimulation (TMS) for (i) establishing the diagnosis with a high level of certainty, (ii) modulating symptom severity and (iii) facilitating patients' insight into psychogenicity was tested in 11 patients with psychogenic tremor of the upper limb. After explaining the psychogenic origin of the syndrome and providing a neurobiological model, 30 TMS pulses were applied over the hand area of the primary motor cortex contralateral to the affected hand(s) at a rate of 0.2 Hz. 15 pulses were administered at intensities of 120 % and 140 % of the resting motor threshold, respectively. Kinematic motion analysis was used to document the effectiveness of the TMS procedure. All patients met the diagnostic criteria of conversion disorder. Time elapsed since symptom onset was on average 48 to 57 months. Tremor affected both hands in 8 patients, one patient had additional head tremor. The TMS procedure caused a significant reduction of tremor frequency and thus established the diagnosis of documented psychogenic tremor according to the criteria proposed by Fahn and Williams (1988) in each patient. The duration of symptom relief was transient in 7 patients, 4 patients had lasting symptom relief. The present pilot study demonstrates that TMS is a helpful tool to (i) establish the diagnosis of psychogenic hand tremor with a high level of certainty, (ii) reduce tremor intensity and (iii) facilitate the patient's insight into the psychogenic origin of the syndrome as a prerequisite to obtain adherence to psychotherapy.

Published

2011

29. [Presurgical functional magnetic resonance imaging]

Author

C, Stippich

Subjects

Cerebral Cortex, Afferent Pathways, Brain Mapping, Neuronal Plasticity, Brain Neoplasms, Motor Cortex, Somatosensory Cortex, Motor Activity, Magnetic Resonance Imaging, Electric Stimulation, Oxygen, Diffusion Magnetic Resonance Imaging, Imaging, Three-Dimensional, Nerve Fibers, Neural Pathways, Preoperative Care, Image Processing, Computer-Assisted, Humans, Speech, Artifacts, Dominance, Cerebral, Neuronavigation, Software

Abstract

Functional magnetic resonance imaging (fMRI) is an important and novel neuroimaging modality for patients with brain tumors. By non-invasive measurement, localization and lateralization of brain activiation, most importantly of motor and speech function, fMRI facilitates the selection of the most appropriate and sparing treatment and function-preserving surgery. Prerequisites for the diagnostic use of fMRI are the application of dedicated clinical imaging protocols and standardization of the respective imaging procedures. The combination with diffusion tensor imaging (DTI) also enables tracking and visualization of important fiber bundles such as the pyramidal tract and the arcuate fascicle. These multimodal MR data can be implemented in computer systems for functional neuronavigation or radiation treatment. The practicability, accuracy and reliability of presurgical fMRI have been validated by large numbers of published data. However, fMRI cannot be considered as a fully established modality of diagnostic neuroimaging due to the lack of guidelines of the responsible medical associations as well as the lack of medical certification of important hardware and software components. This article reviews the current research in the field and provides practical information relevant for presurgical fMRI.

Published

2010

30. Zerebrale Oxygenierungsänderung bei transkranieller Magnetstimulation (TMS) des Motorkortex

Author

Neumann, Friederike

Subjects

motor cortex, near-infrared spectroscopy, TMS, motor-evoced potential (MEPs), 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit

Abstract

Die Aktivierung kortikaler Netzwerke nach Reizung des Motorkortex (M1) durch Einzelpuls TMS wurde durch verschiedene Methoden der funktionellen Bildgebung (funktionelle Kernspintomographie, funktionelle Positron Emissions Tomographie) nachgewiesen. Dabei konnte anhand der hämodynamischen Antwort dargestellt werden, dass TMS nicht nur im primären Motorkortex, dem Fokus der Stimulation, Aktivitätsänderungen hervorruft, sondern einen Einfluss auf die damit verbundenen kortikalen und subkortikalen Areale ausübt. Im Gegensatz zu den relativ einheitlichen Ergebnissen bei der Aktivierung konnektiver Areale, sind die Ergebnisse zur Antwort in M1 - also am Ort der primären Stimulation - widersprüchlich: Es wird sowohl ein Anstieg (Aktivierung) als auch einen Abfall (Deaktivierung) des rCBF berichtet. Zudem gibt es Arbeiten, die gar keine hämodynamischen Veränderungen nachweisen. Es konnte in der vorliegenden Arbeit gezeigt werden, dass überschwellige Einzelpuls-TMS im primär stimulierten Areal eine vaskuläre Antwort erzeugt, die dem Muster einer „physiologischen“ funktionellen Aktivierung des Motorkortex entspricht. Schwellige Stimulation hingegen führte zu keiner signifikanten Oxygenierungsänderung im stimulierten Areal. Diese Ergebnisse stehen im Einklang mit der Literatur, in der sich ab Intensitäten ≥110% RMT einheitlich ein rCBF-Anstieg findet, der sich unterhalb dieser Grenze nur unzuverlässig (in weniger als 50% der Studien über M1, siehe Abbildung 13) nachweisen lässt. Im Vergleich der verschiedenen in der Literatur berichteten Ergebnisse fällt weiterhin auf, dass auch innerhalb einer Intensität unterschiedliche rCBF- Änderungen auftreten, die sich nicht immer durch die Unterschiede in den externen Stimulationsparametern erklären lassen. Dies weist auf die Bedeutung weiterer Faktoren für den Effekt der Stimulation hin, welche als kontextsensitive Modulatoren des efferenten Signals eingeordnet werden können. Ein Beispiel hierfür ist das Maß der kortikalen Grundaktivität, messbar z.B. durch MEPs. In der vorliegenden Studie wurde zum ersten Mal das motorisch- evozierte Potential simultan mit einer funktionellen Bildgebungsmethode (funktionelle Nahinfrarot-Spektroskopie) aufgezeichnet und beides miteinander korreliert. Die Ergebnisse der vorliegenden Arbeit zeigen, dass auch bei überschwelliger Stimulation nur im Zusammenhang mit großen MEP-Amplituden signifikante hämodynamische Änderungen auftreten. Dies beleuchtet die entscheidende Rolle der bei Stimulation vorhandenen kortikalen Aktivität für das Maß der erzeugten neuronalen und damit auch hämodynamischen Aktivierung. Es erscheint aufgrund unserer Ergebnisse wichtig, in zukünftigen Studien nicht allein die Intensität der Stimulation sondern auch detailliertere Angaben zur Efferenz berichten., In the last years a variety of studies using functional imagery (fMRI, PET) could show neuronal activation patterns due to single pulse TMS of the motor cortex (M1). At this, hemodynamic response has not only been detected at the site of stimulation itself (M1) but also in remote cortical and subcortical areas connected with the motor cortex. In contrast to the rather consistent results regarding the acitvation of the connected areas, the findings under the coil are somewhat contradictory: Both an increase (activation) and a decrease (deactivation) of the regional cerebral bloodflow (rCBF) have been reported. Other studies could not find any hemodynamic changes at all. In the present study we could show that a suprathreshold stimulus elicits a neuovascular response pattern under the coil that is similar to the changes during "physiological" functional acitvation of the motor cortex. Threshold stimulation, on the other hand, does not induce any significant hemodynamic changes in the stimulated area. These findings are in line with the literature where increases of rCBF are consistently to be found at intensities ≥110% of the resting motor threshold (RMT) but only in 50% of the studies stimulating M1 with threshold or subthreshold intesities. Another striking point regarding literature is, that even studies using the same stimulation paradigm report different rCBF-changes. In those cases, extern stimulation parameters are not sufficient to explain the differing results. This draws attention to the meaning of other context-sensitive modulators on the effect of the stimulation. One example is the cortical excitability which can be measured as motor-evoced potential (MEPs). In the present study, for the first time, MEPs have been recorded simultaneously with functional imagery (Near-infrared spectroscopy). Correlating the data with one another, we could show that, even at suprathreshold TMS, significant hemodynamic responses only occur in connection with high MEP-amplitudes. These findings highlight the important impact of the cortical activation level during the stimulation on the induced neuronal and thus hemodynamical acitivation. According to our results, it seems crucial for further studies not only to report variations of the stimulus-intensity but also to give detailed information about the induced cortico-spinal efferencies.

