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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

ELECTROPHYSIOLOGY OF BASAL GANGLIA (BG) CIRCUITRY AND DYSTONIA AS A MODEL OF MOTOR CONTROL DYSFUNCTION

Kumbhare, Deepak 01 January 2016 (has links)
The basal ganglia (BG) is a complex set of heavily interconnected nuclei located in the central part of the brain that receives inputs from the several areas of the cortex and projects via the thalamus back to the prefrontal and motor cortical areas. Despite playing a significant part in multiple brain functions, the physiology of the BG and associated disorders like dystonia remain poorly understood. Dystonia is a devastating condition characterized by ineffective, twisting movements, prolonged co-contractions and contorted postures. Evidences suggest that it occurs due to abnormal discharge patterning in BG-thalamocortocal (BGTC) circuitry. The central purpose of this study was to understand the electrophysiology of BGTC circuitry and its role in motor control and dystonia. Toward this goal, an advanced multi-target multi-unit recording and analysis system was utilized, which allows simultaneous collection and analysis of multiple neuronal units from multiple brain nuclei. Over the cause of this work, neuronal data from the globus pallidus (GP), subthalamic nucleus (STN), entopenduncular nucleus (EP), pallidal receiving thalamus (VL) and motor cortex (MC) was collected from normal, lesioned and dystonic rats under awake, head restrained conditions. The results have shown that the neuronal population in BG nuclei (GP, STN and EP) were characterized by a dichotomy of firing patterns in normal rats which remains preserved in dystonic rats. Unlike normals, neurons in dystonic rat exhibit reduced mean firing rate, increased irregularity and burstiness at resting state. The chaotic changes that occurs in BG leads to inadequate hyperpolarization levels within the VL thalamic neurons resulting in a shift from the normal bursting mode to an abnormal tonic firing pattern. During movement, the dystonic EP generates abnormally synchronized and elongated burst duration which further corrupts the VL motor signals. It was finally concluded that the loss of specificity and temporal misalignment between motor neurons leads to corrupted signaling to the muscles resulting in dystonic behavior. Furthermore, this study reveals the importance of EP output in controlling firing modes occurring in the VL thalamus.
2

SiC-C Composite Microelectrode for Biomedical Applications

Singh, Sherjang 04 April 2007 (has links)
No description available.
3

Elaboration, characterisation and applications of porous electrodes / Elaboration, caractérisation et applications d'électrodes poreuses

Heim, Matthias 05 December 2011 (has links)
Dans ce travail des électrodes macro- et mesoporeuses hautement organisées ont été fabriquées grâce à l' électrodéposition dans différents types de template. Des cristaux colloïdaux obtenus par la technique de Langmuir-Blodgett ont été infiltrés par des métaux ou des polymères conducteurs en utilisant l'électrodéposition potentiostatique suivi par la dissolution du template. La taille des pores, ainsi que l'épaisseur du film macroporeux pouvaient être contrôlée respectivement par le diamètre des billes de silice et par des oscillations temporelles du courant. Différentes superstructures colloïdales ont également été produites menant à des électrodes avec des défauts artificiels ou des gradients bien définis en termes de taille des pores. Des couches alternantes de différents métaux ont été déposées avec grande précision dans une monocouche de particules entrainant une modification des propriétés optiques du matériau. La miniaturisation a pu être démontrée par l'élaboration des microcylindres d'or macroporeux qui disposent non seulement d'une plus grande surface active mais aussi d'une plus grande activité catalytique envers la réduction de l'oxygène en comparaison avec leurs homologues non poreux. Dans ce même contexte une cellule électrochimique miniaturisée composé de deux électrodes macroporeuses a été proposée. Par ailleurs du platine mesoporeux a été électrodéposé en présence d`un template de type cristaux liquides lyotropes sur des réseaux de microélectrodes. Grâce à une plus grande surface active par rapport à leurs homologues non poreux des microélectrodes mesoporeuses ont montré une meilleure performance dans l'enregistrement de l' activité neuronale due à un niveau de bruit plus faible. / In the present work template-assisted electrodeposition was used to produce highly ordered macro- and mesoporous electrodes. Colloidal crystals obtained by the Langmuir-Blodgett (LB) technique were infiltrated using potentiostatic electrodeposition of metals and conducting polymers followed by removal of the inorganic template. In the resulting macroporous electrodes, the pore diameter was controlled by the size of the silica spheres, while the thickness could be controlled by temporal current oscillations caused by a periodic change of the electroactive area in the template. Various colloidal superstructures were produced in this way leading to electrodes with on purpose integrated planar defects or well-defined gradients in terms of pore size. Furthermore we showed that alternating multilayers of different metals could be deposited with high accuracy into a colloidal monolayer altering the optical properties of the material. Successful miniaturization of the process was demonstrated by elaborating macroporous gold microcylinders showing besides higher active surface areas also increased catalytic activity towards the reduction of oxygen compared to their flat homologues. In this context a miniaturized electrochemical cell composed of two macroporous gold electrodes was also proposed. Finally, mesoporous platinum films were deposited on microelectrode arrays (MEAs) using lyotropic liquid crystals as templates. The increased surface area of mesoporous compared to smooth electrodes led to improved performance in the recording of neuronal activity with MEAs owing to a reduced noise level.

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