Development of Flexible-Based Electrode Array for Spinal Cord Interface

Khaled, Imad M.

Unknown Date

No description available.

Multi-electrode array

Spinal cord

A modular multi electrode array system for electrogenic cell characterisation and cardiotoxicity applications

Flaherty, Olivia M.

January 2012

Multi electrode array (MEA) systems have evolved from custom-made experimental tools, exploited for neural research, into commercially available systems that are used throughout non-invasive electrophysiological study. MEA systems are used in conjunction with cells and tissues from a number of differing organisms (e.g. mice, monkeys, chickens, plants). The development of MEA systems has been incremental over the past 30 years due to constantly changing specific bioscientific requirements in research. As the application of MEA systems continues to diversify contemporary commercial systems are requiring increased levels of sophistication and greater throughput capabilities.

610.28

Models of Visual Processing by the Retina

Real, Esteban

January 2012

The retina contains neural circuits that carry out computations as complex as object motion sensing, pattern recognition, and position anticipation. Models of some of these circuits have been recently discovered. A remarkable outcome of these efforts is that all such models can be constructed out of a limited set of components such as linear filters, instantaneous nonlinearities, and feedback loops. The present study explores the consequences of assuming that these components can be used to construct models for all retinal circuits. I recorded extracellularly from several retinal ganglion cells while stimulating the photoreceptors with a movie rich in temporal and spatial frequencies. Then I wrote a computer program to fit their responses by searching through large spaces of anatomically reasonable models built from a small set of circuit components. The program considers the input and output of the retinal circuit and learns its behavior without over-fitting, as verified by running the final model against previously unseen data. In other words, the program learns how to imitate the behavior of a live neural circuit and predicts its responses to new stimuli. This technique resulted in new models of retinal circuits that outperform all existing ones when run on complex spatially structured stimuli. The fitted models demonstrate, for example, that for most cells the center--surround structure is achieved in two stages, and that for some cells feedback is more accurately described by two feedback loops rather than one. Moreover, the models are able to make predictions about the behavior of cells buried deep within the retina, and such predictions were verified by independent sharp-electrode recordings. I will present these results, together with a brief collection of ideas and methods for furthering these modeling efforts in the future. / Physics

bipolar cell

channelrhodopsin

electrophysiology

ganglion cell

multi-electrode array

neural circuit

physics

neurosciences

biology

Modulation of ionotropic glutamate receptors in retinal neurons by the amino acid D-serine

Daniels, Bryan

02 March 2011

D-Serine is regarded as an obligatory co-agonist required for the activation of NMDA-type glutamate receptors (NMDARs). In the retina D-serine and a second NMDAR coagonist, glycine, are present at similar concentration and the cells that produce and release them are in close apposition. This arrangement allows for an abundant supply of coagonists and under certain conditions the NMDAR coagonist binding site could be saturated. There is also evidence suggesting that D-serine can act in an inhibitory manner at AMPA/kainate-type glutamate receptors (GluRs). Glutamate receptor activation can lead to direct and indirect elevation of intracellular calcium (Ca2+) concentration ([Ca2+]i). Therefore, in this thesis, I predominantly used Ca2+ imaging techniques to study the effect of D-serine on GluR activation in the mammalian retina. I first describe a novel method I developed to load retinal cells with Ca2+ indicator dye using electroporation and show that retinas remain viable and responsive following electroporation. This technique was used to explore the excitatory role of D-serine at NMDARs and its potential inhibition of AMPA/kainate receptors using cultured retinal ganglion cells (RGCs) and isolated retina preparations. Using cultured RGCs I demonstrated that D-serine and glycine enhance NMDAR-mediated Ca2+ responses in a concentration-dependent manner and are equally effective as coagonists. In isolated retinas I showed that D-serine application enhanced NMDA-induced responses consistent with sub-saturating endogenous coagonist concentration. Degradation of endogenous D-serine reduced NMDAR-mediated Ca2+ responses supporting the contribution of this coagonist to NMDAR activation in the retina. Using imaging and two different electrophysiological approaches, I found that D-serine reduced AMPA/kainate receptor-mediated responses in cultured RGCs and isolated retinas at concentrations that are saturating at NMDARs. Antagonist experiments suggest that the majority of inhibition is due to D-serine acting on AMPA receptor activity. Degradation of endogenous D-serine enhanced AMPA/kainate-induced responses of some cells in isolated retina suggesting that, under these conditions, D-serine concentration may be sufficient to inhibit AMPA receptor activity. Overall, the work in this thesis illustrates the utility of electroporation as a method to load Ca2+-sensitive fluorescent dyes into retinal cells and highlights the potential role for D-serine as a modulator of ionotropic GluRs in the CNS.