Published

2010

31. [Clinical application of functional MRI for chronic epilepsy]

Author

F G, Woermann and K, Labudda

Subjects

Brain Diseases, Brain Mapping, Epilepsy, Motor Cortex, Magnetic Resonance Imaging, Temporal Lobe, Frontal Lobe, Diagnosis, Differential, Oxygen, Postoperative Complications, Memory, Chronic Disease, Aphasia, Image Processing, Computer-Assisted, Humans, Paralysis, Speech, Amnesia, Dominance, Cerebral, Neuronavigation

Abstract

Functional magnetic resonance imaging (fMRI) is frequently used in the presurgical diagnostic procedure of epilepsy patients, in particular for lateralization of speech and memory and for localization of the primary motor cortex to delineate the epileptogenic lesion from eloquent brain areas. fMRI is one of the non-invasive procedures in the presurgical diagnostic process, together with medical history, seizure semiology, neurological examination, interictal and ictal EEG, structural MRI, video EEG monitoring and neuropsychology. This diagnostic sequence leads either to the decision for or against elective epilepsy surgery or to the decision to proceed with invasive diagnostic techniques (Wada test, intra-operative or extra-operative cortical stimulation). It is difficult to evaluate the contribution of the fMRI test in isolation to the validity of the entire diagnostic sequence. Complications such as memory loss and aphasia in temporal lobe resections or paresis after frontal lobe resections are rare and rarely of disastrous extent. This further complicates the evaluation of the clinical relevance of fMRI as a predictive tool. In this article studies which investigated the concordance between fMRI and other diagnostic gold standards will be presented as well as the association between presurgical fMRI and postsurgical morbidity.

Published

2009

32. [Modern neuroimaging of brain plasticity]

Author

G, Kasprian and S, Seidel

Subjects

Adult, Male, Pyramidal Tracts, Imaging, Three-Dimensional, Image Processing, Computer-Assisted, Humans, Child, Dominance, Cerebral, Aged, Visual Cortex, Cerebral Cortex, Afferent Pathways, Brain Diseases, Brain Mapping, Epilepsy, Neuronal Plasticity, Infant, Newborn, Motor Cortex, Infarction, Middle Cerebral Artery, Somatosensory Cortex, Middle Aged, Magnetic Resonance Imaging, Nerve Regeneration, Clubfoot, Diffusion Magnetic Resonance Imaging, Phantom Limb, Brain Damage, Chronic, Female

Abstract

Modern neuroimaging methods offer new insights into the plasticity of the human brain. As the techniques of functional MRI and diffusion tensor imaging are increasingly being applied in a clinical setting, the examiner is now frequently confronted with the interpretation of imaging findings related to regenerative processes in response to lesions of the central and also of the peripheral nervous system. In this article individual results of modern neuroimaging studies are discussed in the context of structural and functional plasticity of the CNS.

