Your search keyword '"micro electrode recording"' showing total 8 results

1. Editorial: The role of the basal ganglia in somatosensory-motor interactions: evidence from neurophysiology and behavior, volume II

Author

Martijn Beudel, Antonella Macerollo, Matt J. N. Brown, and Robert Chen

Subjects

basal ganglia (BG), deep brain stimulation (DBS), micro electrode recording, local field potential (LFP), sensorimotor, traumatic brain injury (TBI), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

2. Editorial: The role of the basal ganglia in somatosensory-motor interactions: evidence from neurophysiology and behavior, volume II.

Author

Beudel, Martijn, Macerollo, Antonella, Brown, Matt J. N., and Chen, Robert

Subjects

BASAL ganglia diseases, BASAL ganglia, NEUROPHYSIOLOGY, DEEP brain stimulation, RAPID eye movement sleep

Published

2023

3. Auditory oddball responses in the human subthalamic nucleus and substantia nigra pars reticulata.

Author

Leavitt, Dallas, Alanazi, Frhan I., Al-Ozzi, Tameem M., Cohn, Melanie, Hodaie, Mojgan, Kalia, Suneil K., Lozano, Andres M., Milosevic, Luka, and Hutchison, William D.

Subjects

*SUBTHALAMIC nucleus, *SUBSTANTIA nigra, *BRAIN stimulation, *DEEP brain stimulation, *PARKINSON'S disease, *BRAIN surgery

Abstract

The auditory oddball is a mainstay in research on attention, novelty, and sensory prediction. How this task engages subcortical structures like the subthalamic nucleus and substantia nigra pars reticulata is unclear. We administered an auditory OB task while recording single unit activity (35 units) and local field potentials (57 recordings) from the subthalamic nucleus and substantia nigra pars reticulata of 30 patients with Parkinson's disease undergoing deep brain stimulation surgery. We found tone modulated and oddball modulated units in both regions. Population activity differentiated oddball from standard trials from 200 ms to 1000 ms after the tone in both regions. In the substantia nigra, beta band activity in the local field potential was decreased following oddball tones. The oddball related activity we observe may underlie attention, sensory prediction, or surprise-induced motor suppression. • Population activity and single units in the STN and SNr distinguish infrequent from frequent tones. • OB + TM units distinguish infrequent from frequent tones earlier in time compared to pure OB units. • A model-switching analysis suggests that the population code changes over time. • Beta power decreases following oddball tones in the SNr, but not STN. [ABSTRACT FROM AUTHOR]

Published

2024

4. Spike discharge characteristic of the caudal mesencephalic reticular formation and pedunculopontine nucleus in MPTP-induced primate model of Parkinson disease

Author

Laurent Goetz, Brigitte Piallat, Manik Bhattacharjee, Hervé Mathieu, Olivier David, and Stéphan Chabardès

Subjects

Pedunculopontine nucleus, Micro electrode recording, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The pedunculopontine nucleus (PPN) included in the caudal mesencephalic reticular formation (cMRF) plays a key role in the control of locomotion and wake state. Regarding its involvement in the neurodegenerative process observed in Parkinson disease (PD), deep brain stimulation of the PPN was proposed to treat levodopa-resistant gait disorders. However, the precise role of the cMRF in the pathophysiology of PD, particularly in freezing of gait and other non-motor symptoms is still not clear.Here, using micro electrode recording (MER) in 2 primates, we show that dopamine depletion did not alter the mean firing rate of the overall cMRF neurons, particularly the putative non-cholinergic ones, but only a decreased activity of the regular neurons sub-group (though to be the cholinergic PPN neurons). Interestingly, a significant increase in the relative proportion of cMRF neurons with a burst pattern discharge was observed after MPTP intoxication. The present results question the hypothesis of an over-inhibition of the CMRF by the basal ganglia output structures in PD. The decreased activity observed in the regular neurons could explain some non-motor symptoms in PD regarding the strong involvement of the cholinergic neurons on the modulation of the thalamo-cortical system. The increased burst activity under dopamine depletion confirms that this specific spike discharge pattern activity also observed in other basal ganglia nuclei and in different pathologies could play a mojor role in the pathophysiology of the disease and could explain several symptoms of PD including the freezing of gait. The present data will have to be replicated in a larger number of animals and will have to investigate more in details how the modification of the spike discharge of the cMRF neurons in the parkinsonian state could alter functions such as locomotion and attentional state. This will ultimely allow a better comprehension of the pathophysiology of freezing of gait.