retinal ganglion cells

calcium imaging

patch clamp

multi electrode array

NMDA

AMPA

kainate

Transparent semiconducting oxides for active multi-electrode arrays / Transparente halbleitende Oxide für aktive Multielektrodenarrays

Klüpfel, Fabian

23 March 2015

Die vorliegende Arbeit befasst sich mit der Anwendbarkeit von transparenter Elektronik basierend auf oxidischen Halbleitern in Multielektrodenarrays zur Messung von neuronalen Signalen. Im ersten experimentellen Kapitel werden auf Zinkoxid basierende Bauelemente untersucht. Verschiedene Varianten von Feldeffekttransistoren (FETs) werden charakterisiert und ihre Eignung zur Detektion von Zellsignalen überprüft. Die Anwendbarkeit physikalischer Modelle zur Beschreibung von ZnO-basierten Metal-Halbleiter-FETs (MESFETs) wird behandelt. Weiterhin wird die Eignung von einfachen Inverterschaltungen zur Spannungsverstärkung diskutiert. Das zweite Kapitel thematisiert Rauschmessungen an unterschiedlichen ZnO-basierten Proben, darunter Dünnfilme, Mikronadeln, MESFETs und Inverter. Darauf aufbauend wird die Auswirkung des gemessenen Stromrauschens auf die Sensitivität der Bauelemente nachvollzogen und theoretisch modelliert. Im dritten Kapitel wird das Verhalten der Bauelemente im Kontakt mit Elektolyt beschrieben. Die Signalübertragung von Spannungsänderungen im Elektrolyt auf die Chipelektronik wird mit verschiedenen Messmethoden charakterisiert. Dabei kommt teilweise ein selbstgebauter Vorverstärker zum Einsatz, dessen Aufbau ebenfalls beschrieben wird. Die Stabilität der verwendeten Materialien in physiologischen Salzlösungen und ihre Biokompatibilität wird überprüft. Darüber hinaus werden FETs mit Elektrolytgate und Zinkzinnoxid-Kanal vorgestellt.

ZnO

FET

Rauschen

Multielektrodenarray

ZnO

FET

Noise

multi-electrode array

ddc:530

Modelling and Characterization of Laterally-Coupled Distributed Feedback Laser and Semiconductor Optical Amplifier

Nkanta, Julie Efiok

January 2016

There is an increasing need for tuneable spectrally pure semiconductor laser sources as well as broadband and polarization insensitive semiconductor optical amplifiers based on the InGaASP/InP material system, to be monolithically integrated with other active and passive components in a photonic integrated circuit. This thesis aims to contribute to finding a solution through modelling, experimental characterization and design improvements. In this thesis we have analyzed laterally-coupled distributed feedback (LC-DFB) lasers. These lasers have the gratings etched directly out of the ridge sidewalls thus lowering the cost associated with the re-growth process required if the gratings were otherwise embedded above the active region. The performance characteristics are analyzed for the LC-DFB lasers partitioned into 1-, 2-, and 3-, electrodes with individual bias control at various operating temperatures. The laser exhibits a stable single mode emission at 1560 nm with a current tuning rate of ~14 pm/mA for a tuning of 2.25 nm. The side modes are highly suppressed with a maximum side-mode suppression ratio of 58 dB. The light-current characteristics show a minimum 40 mA threshold current, and power saturation occurring at higher injection currents. The linewidth characteristics show a minimum Lorentzian linewidth of 210 kHz under free-running and further linewidth reduction under feedback operation. The multi-electrode LC-DFB laser devices under appropriate and selective driving conditions exhibit a flat frequency modulation response from 0 to above 300 MHz. The multi-electrode configuration can thus be further exploited for certain requirements. Simulation results and design improvements are also presented. The experimental characterization of semiconductor optical amplifier (SOA) and Fabry-Perot (FP) laser operating in the E-band are also presented. For the SOA, the linear vertical and horizontal states of polarization corresponding to the transverse electric (TE) and transverse magnetic (TM) modes were considered. For various input power and bias, performance characteristics shows a peak gain of 21 dBm at 1360 nm, gain bandwidth of 60 nm and polarization sensitivity of under 3 dB obtained for the entire wavelength range analyzed from 1340 to 1440 nm. The analysis presented in this thesis show good results with room for improvement in future designs.