Published

2009

33. [Effects of MRI on the electrophysiology of the motor cortex: a TMS study]

Author

M, Schlamann, M-S, Yoon, S, Maderwald, T, Pietrzyk, A, Bitz, M, Gerwig, M, Forsting, S C, Ladd, M E, Ladd, and O, Kastrup

Subjects

Adult, Male, Reference Values, Sensory Thresholds, Motor Cortex, Humans, Neural Inhibition, Evoked Potentials, Motor, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation

Abstract

The increasing spread of high-field and ultra-high-field MRI scanners encouraged a new discussion on safety aspects of MRI examinations. Earlier studies report altered acoustically evoked potentials. This finding was not able to be confirmed in later studies. In the present study transcranial magnetic stimulation (TMS) was used to evaluate whether motor cortical excitability may be altered following MRI examination even at field strength of 1.5 T.In 12 right-handed male volunteers individual thresholds for motor responses and then the length of the post-excitatory inhibition (silent period) were determined. Subsequently the volunteers were examined in the MRI scanner (Siemens Avanto, 1.5 T) for 63 minutes using gradient and spin echo sequences. MRI examination was immediately followed by another TMS session and a third 10 minutes later. As a control condition, the 12 subjects spent one hour in the scanner without examination and one hour on a couch without the presence of a scanner.After MRI examination, the silent period was significantly lengthened in all 12 subjects and then tended to the initial value after 10 min. Motor thresholds were significantly elevated and then normalized after 10 minutes. No significant effects were found in the control conditions.MRI examination leads to a transient effect on motor cortical excitability indicated by elongation of the post-excitatory inhibition and to an increase in motor thresholds in some subjects. These effects do not seem to be associated with a static magnetic field.

Published

2009

34. [Modulation of cortical pain processing by cyclooxygenase inhibition: a functional MRI study]

Author

F, Herrndobler, W, Koppert, R, Ringler, and C, Maihöfner

Subjects

Adult, Cerebral Cortex, Male, Pain Threshold, Analgesics, Brain Mapping, Aspirin, Motor Cortex, Pain, Isoxazoles, Somatosensory Cortex, Gyrus Cinguli, Magnetic Resonance Imaging, Frontal Lobe, Double-Blind Method, Hyperalgesia, Parietal Lobe, Acute Disease, Image Processing, Computer-Assisted, Psychophysics, Humans, Cyclooxygenase Inhibitors, Female, Dominance, Cerebral, Pain Measurement

Abstract

Little is known about changes in brain activity with pharmacological modulation of hyperalgesia. Therefore, we sought to investigate the cerebral processing of hyperalgesia and acute pain using functional magnetic resonance imaging (fMRI) and pharmacological modulation with cyclooxygenase (COX) inhibitors.As an experimental model, we used UVB-induced mechanical hyperalgesia. In a double-blind, placebo-controlled, randomized study, acetylsalicylic acid (ASA) and parecoxib were administered to 14 healthy volunteers. Corresponding brain activity changes were assessed using fMRI.Psychophysically, parecoxib showed both analgesic and antihyperalgesia effects, whereas ASA had only antihyperalgesic effects in the experimental model. Analgesic effects were found in primary (S1) and secondary (S2) somatosensory cortices and anterior parts of the anterior cingulate cortex (ACC). In contrast, antihyperalgesic effects were mainly detected in S1, parietal association cortices, and the ACC.This study provides new evidence for the involvement of COX inhibitors in modulating the cerebral activity associated with acute pain and hyperalgesia. Our results hint at a differential modulation of brain areas under either analgesia or antihyperalgesia.

Published

2008

35. [Functional magnetic resonance imaging before motor cortex stimulation for phantom limb pain]

Author

F, Koppelstaetter, C M, Siedentopf, P, Rhomberg, S, Lechner-Steinleitner, F M, Mottaghy, W, Eisner, and S M, Golaszewski

Subjects

Male, Treatment Outcome, Phantom Limb, Deep Brain Stimulation, Motor Cortex, Humans, Middle Aged, Magnetic Resonance Imaging

Abstract

This study deals with the diagnostic value of functional magnetic resonance imaging (fMRI) in a patient with phantom limb pain following traumatic amputation of the right arm. After failure with medication, resection of stump neurinoma, and spinal cord stimulation, fMRI with evidence of cortical reorganization was performed. Tactile stimulation of the perioral region and motor imagery with cranial, tactile stimulation of the stump led to a caudal shift in fMRI activity. Subsequent motor cortex stimulation brought relief from the pain. By detecting cortical reorganization, fMRI contributes to the indication for motor cortex stimulation for phantom pain and aids in electrode positioning.

Published

2007

36. Der Einfluss von Levetiracetam auf die Exzitabilität des menschlichen Motorkortex- eine prospektive doppelblinde placebokontrollierte Studie

Author

Wentrup, Andreas and Rosenow, Felix (Prof. Dr.)

Subjects

Medizin, Gesundheit -- Medical sciences, Medicine, Levetiracetam, Medical sciences, Medicine, Motor cortex, Magnetic stimulation, ddc:610, Motorkortex, Medizin, Gesundheit, Transkranielle Magnetstimulation, 2007

Abstract

Ziel der Studie war es, mithilfe der transkraniellen Magnetstimulation (TMS)weitere Erkenntnisse über den Wirkmechanismus des neuen Antiepileptikums Levetiracetam (LEV)zu gewinnen. Bisher ist aus in-vitro-Studien eine Inhibition von Kalziumkanälen vom N-Typ bekannt. An der vorliegenden Studie nahmen 10 Probanden teil, die in 3 Sitzungen Placebo, 500 mg LEV oder 2000 mg LEV einnahmen. Vor und zwei Stunden nach Einnahme des Verums wurden fünf zuvor definierte Parameter erhoben. Dabei war ein signifikanter Anstieg der motorischen Schwelle nach Einnahme von 2000 mg LEV im Vergleich zu Placebo zu verzeichnen, während keine signifikante Änderung der vier Parameter intrakortikale Inhibition, intrakortikale Fazilitation, silent period und recruitment curve zu beobachten war. Dieses Ergebnis bestätigt eine Wirkung von LEV über Ionenkänäle wie z.B. den Kalziumkanal vom N-Typ auch in vivo im humanen Motorkortex, während GABAerge und glutamaterge Mechanismen eine untergeordnete Rolle zu spielen scheinen., We used transcranial magnetic stimulation (TMS)in order to investigate if ion-channel blockade is relevant to the inhibitory CNS effects of Levetiracetam (LEV) in vivo.In a double blind, placebo-controlled, crossover study, the effects of single oral doses of 500 and 2000 mg LEV on motor threshold (MT), recruitment curves (RC), cortical induced silent period (CSP)and on intracortical inhibition (ICI) and facilitation (ICF)were studied in 10 healthy subject. We noticed a significant increase of motor thersholds after 2000 mg LEV as compared to placebo. The CSP showed a trend towards motor evoked potential amplitude after LEV. LEV had no significant effect ohn CSP, ICI und ICF. We conclude that the modulation of ion-channel function, reflected by motor thershold elevation and a trend towards RC, is relevant to the inhibitory CNS effects von LEV in vivo, and therefore, may contribute to the asnticonculsive efficacy of LEV, GABAergic or glutamatergic mechanisms seem to be less importent in vivo as measured by TMS.

