Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hippocampal Network Analysis Using a Multi-electrode Array (MEA)

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Hippocampal Network Analysis Using a Multi-electrode Array (MEA)"— Presentation transcript:

1 Hippocampal Network Analysis Using a Multi-electrode Array (MEA)
Jonathan Karr April 1, 2004

2 Outline Goal: To create a neuron level map of the dissociated hippocampal network Take correlations between stimulated neurons and all other neurons; Use result to assign unidirectional connection strength Will use spike sorting to connect electrode level to neuron level First lets see if this correlation makes sense by applying it to an artificial network Possible applications Integrating man and machine Understanding and repairing diseases/damages

3 Toy Network – Step I 9 Neurons with first order connections, the magnitude of these connections is specified Any pair of neurons can be connected Model includes parameters for Synaptic delay Refractory Period Length Benefit of model is infinite signal to noise ratio Program generates nine “data” sets, each one corresponding to the “stimulation” of one of the neurons

4 Toy Network – Step II

5 Toy Network – Step III

6 Toy Network

7 Hippocampal Network – Step II

8 Hipppocampal Network – Step III

9

10

11 Spike Sorting Goal is to connect level of electrodes to the level of individual neurons Idea is to attribute spikes to individual neurons by performing convolutions and then look at the correlations between the spike trains of neurons Method requires the assumption no two neurons at one electrode spike with the same shape This requires a low neuron density as well as ten different spike shapes randomly distributed among in the culture.

12

13

14

15 Works Cited  Panasonic. (2003). MED64 Systems - Multichannel Multielectrode Array Systems for In-vitro Electro-physiology. Retrieved March 27, 2004, from Eversmann B., Jenker M., Hoffman F., et al (2003). A 128x128 CMOS biosensory array for extracellular recording of neural activity. IEEE Journal of Solid State Circuits. 38 (12): McAllen R.M. and Trevaks D. (2003). Are pre-ganglionic neurones recruited in a set order? Acta Physiologica Scandinavica. 177(3): Kerman I.A., Yates B.J., and McAllen R.M. (2000). Anatomic patterning in the expression of vestibulosympathetic reflexes. American Journal of Physiology. Regulatory, Integrative, and Comparative Physiology. 279 (1):R109-R117. Cambridge Electronic Design. (2003). Spike2, Version 5. Retrieved March 27, 2004, from Lewicki M.S. (1998). A review of methods for spike sorting: the detection and classification of neural action potentials. Computational Neural Systems. 9: R53-R78. Bierer S.M. and Anderson D.J. (1999). Multi-channel spike detection and sorting using an array processing technique. Neurocomputing : Fee M.S., Mitra P.P., and Kleinfeld D. (1996). Automatic sorting of multiple neuronal signals in the presence of anisotropic and non-Gaussian variability. Journal of Neuroscience Methods. 69: Heitler W.J. (2004). Dataview. Retreived March 27, 2004 from

Download ppt "Hippocampal Network Analysis Using a Multi-electrode Array (MEA)"

Similar presentations

PS4529/30 Applications of Cognitive Neuroscience.

PS4529/30 Applications of Cognitive Neuroscience.
Maps of the Mind Memory and Cognition Lecture 9

Maps of the Mind Memory and Cognition Lecture 9
What is the neural code? Puchalla et al., 2003. What is the neural code? Encoding: how does a stimulus cause the pattern of responses? what are the responses.

What is the neural code? Puchalla et al., What is the neural code? Encoding: how does a stimulus cause the pattern of responses? what are the responses.
Gentle Introduction to Infinite Gaussian Mixture Modeling

Gentle Introduction to Infinite Gaussian Mixture Modeling
Neural Network I Week 7 1. Team Homework Assignment #9 Read pp. 327 – 334 and the Week 7 slide. Design a neural network for XOR (Exclusive OR) Explore.

Neural Network I Week 7 1. Team Homework Assignment #9 Read pp. 327 – 334 and the Week 7 slide. Design a neural network for XOR (Exclusive OR) Explore.
William Buchser Neuroscience Journal Club April 28 th 2004 Timing of neural responses in cortical organotypic slices.