Semiconductors

Distributed feedback laser

Semiconductor optical amplifier

Fabry-Perot laser

Photonics

Polarization independence

multi-electrode

laterally_coupled

Phenotype-Based High-Throughput Classification of Long QT Syndrome Subtypes Using Human Induced Pluripotent Stem Cells / ヒト人工多能性幹細胞を利用した、QT延長症候群の表現型に基づくハイスループット判別法

Yoshinaga, Daisuke

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22335号 / 医博第4576号 / 新制||医||1041(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 山下 潤, 教授 岩田 想, 教授 木村 剛 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

long QT syndrome

induced pluripotent stem cell

phenotype-based diagnosis

multi-electrode array

genome editing

490

Acute Effects of the Antibiotic Streptomycin on Neural Network Activity and Pharmacological Responses

Zeng, Wei Rong

12 1900

The purpose of this study is to find out that if antibiotic streptomycin decreases neuronal network activity or affects the pharmacological responses. The experiments in this study were conducted via MEA (multi-electrode array) technology which records neuronal activity from devices that have multiple small electrodes, serve as neural interfaces connecting neurons to electronic circuitry. The result of this study shows that streptomycin lowered the spike production of neuronal network, and also, sensitization was seen when neuronal network pre-exposed to streptomycin.

Streptomycin

antibiotic

multi-electrode array

Streptomycin -- Physiological effect.

Antibiotics -- Physiological effect.

Neural networks (Neurobiology)

Monkey see, monkey touch, monkey do: Influence of visual and tactile input on the fronto-parietal grasping network

Buchwald, Daniela

13 March 2020

No description available.

570

Grasping

Somatosensory cortex

Motor cortex

Parietal cortex

Premotor cortex

macaque monkey

multi-electrode recording

object recognition

Biologie (PPN619462639)

Transparent semiconducting oxides for active multi-electrode arrays

Klüpfel, Fabian

04 February 2015

Die vorliegende Arbeit befasst sich mit der Anwendbarkeit von transparenter Elektronik basierend auf oxidischen Halbleitern in Multielektrodenarrays zur Messung von neuronalen Signalen. Im ersten experimentellen Kapitel werden auf Zinkoxid basierende Bauelemente untersucht. Verschiedene Varianten von Feldeffekttransistoren (FETs) werden charakterisiert und ihre Eignung zur Detektion von Zellsignalen überprüft. Die Anwendbarkeit physikalischer Modelle zur Beschreibung von ZnO-basierten Metal-Halbleiter-FETs (MESFETs) wird behandelt. Weiterhin wird die Eignung von einfachen Inverterschaltungen zur Spannungsverstärkung diskutiert. Das zweite Kapitel thematisiert Rauschmessungen an unterschiedlichen ZnO-basierten Proben, darunter Dünnfilme, Mikronadeln, MESFETs und Inverter. Darauf aufbauend wird die Auswirkung des gemessenen Stromrauschens auf die Sensitivität der Bauelemente nachvollzogen und theoretisch modelliert. Im dritten Kapitel wird das Verhalten der Bauelemente im Kontakt mit Elektolyt beschrieben. Die Signalübertragung von Spannungsänderungen im Elektrolyt auf die Chipelektronik wird mit verschiedenen Messmethoden charakterisiert. Dabei kommt teilweise ein selbstgebauter Vorverstärker zum Einsatz, dessen Aufbau ebenfalls beschrieben wird. Die Stabilität der verwendeten Materialien in physiologischen Salzlösungen und ihre Biokompatibilität wird überprüft. Darüber hinaus werden FETs mit Elektrolytgate und Zinkzinnoxid-Kanal vorgestellt.:1. Introduction 2. Measurement Setup and Sample Fabrication 2.1. Device Fabrication 2.2. Measurement Methods 2.3. Current Amplifier with Offset Compensation 3. Oxide Semiconductor Based Devices 3.1. Theoretical Description 3.2. Thin Films 3.4. Simple Inverter 3.5. Test Circuit for Active Matrix Configurations 4. Noise 4.1. Noise Sources 4.2. Contributions from Measurement Setup 4.3. Homogenous ZnO Samples 4.4. ZnO Based Devices 5. Experiments in Electrolyte and with Cells 5.1. Cell-Transistor Coupling 5.2. Materials in Electrolytical and Biological Environment 5.3. Electrode Arrays with Field-Effect Transistors 5.4. Electrode Arrays with Simple Inverters 5.5. Electrode Arrays with Solution Gated Transistors 6. Conclusion and Outlook Appendices Bibliography Symbols and Abbreviations List of Own and Contributed Articles Acknowledgements

info:eu-repo/classification/ddc/530

ddc:530

ZnO, FET, Rauschen, Multielektrodenarray

ZnO, FET, Noise, multi-electrode array