Published

2007

37. [Cortical excitability in schizophrenia. Studies using transcranial magnetic stimulation]

Author

T, Wobrock, D, Kadovic, and P, Falkai

Subjects

Neuronal Plasticity, Models, Neurological, Motor Cortex, Schizophrenia, Humans, Neural Inhibition, Evoked Potentials, Motor

Abstract

Abnormalities in brain plasticity, including abnormal information processing by disturbed cortical inhibition and facilitation in schizophrenia, have been described several times in the past. Transcranial magnetic stimulation (TMS) provides a neurophysiological technique for the measurement of cortical excitability, especially of the motoneural system. With TMS it is possible to explore important aspects of the pathophysiological mechanisms underlying schizophrenia using recently developed paradigms (paired pulse method, cortical silent period). This review summarizes the results of available diagnostic TMS studies in schizophrenia. Studies investigating the efficacy of therapeutic repetitive magnetic stimulation in patients with treatment resistant hallucinations or predominantly negative symptoms were not considered. The reviewed studies support the assumption of reduced cortical inhibition, probably caused by GABAergic deficit, in schizophrenia. Factors influencing the study results, the limitations of this promising technique in schizophrenia, and further research options are discussed.

Published

2006

38. [Central and peripheral deafferent pain: therapy with repetitive transcranial magnetic stimulation]

Author

K, Irlbacher, J, Kuhnert, S, Röricht, B U, Meyer, and S A, Brandt

Subjects

Adult, Male, Causalgia, Double-Blind Method, Phantom Limb, Motor Cortex, Humans, Female, Middle Aged, Transcranial Magnetic Stimulation, Follow-Up Studies, Pain Measurement

Abstract

This study evaluates the effects of repeated sessions of low- and high-frequency repetitive transcranial magnetic stimulation (rTMS) over the primary motor cortex on central and phantom limb pain.Twenty seven patients with central (n=13) and phantom limb (n=14) pain participated in a blind, randomised placebo-controlled study comparing the effect of 1-Hz and 5-Hz rTMS with sham stimulation. Each treatment block consisted of a 5-day baseline phase, a 5-day therapy phase, and an 18-day washout phase. In the therapy phase, 500 stimuli were applied in the particular frequency at about the same time on each day.A reduction in pain immediately after stimulation was observed in all therapy groups. This effect was similar for all treatment conditions, including sham stimulation. No significant long-term effects of rTMS on pain intensity or mood were observed.At present, rTMS can not be recommended as a standard therapy for central and phantom limb pain.

Published

2006

39. Veränderungen zentraler sensomotorischer Hirnfunktionen nach Alkoholzufuhr

Author

Klingner, Carsten

Subjects

alcohol, motor cortex, frequency, fMRI, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit

Abstract

Titelblatt und Inhaltsverzeichnis Abbildungs- und Tabellenverzeichnis III Abkürzungsverzeichnis V 1\. Einleitung 1 2\. Zielstellung 3 3\. Grundlagen 4 4\. Methodik 25 5\. Ergebnisse 42 6\. Diskussion 54 7\. Zusammenfassung 65 8\. Literaturverzeichnis 66 9\. Lebenslauf 79 10\. Danksagung 81 11\. Erklärung 82, Gegenstand dieser Arbeit ist die Untersuchung der durch Alkohol verursachten Veränderungen der neuronalen Aktivitätsmuster und damit der Hirnfunktionen im sensomotorischen Kortex des Menschen. Die nachgewiesenen Veränderungen sind als ursächlich für den bekannten modulatorischen Effekt von Alkohol auf die menschliche Motorik anzusehen. Methodisch wird dabei der BOLD-Effekt mittels fMRI gemessen, welcher als indirektes Maß für die neuronale Aktivität gilt. 12 Probanden wurden vor und nach Alkoholaufnahme unter verschiedenen motorischen Aufgabenstellungen untersucht. Weitere 5 Probanden wurden unter den gleichen Versuchsbedingungen, jedoch mit einem nichtalkoholischen Getränk untersucht. Es konnte ermittelt werden, dass Alkohol zu einer Abschwächung des BOLD- Signals führt. Dies gilt sowohl für den somatomotorischen Kortex beider Hemisphären als auch für das supplementär motorische Areal. Die Abschwächung ist in diesem weniger stark als im somatomotorischen Kortex. Die Verminderung des BOLD-Effekts betrifft die nicht-dominante Hirnhemisphäre stärker als die dominante. Die Ergebnisse unterstützen die Resultate über die Alkoholwirkung im visuellen und akustischen Zentrum und lassen eine Übertragbarkeit erkennen. Die frequenzabhängige Aktivierungsmodulation blieb unter Alkohol erhalten. Die vordilatierten Gefäße zeigen damit ausreichend Reservekapazität um die Durchblutung bei steigender motorischer Aktivität im selben Maße weiter zu steigern, wie es ohne den Einfluss von Alkohol gemessen werden konnte. Dies ist als starker Hinweis zu deuten, dass der gemessene Effekt nicht auf der vasodilatatorischen Eigenschaft des Alkohols beruht. Diese Arbeit zeigt, dass BOLD-fMRI zum Nachweis medikamentös induzierter Effekte genutzt werden kann bietet einen Hinweis, wie die bekannten Alkoholwirkungen ursächlich zu interpretieren sind., The influence of ethanol administration on the motor system was monitored with functional magnetic resonance imaging (fMRI). Twelve right-handed volunteers performed a finger tapping task before and after administration of 0.7 g alcohol per kg body weight. The volunteers performed unimanual as well as bimanual finger tapping tasks with 3 increasing frequencies in a block design. The motor cortex and the supplementary motor area showed a tapping frequency dependent BOLD-signal increase both before and after intake of ethanol. Under the influence of ethanol a decrease of activation was seen neue Zahlen oder die Zahlen weg: in the right somato-motor cortex in unimanual tasks of 72.8%, and in bimanual tasks of 50.3 %. While for the left somato-motor cortex a BOLD-signal decrease of 25.3% was also observed in the bimanual tasks the activated volume increased by 23.9% in the unimanual tasks. The dependency of the activation change with increasing tapping frequency remained preserved after intake of alcohol indicating sufficient vascular reserve to respond to neuronal activity. BOLD imaging might therefore be used to monitor influences of ethanol on local brain functions despite the well known ethanol-induced influences on the cerebral perfusion.

