Development of MEA for Cells, Acute Slices, and Cultured Tissues.- A History of MEA Development.- On Micro-Electrode Array Revival: Its Development, Sophistication of Recording, and Stimulation.- Multi-Electrode Arrays: Enhancing Traditional Methods and Enabling Network Physiology.- Development of 3-D Multi-Electrode Arrays for Use with Acute Tissue Slices.- Electrophysiological Monitoring of Hippocampal Slice Cultures Using MEA on Porous Membrane.- Mapping Spatio-Temporal Electrophysiological Activity in Hippocampal Slices with Conformal Planar Multi-Electrode Arrays.- Pattern Technologies for Structuring Neuronal Networks on MEAs.- MEA Applications: Dissociated Cell Cultures.- Emerging Histiotypic Properties of Cultured Neuronal Networks.- Closing the Loop: Stimulation Feedback Systems for Embodied MEA Cultures.- Emerging Network Activity in Dissociated Cultures of Neocortex: Novel Electrophysiological Protocols and Mathematical Modeling.- Analysis of Cardiac Myocyte Activity Dynamics with Micro-Electrode Arrays.- MEA Applications: Acute/Cultured Slices.- A Hippocampal-Based Biosensor for Neurotoxins Detection and Classification Using a Novel Short-Term Plasticity Quantification Method.- The Retinasensor: An In Vitro Tool to Study Drug Effects on Retinal Signaling.- Chronic Alcohol Effects on Hippocampal Neuronal Networks.- Applications of Multi-Electrode Array System in Drug Discovery Using Acute and Cultured Hippocampal Slices.- Rhythm Generation in Spinal Cultures: Is It the Neuron or the Network?.- Monitoring the Clock Neuron's Tick: Circadian Rhythm Analysis Using a Multi-Electrode Array Dish.- Investigation of Network Phenomena in Hippocampal Slices Using Multi-Electrode Recording Arrays.- Exploring Fast Hippocampal Network Oscillations: CombiningMulti-Electrode Recordings with Optical Imaging and Patch-Clamp Techniques.