William Buchser Neuroscience Journal Club April 28 th 2004 Timing of neural responses in cortical organotypic slices.
Prachi Saraph, Mark Last, and Abraham Kandel. Introduction Black-Box Testing Apply an Input Observe the corresponding output Compare Observed output with.

Prachi Saraph, Mark Last, and Abraham Kandel. Introduction Black-Box Testing Apply an Input Observe the corresponding output Compare Observed output with.
Chapter 4: Local integration 2: Neural correlates of the BOLD signal

Chapter 4: Local integration 2: Neural correlates of the BOLD signal
Electrophysiology of neurons. Some things to remember…

Electrophysiology of neurons. Some things to remember…
CARMEN for the storage and analysis of rich datasets obtained from 60 and 4,096 channels MEA recordings of retinal activity Evelyne Sernagor.

CARMEN for the storage and analysis of rich datasets obtained from 60 and 4,096 channels MEA recordings of retinal activity Evelyne Sernagor.
Spike Train Statistics Sabri IPM. Review of spike train  Extracting information from spike trains  Noisy environment:  in vitro  in vivo  measurement.

Spike Train Statistics Sabri IPM. Review of spike train  Extracting information from spike trains  Noisy environment:  in vitro  in vivo  measurement.
Spike Trains Kenneth D. Harris 3/2/2015. You have recorded one neuron How do you analyse the data? Different types of experiment: Controlled presentation.

Spike Trains Kenneth D. Harris 3/2/2015. You have recorded one neuron How do you analyse the data? Different types of experiment: Controlled presentation.
HST 583 fMRI DATA ANALYSIS AND ACQUISITION Neural Signal Processing for Functional Neuroimaging Emery N. Brown Neuroscience Statistics Research Laboratory.

HST 583 fMRI DATA ANALYSIS AND ACQUISITION Neural Signal Processing for Functional Neuroimaging Emery N. Brown Neuroscience Statistics Research Laboratory.
Neurophysics Part 1: Neural encoding and decoding (Ch 1-4) Stimulus to response (1-2) Response to stimulus, information in spikes (3-4) Part 2: Neurons.

Neurophysics Part 1: Neural encoding and decoding (Ch 1-4) Stimulus to response (1-2) Response to stimulus, information in spikes (3-4) Part 2: Neurons.
Spike Sorting Goal: Extract neural spike trains from MEA electrode data Method 1: Convolution of template spikes Method 2: Sort by spikes features.

Spike Sorting Goal: Extract neural spike trains from MEA electrode data Method 1: Convolution of template spikes Method 2: Sort by spikes features.
Functional Link Network. Support Vector Machines.

Functional Link Network. Support Vector Machines.
The role of spike blocking as spike-timing-dependent plasticity mechanism Eleftheria Kyriaki Pissadaki Computational Biology Laboratory Institute of Molecular.

The role of spike blocking as spike-timing-dependent plasticity mechanism Eleftheria Kyriaki Pissadaki Computational Biology Laboratory Institute of Molecular.
Neural Cross Correlation For Radio Astronomy Chipo N Ngongoni Supervisor: Professor J Tapson Department of Electrical Engineering, University of Cape Town.

Neural Cross Correlation For Radio Astronomy Chipo N Ngongoni Supervisor: Professor J Tapson Department of Electrical Engineering, University of Cape Town.
A computational paradigm for dynamic logic-gates in neuronal activity Sander Vaus 15.10.2014.

A computational paradigm for dynamic logic-gates in neuronal activity Sander Vaus
Part II: Population Models BOOK: Spiking Neuron Models, W. Gerstner and W. Kistler Cambridge University Press, 2002 Chapters 6-9 Laboratory of Computational.

Part II: Population Models BOOK: Spiking Neuron Models, W. Gerstner and W. Kistler Cambridge University Press, 2002 Chapters 6-9 Laboratory of Computational.

Similar presentations

Ads by Google