Published

2006

40. [Cortical reorganization in children with connatal spastic hemiparesis -- a functional magnetic resonance imaging (FMRI) study]

Author

F, Möller, S, Ulmer, S, Wolff, U, Stephani, and O, Jansen

Subjects

Adult, Male, Sex Factors, Adolescent, Cerebral Palsy, Leukomalacia, Periventricular, Movement, Age Factors, Infant, Newborn, Motor Cortex, Humans, Female, Magnetic Resonance Imaging

Abstract

We applied fMRI to investigate atypical cortical activation in patients with connatal spastic hemiparesis using voluntary movements of the hand, foot, and tongue. The relation between the findings from fMRI and the motor dysfunction was examined.11 patients with connatal spastic hemiparesis were studied. Eight of these patients had periventricular leukomalacia (PVL), and three patients had cortical-subcortical lesions. To evaluate the severity of motor impairment tests for the upper and lower limb were performed. fMRI data were obtained in a block design using hand, foot, and tongue movements. As a control group, 14 healthy volunteers were examined with the fMRI protocol.A laterally cortical representation of the paretic foot was found in three patients with PVL. In patients with cortical-subcortical lesions, tongue movements were associated with cortical activation restricted to the unaffected hemisphere. Movements of the paretic limb showed more ipsilateral activation in patients with PVL than in patients with cortical-subcortical lesions.Different types of structural damage such as PVL and cortical-subcortical lesions show differences in fMRI examination.

Published

2005

41. [Motor cortical representation in patients with complex regional pain syndrome: a TMS study]

Author

P, Krause, S, Förderreuther, and A, Straube

Subjects

Adult, Male, Pain Threshold, Adolescent, Motor Cortex, Somatosensory Cortex, Middle Aged, Evoked Potentials, Motor, Hand, Transcranial Magnetic Stimulation, Functional Laterality, Humans, Female, Dominance, Cerebral, Muscle, Skeletal, Complex Regional Pain Syndromes, Aged

Abstract

In a group of patients with short- and long-term (chronic) duration of complex regional pain syndrome type I (CRPS I) motor cortical representation was determined, using a transcranial magnetic stimulation (TMS) mapping method. This was done, starting with suprathreshold intensities at the location of the largest MEP amplitude, mapping systematically in all directions. Patients were compared to a group of healthy subjects. In both patient groups we found significantly larger motor cortical representation for the unaffected hand muscles compared to the affected side. This asymmetry was absent in healthy subjects. Such motor cortical representation asymmetry can be considered an effect of altered sensomotor cortical representation. On the other hand, one must also consider the increased use of the unaffected hand and the presence of pain as cortical influencing variables. The real cause must remain speculative at this time.

Published

2005

42. [The neuronal level of motor activity: determination of motor cortex excitability by TMS]

Author

Peter, Eichhammer, Berthold, Langguth, Jürgen, Müller, and Göran, Hajak

Subjects

Neurons, Brain Mapping, Depressive Disorder, Major, Dyskinesia, Drug-Induced, Motor Cortex, Reproducibility of Results, Neural Inhibition, Signal Processing, Computer-Assisted, Evoked Potentials, Motor, Magnetics, Receptors, GABA-B, Reference Values, Schizophrenia, Humans, Psychomotor Disorders, Dominance, Cerebral, Antipsychotic Agents

Abstract

Transcranial magnetic stimulation as mapping method offers the possibility to measure aspects of motor cortex excitability painlessly and non-invasively. Using this neurophysiological tool, new insights into the effects of central-acting drugs are possible. Particularly striking seems to be the potential of this approach to gain new insights into neurobiological processes associated with neuropsychiatric diseases like schizophrenia or major depression. In combination with genetic aspects, TMS is able to bridge the gap between molecular research and clinical approach.