Published

2019

5. A non-human primate model of bipedal locomotion under restrained condition allowing gait studies and single unit brain recordings

Author

Goetz, L., Piallat, B., Thibaudier, Y., Montigon, O., David, O., and Chabardès, S.

Subjects

*BIPEDALISM, *PRIMATES, *JAPANESE macaque, *ELECTROMYOGRAPHY, *KINEMATICS, *BIOMECHANICS

Abstract

Abstract: For decades, several animal models of locomotion have allowed a better understanding of the basic physiological mechanisms of gait. However, unlike most of the mammals, the Order Primates is characterized by fundamental changes in locomotor behaviour. In particular, some primates use a specific pattern of locomotion and are able to naturally walk bipedally due possibly to a specific supra-spinal control of locomotion. These features must be taken into account when one considers to study the intrinsic properties of human gait. Thus, an experimental model of bipedal locomotion allowing precise and reproducible analysis of gait in non-human primate is still lacking. This study describes a non-human primate model of bipedal locomotion under restrained condition. We undertook a kinematic and biomechanic study in three Macaca fascicularis trained to walk bipedally on a treadmill. One of the primate was evaluated in complete head fixation. Gait visual analysis and electromyographic recordings provided pertinent description of the gait pattern. Step frequencies, step lengths, cycle and stance phase durations were correlated with Froude number (dimensionless velocity), whereas swing phase durations remained non-correlated. Gait patterns observed in our model were similar to those obtained in freely bipedal Macaca fuscata and to a lesser extend to Humans. Gait pattern was not modified by head fixation thereby allowing us to perform precise and repetitive micro electrode recordings of deep cerebral structures. Thus, the present model could provide a pertinent pre-clinical tool to study gait parameters and their neuronal control but also could be helpful to validate new therapeutics interventions. [Copyright &y& Elsevier]

Published

2012

6. Zielpunktfindung bei der Planung der stereotaktischen Operation zur tiefen Hirnstimulation des Nucleus subthalamicus bei Patienten mit medikamentenrefraktärem Morbus Parkinson

Author

Stiksrud, Elisabeth Mirjam and Hellwig, Dieter (Prof. Dr.)

Subjects

Medical sciences, Medicine -- Medizin, Gesundheit, ddc:610, Parkinson´s disease, Deep brain stimulation, Stereotactic surgery, L-Dopa-Langzeitsyndrom, Mikroableitung, Stereotaktische Hirnoperation, Hirnstimulation, Nucleus subthlamicus, Zielpunktplanung, Parkinson-Krankheit, Micro electrode recording, Intraoperative Teststimulation, Nucleus subthalamicus, Neurochirurgie, 2011