Published

2005

43. [Functional magnetic resonance tomography of central motor areas in schizophrenic patients]

Author

Jürgen L, Müller, Albert, Putzhammer, and Göran, Hajak

Subjects

Dyskinesia, Drug-Induced, Motor Cortex, Motor Activity, Magnetic Resonance Imaging, Sensitivity and Specificity, Gait Apraxia, Biomechanical Phenomena, Imaging, Three-Dimensional, Image Processing, Computer-Assisted, Schizophrenia, Humans, Amisulpride, Sulpiride, Antipsychotic Agents

Abstract

Functional Magnetic Resonance Tomography (FMRT) is a safe and noninvasive method to study human brain function by measuring task induced changes of the regional cerebral blood flow. Recent fMRT studies showed that stimulation method, psychiatric disorders and neuroleptic agents influence motor induced brain activation patterns specifically. Since these factors have been insufficiently controlled in most of the recent fMRT studies in particular on psychiatric disorders, results are often controversial. Using an intrapersonal study design and a standardized stimulation apparatus, we explored differential effects of typical and atypical neuroleptic treatment in schizophrenia. In addition to fMRT, 3D ultrasonic assisted motor analysis was used to investigate gait and hand movements. FMRT method, fMRT studies on human motor system, fMRT data on schizophrenia as well as on the influence of neuroleptic treatment are given. In particular, the own study design is presented and preliminary data are given.

Published

2005

44. [GABA-B-associated neuropsychiatric disorders]

Author

Peter, Eichhammer, Berthold, Langguth, Marc, Zowe, Tobias, Kleinjung, Peter, Jacob, Philipp, Sand, and Göran, Hajak

Subjects

Cerebral Cortex, Magnetics, Tinnitus, Receptors, GABA-B, Reference Values, Chronic Disease, Motor Cortex, Schizophrenia, Humans, Neural Inhibition, Schizophrenic Psychology, Nerve Net, Dominance, Cerebral

Abstract

Disturbed GABA-B mediated inhibitory cortical processes are discussed to be involved both in schizophrenia as well as in chronic tinnitus. Transcranial magnetic stimulation (TMS) provides an intriguing in vivo method to investigate GABA-B associated aspects of cortical inhibition, thus allowing to detect disease-related cortical inhibitory processes.Parameters of cortical excitability were measured by TMS in drug-naive first-episode schizophrenic patients and in patients suffering from chronic tinnitus.The cortical silent period as measured by TMS indicated a dysfunctional GABA-B mediated cortical inhibition in both groups of patients.TMS offers new insights into the pathophysiology of neuropsychiatric disorders. Parameters of this technique point to changes in GABA-B associated inhibitory processes within thalamocortial circuits both in schizophrenia and chronic tinnitus. These data are in line with current models of disturbed thalamic gating in phantom perceptions like auditory hallucinations, chronic tinnitus and central pain.

Published

2004

45. Einfluss des Antiepileptikums Topiramat auf die mit Transkranieller Magnetstimulation gemessene Exzitabilität des menschlichen Motorkortex

Author

Reis, Janine and Rosenow, Felix (Prof. Dr. med.)

Subjects

Medizin, Gesundheit -- Medical sciences, Medicine, Epilepsy, Excitability, Epilepsie, Motorischer Cortex, Topiramat, Exzitabilität, Motor cortex, Transkranielle Magnetstimulation, Medizin, Gesundheit, Medical sciences, Medicine, Excitability, Epilepsy, Topiramate, Antiepileptika, Transcranial magnetic stimulation, 2003, ddc:610

Abstract

Die Transkranielle Magnetstimulation (TMS) gilt heute in der neurophysiologischen Diagnostik als etabliertes Verfahren zur Untersuchung zentralmotorischer Bahnen und zur Erfassung der Erregbarkeit des menschlichen Motorkortex. In in-vivo-Studien wurden mit unterschiedlichen Parametern der Einzel- und Doppelimpuls-TMS verschiedene Wirkmechanismen antikonvulsiv wirksamer Medikamente dargestellt (Ionenkanalblockade, Glutamat-Rezeptor-Antagonismus, GABA-Rezeptor-Agonismus). Topiramat (Topamax®, TPM) ist ein neueres Antikonvulsivum mit breitem klinischen Anwendungsspektrum. In in-vitro-Studien wurden fünf Wirkmechanismen für TPM eruiert, die zu dessen klinischer Wirksamkeit im Sinne einer Anfallsprophylaxe bei fokalen und generalisierten Epilepsien beitragen könnten: 1. Die Blockade spannungsabhängiger Natriumkanäle 2. Der GABAA-Rezeptor-Agonismus Diese beiden Mechanismen wurden kontrovers als der jeweilige Hauptwirkmechanismus diskutiert. Des Weiteren: 3. Die Blockade spannungsabhängiger Kalziumkanäle vom L-Typ 4. Die Blockade des Kainat/AMPA-Glutamatrezeptors 5. Die Hemmung der Carboanhydrase II und IV. In vivo wurde mittels Magnetresonanzspektroskopie zusätzlich eine Erhöhung der zerebralen GABA-Konzentration nach TPM-Gabe nachgewiesen (6. Wirkmechanismus). In einer placebokontrollierten Doppelblind-Crossover-Studie wurden an 20 gesunden Probanden mit drei neu erstellten Einzel- und Doppelimpuls-TMS-Paradigmen die Effekte einer oral verabreichten Einzeldosis von 50 mg und 200 mg TPM auf die motorischen Schwellen (RMT, AMT), die kortikal induzierte Silent Period (CSP), sowie die intrakortikale Inhibition (ICI) und Fazilitation (ICF) untersucht. Ziel der Studie war der Nachweis einer Änderung einzelner TMS-Parameter durch TPM, um damit zu klären, welcher der fünf in vitro nachgewiesenen Wirkmechanismen von TPM für die Modulation der Erregbarkeit des Motorkortex in vivo relevant sein könnte. Des Weiteren wurden die auftretenden Nebenwirkungen analysiert und mit den Veränderungen der kortikalen Erregbarkeit korreliert, um den Zusammenhang zwischen Effektivität und Tolerabilität zu evaluieren. Zwei Stunden nach Einnahme von 200 mg TPM zeigte sich im Paradigma 3 eine signifikante, deutlich dosisabhängige Zunahme der ICI bei Anwendung kurzer Interstimulusintervalle (p=0,0072 für Interstimulusintervall 3 ms, konfirmatorische Analyse; p=0,0007 für Interstimulusintervall 2 ms, explanatorische Analyse, Wilcoxon-sign-rank-Test für unverbundene Stichproben mit Bonferronikorrektur). Zusätzlich ergab sich eine leichte, nur teilweise dosisabhängige Abnahme der ICF bei längeren Interstimulusintervallen (10 und 15 ms), die jedoch keine Signifikanz erreichte. Die motorischen Schwellen (RMT, AMT) und die CSP blieben nach 50 und 200 mg TPM konstant. Aus den Ergebnissen der Arbeit ist zu folgern, dass die antikonvulsive Wirkung von TPM am menschlichen Motorkortex durch eine GABA-A-erge Wirkung vermittelt wird, die sich typischerweise als Zunahme der ICI widerspiegelt. Möglicherweise spiegelt die geringe Abnahme der ICF den gleichen Mechanismus, bzw. additiv das anti-glutamaterge Potenzial von TPM wider. Eine GABA-B-vermittelte Modulation, die zu einer Verminderung der ICF führen könnte, scheint aufgrund der unbeeinflussten CSP, die ebenfalls auf GABA-B-erger, transsynaptischer Modulation beruht, unwahrscheinlich. Eine Beeinflussung der kortikalen Erregbarkeit durch die in vitro beschriebene und als Hauptwirkmechanismus postulierte ionenkanalblockierende Wirkung von TPM scheint in vivo ebenfalls nicht relevant zu sein. Die TMS hat sich im Rahmen dieser Studie als geeignet für die in vivo-Charakterisierung der Wirkweise eines neues Medikamentes erwiesen. Da die Methode schon mehrfach zusätzliche Erkenntnisse zu den tierexperimentellen und hu-manen Studienergebnissen erbrachte, bietet es sich an, mit TMS bereits in der präklinischen Phase neue Antikonvulsiva am Menschen zu charakterisieren, da es sich hierbei um eine günstige und noninvasive Methode handelt, die Hinweise für relevante Wirkmechanismen erbringen kann., PURPOSE: Topiramate (TPM) is a novel drug with broad antiepileptic effect in children and adults. In vitro studies suggest activity as sodium-channel blocker, as gamma-aminobutyric acid type A (GABAA)-receptor agonist and as non-N-methyl-D-aspartate (NMDA)-glutamate receptor antagonist. METHODS: With transcranial magnetic stimulation (TMS), we evaluated which of the mechanisms of action of TPM detected in vitro are relevant for the modulation of human motor cortex excitability. In a double-blind, placebo-controlled, crossover study design, we investigated the effect of single oral doses of 50 mg and 200 mg TPM on motor thresholds, cortical silent period (CSP), and on intracortical inhibition (ICI) and intracortical facilitation (ICF) in 20 healthy subjects. RESULTS: A significant dose-dependent increase of ICI was noticed after 200 mg TPM as compared with placebo at short interstimulus intervals of 2 to 4 ms. TPM had no effect on motor thresholds or the CSP. CONCLUSIONS: We conclude that a single dose of TPM selectively increases ICI by GABAAergic and/or glutamatergic mechanisms without a relevant influence on measures, depending on ion-channel blockade or GABAB-receptor activity. The decrease of intracortical excitability (as measured by ICI and ICF) caused by TPM may correlate with its lack of proconvulsive potential in idiopathic generalized epilepsy, because drugs without this action or with less pronounced action may exacerbate seizures in this condition.

Published

2004

46. [Preoperative functional magnetic resonance tomography (FMRI) in patients with rolandic brain tumors: indication, investigation strategy, possibilities and limitations of clinical application]

Author

C, Stippich, B, Kress, H, Ochmann, V, Tronnier, and K, Sartor

Subjects

Afferent Pathways, Brain Mapping, Imaging, Three-Dimensional, Brain Neoplasms, Preoperative Care, Image Processing, Computer-Assisted, Motor Cortex, Humans, Somatosensory Cortex, Hand, Prognosis, Magnetic Resonance Imaging

Abstract

Preoperative functional magnetic resonance imaging (fMRI) localizes the primary motor and somatosensory cortex in relation to rolandic brain tumors and determines plastic cortical reorganization. Functional landmarks help to assess the indication for surgery and to plan for safer surgical procedures that protect the functional cortex during resection even when morphologic landmarks are no longer identifiable on anatomic images. Despite its successful application, preoperative fMRI has not yet reached the status of an established clinical diagnostic procedure since special stimulation systems, standardized fMRI protocols and medically approved software are still lacking. Following a brief review of the image display of the functional and morphologic anatomy, the different indications for preoperative fMRI in patients with rolandic brain tumors are presented. A robust preoperative protocol enables clinical MR units with magnetic field strengths of 1.0 Tesla or higher to perform reliable fMRI during contralateral hand movements. Optimized investigation strategies and stimulation modalities are proposed for patients with rolandic tumors distant from the cortical hand representation, for patients with preexisting sensorimotor deficits and for patients with poor compliance. Representative cases illustrate the clinical application. Possibilities and limitations of preoperative fMRI are presented and discussed.

Published

2003

47. Exzitatorische und inhibitorische Reizeffekte der transkraniellen magnetischen Kortexstimulation bei zerebraler Ischämie

Author

Niehaus, Ludwig Bernhard, Benecke, R., and Paulus, W.