Abstract

Hintergrund und Untersuchungsziel: Untersucht wurde die Zielpunktfindung bei der Implantation von Elektroden zur tiefen Hirnstimulation in den Nucleus subthalamicus (STN) bei Patienten mit fortgeschrittenem M. Parkinson. Ziel war die Prüfung der Genauigkeit der individuellen Bestimmung des Zielpunktes am T2-gewichteten MRT im Vergleich zu den zuvor verwendeten Standardkoordinaten, die Prüfung von Nutzen und Effektivität der intraoperativen elektrophysiologischen Ableitung von STN-typischen Signalen, zunächst mittels eines zentralen Trajektes, sowie die Prüfung des Operationserfolges hinsichtlich der Symptomreduktion und des Auftretens von Nebenwirkungen. Patienten, Material und Methoden: Die Planungs- und Operationsdaten von 52 Patienten, die im Zeitraum von 2003 bis 2006 an der Klinik für Neurochirurgie des Universitätsklinikums Marburg operiert wurden, konnten ausgewertet werden. Die Planung erfolgte mittels präoperativer kernspintomographischer Bildgebung und Fusion mit komputertomographischen Lokalisationssequenzen. Intraoperativ wurde eine einfache Mikroelektrodenableitung zunächst des zentralen Trajektes und bei Nicht- Auffinden des STN eine Ableitung weiterer der fünf möglichen Trajekte sowie eine Teststimulation am wachen Patienten durchgeführt. Der Verlauf wurde mit einem Follow-up von einem Jahr postoperativ im Hinblick auf die motorische Untersuchung (UPDRS III) sowie das Auftreten von stimulations- oder operationsbedingten Nebenwirkungen untersucht. Ergebnisse: Es ergab sich eine signifikant geringere Lateralität des Zielpunktes (11,09/ -11,17mm) im Vergleich zu den Standardkoordinaten (12/-12mm). Dennoch wurde in 74% links und 68% rechts mit dem zentralen Trajekt ein typisches STN-Signal abgeleitet. Die Ableitung von weiteren Trajekten nach frustraner zentraler Ableitung führte zwar im Einzelfall, nicht aber systematisch zu einer besseren Effektivität der elektrophysiologischen Zielpunktbestimmung. Der Trajektorienwinkel hatte im untersuchten Kollektiv keinen Einfluss auf intraoperative Nebenwirkungen bei der Teststimulation oder postoperativ aufgetretene, insbesondere psychopathologische Veränderungen. Insgesamt ergab sich eine signifikante Besserung im UPDRS III um durchschnittlich 34,3 Punkte im medikamentösen Off postoperativ. Schlussfolgerungen: Ein im Vergleich zu älteren Planungsmethoden im MRT eher medial-dorsal im STN geplanter Zielpunkt führt zu einem intraoperativ erfolgreichen Auffinden des STN und zur Ableitung des charakteristischen Signals vor Erreichen des endgültigen Zielpunktes. Bei Platzierung der endgültigen vierpoligen Stimulationselektrode mit dem untersten Pol am geplanten Zielpunkt wird der STN in grösst möglicher Ausdehnung erreicht, was auch das positive Outcome ein Jahr postoperativ bestätigt. Die intraoperative Mikroableitung eines zentralen Trajektes ist ausreichend zur Verifizierung des Zielpunktes im STN und insbesondere relevant zur Anzeige einer Fehllage, die z.B. durch einen „brain shift“ bedingt sein kann. Somit ist im Sinne einer Zeitersparnis bezüglich der Operationsdauer und einer Risikominimierung bezüglich intraoperativer Komplikationen die Verwendung zunächst eines Trajektes dem Ableiten von fünf parallelen Elektroden vorzuziehen. Im untersuchten Kollektiv besteht kein Zusammenhang zwischen dem Zugangswinkel und der Effektivität der Operation oder dem Auftreten von Nebenwirkungen, genaueren Prüfung des multifaktoriellen Zusammenspiels weiterer kontrollierter Studien bedarf.

Published

2012

7. Effect Transformation of the Micro Electrode Recording (MER) Data to Fast Fourier Transform (FFT) for the Main Target Nucleus Determination for STN-DBS

Author

Hakan Ekmekçi, Hulagu Kaptan, and Murat Ayaz

Subjects

subthalamic nucleus, Deep brain stimulation, business.industry, medicine.medical_treatment, Fast Fourier transform, Case Report, fast fourier transform, General Medicine, nervous system diseases, deep brain stimulation, micro electrode recording, Subthalamic nucleus, surgical procedures, operative, nervous system, Hemorrhagic complication, Hand tremor, Micro electrode, Parkinson’s disease, Medicine, Surgical treatment, business, Biomedical engineering

Abstract

Introduction: Advanced PD stimulation of the STN reduces tremor, rigidity, and bradykinesia. Due to hemorrhagic complications the use of micro electrode recordings during DBS operation was still questioning for some of surgeons. But use micro electrodes were still the best choice for the positioning during surgery of DBS. Aim: The aim of the current study was to investigate the effect transformation of the micro electrode recording data to fast fourier transform for the main target nucleus determination. This process needs a multidisciplinary approach from neurosurgery, neurology and specialists on electrophysiology such as biophysics. Case report: We present the case of a 63 year-old male with medically intractable PD is focused on behalf of the surgical treatment. Patient had a 4-year history of progressively severe hand tremor on right side. The patient was successfully treated unilaterally with the STN DBS.

Published

2014

8. Effect Transformation of the Micro Electrode Recording (MER) Data to Fast Fourier Transform (FFT) for the Main Target Nucleus Determination for STN-DBS.

Author

Kaptan H, Ayaz M, and Ekmekçi H

Abstract

Introduction: Advanced PD stimulation of the STN reduces tremor, rigidity, and bradykinesia. Due to hemorrhagic complications the use of micro electrode recordings during DBS operation was still questioning for some of surgeons. But use micro electrodes were still the best choice for the positioning during surgery of DBS., Aim: The aim of the current study was to investigate the effect transformation of the micro electrode recording data to fast fourier transform for the main target nucleus determination. This process needs a multidisciplinary approach from neurosurgery, neurology and specialists on electrophysiology such as biophysics., Case Report: We present the case of a 63 year-old male with medically intractable PD is focused on behalf of the surgical treatment. Patient had a 4-year history of progressively severe hand tremor on right side. The patient was successfully treated unilaterally with the STN DBS.

Published

2014