Subjects

Schlaganfall, YG 5100, 610 Medizin, Transkranielle Magnetstimulation, stroke, motor cortex, neuronal plasticity, ddc:610, motorischer Kortex, functional reorganisation, 33 Medizin, kortikale Reorganisation, neuronale Plastizität, Transcranial magnetic stimulation

Abstract

Ziel der Arbeit war es beim Menschen die Pathophysiologie neuronaler Funktion bei zerebraler Ischämie näher zu charakterisieren sowie Kenntnisse über Umorganisationsprozesse des motorischen Systems nach einem Schlaganfall zu gewinnen. Als Untersuchungsinstrument wurde die transkranielle Magnetstimulation (TMS) eingesetzt, die basierend auf der Analyse exzitatorischer und inhibitorischer Reizeffekte (kortikospinal vermittelte exzitatorische Reizantworten, postexzitatorische Inhibition, transkallosale Inhibition, intrakortikale Inhibition und Fazilitierung) einen nicht-invasiven Zugang zur Funktion kortikaler Neurone und ihrer Efferenzen ermöglicht. An Patienten mit einer Okklusion der A. carotis interna wurden die Auswirkungen einer Ischämie auf die neuronale Funktion des motorischen Kortex untersucht. Es konnte erstmals in vivo nachgewiesen werden, dass eine zerebrale Perfusionsminderung eine selektive Funktionsstörung kortikaler inhibitorischer Interneurone in der betroffenen Hemisphäre und eine Beeinträchtigung interhemisphärischer Hemmmechanismen induziert. An Patienten mit unterschiedlich lokalisierten ischämischen Läsionen wurde der Einfluss des interhemisphärischen Informationstransfers auf Reorganisationsprozesse in der kontralateralen Hemisphäre untersucht. Es zeigte sich, dass bei Schlaganfallpatienten die kortikale Erregbarkeit der nicht-geschädigten Hemisphäre durch eine über das Corpus callosum vermittelte Inhibition signifikant moduliert wird. In zukünftigen Studien ist zu klären, inwieweit sich die Veränderungen der kortikalen Erregbarkeit positiv auf die Funktionsrestitution auswirken und dies durch den Einsatz rehabilitativer Verfahren unterstützt werden kann. The study was performed to investigate the pathophysiology of motoneuronal function in cerebral ischemia tand mechanisms of motor cortex reoganisation following stroke. The function of cortical neurons was assessed using transcranial magnetic stimulation of the motor cortex and by analysing the excitatory and inhibitory stimulation effects (corticospinally mediated excitatory response, postexcitatory inhibition, transcallosal inhibition, intracortical inhibition and facilitation). In patients with carotid occlusive disease we investigated the influence of hemispheric ischemia on motor cortex function. Patients with differently localised monohemispheric lesions served as a clinical model to investigate the impact of interhemispheric interaction on motor cortex reorganisation in the non-lesioned hemisphere. The present study is the first to demonstrate that hemispheric ischemia preferentially induces an impairment of trancallosally mediated interhemispheric inhibition and intracortical inhibitory processes. It could be further shown that in acute stroke interhemispheric interaction via callosal fibres significantly influences cortex excitability in the nonlesioned hemisphere e.g. loss of transcallosal inhibition induces hyperexcitability of the contralateral undamaged motor cortex. In the future it has to be elucidated what role excitability changes play for functional recovery and rehabilitation in stroke.

Published

2003

48. [Functional magnetic resonance tomography (fMRI). 2: Data analysis and applications]

Author

L R, Schad

Subjects

Cerebral Cortex, Brain Diseases, Brain Mapping, Imaging, Three-Dimensional, Subtraction Technique, Image Processing, Computer-Assisted, Motor Cortex, Humans, Arousal, Artifacts, Image Enhancement, Magnetic Resonance Imaging, Sensitivity and Specificity

Published

2003

49. [Electrical stimulation of the motor cortex in neuropathic pain]

Author

V, Tronnier

Subjects

Treatment Outcome, Phantom Limb, Chronic Disease, Motor Cortex, Humans, Neuralgia, Electric Stimulation Therapy, Prospective Studies, Pain Measurement

Published

2002

50. [Transcranial magnetic stimulation in child and adolescent psychiatry: excitability of the motor system in tic disorders and/or attention deficit hyperactivity disorders]

Author

G H, Moll, H, Heinrich, and A, Rothenberger

Subjects

Child Psychiatry, Adolescent, Electromyography, Motor Cortex, Neural Inhibition, Comorbidity, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Adolescent Psychiatry, Attention Deficit Disorder with Hyperactivity, Germany, Tic Disorders, Methylphenidate, Humans, Central Nervous System Stimulants, Child

Abstract

Motor system excitability can be investigated in vivo by means of single and paired pulse transcranial magnetic stimulation (TMS). Whereas the cortical silent period reflects the general degree of inhibitory mechanisms mainly within the sensorimotor loop, intracortical excitability measures the focused degree of inhibitory and facilitatory mechanisms within the motor cortex. In child and adolescent psychiatric disorders with uncontrollable motor behavior such as tics in tic disorder or motoric hyperactivity in attention deficit hyperactivity disorder (ADHD), different dysfunctional patterns of motor system excitability could be demonstrated compared to age-matched healthy controls: (1) In tic disorder, a shortened cortical silent period was observed, providing evidence of deficient inhibitory mechanisms within the sensorimotor loop, probably primarily at the level of the basal ganglia. (2) In ADHD, a decreased intracortical inhibition was found, probably reflecting deficient inhibitory mechanisms within the motor cortex (but enhancement of intracortical inhibition after oral intake of 10 mg methylphenidate). In order to investigate neurophysiological aspects of comorbidity, (3) motor system excitability was also measured in children with combined ADHD and tic disorder. The findings of a reduced intracortical inhibition as well as a shortened cortical silent period in these comorbid children provide evidence of additive effects at the level of motor system excitability. These decreased inhibitory mechanisms within the entire sensorimotor loop and especially the motor cortex could be essential neurobiological substrates of the deficient inhibitory motor control and regulation, respectively, in tic disorder and ADHD.

Published

2002