Danny Banks

Neural Engineering - recent papers

March 2002

MD Serruya et al., Instant Neural Control of a Movement Signal, Nature, 416 (14 March), 2002, p 141-142.

A Welle & E Gottwald, UV-Based Patterning of Polymeric Substrates for Cell Culture Applications, Biomed. Microdevices, 4 (1), 2002, p 33-41.

T Nyberg et al., Polymer Hydrogel Microelectrodes for Neural Communication, Biomed. Microdevices, 4 (1), 2002, p 43-52.

PM George et al., Fabrication of Screen-Printed Carbon Electrode Arrays for Sensing Neuronal Messengers, Biomed. Microdevices, 3 (4), 2001, p 307-313.

TW Schneider et al., Surface Patterning and Adhesion of Neuroblastoma X Glioma (NG108-15) Cells, Biomed. Microdevices, 3 (4), 2001, p 315-322.

August 2001

DL Zealear et al., The Biocompatibility, Integrity, and Positional Stability of an Injectable Microstimulator for Reanimation of the Paralyzed Larynx, IEEE TBME, 48 (8), 2001, p 890-897.

Q Bai & KD Wise, Single-Unit Neural Recording with Active Microelectrode Arrays, IEEE TBME, 48 (8), 2001, p 911-920.

L Lauer et al., Aligned Microcontact Printing of Biomolecules on Microelectronic Device Surfaces, IEEE TBME, 48 (7), 2001, p 838-842.

P Mohseni et al., An Ultralight Biotelemetry Backpack for Recording EMG Signals in Moths, IEEE TBME, 48 (6), 2001, p 734-737.

M Stelzle et al., Electricaal Properties of Micro-Photodiode Arrays for Use as Artificial Retina Implant, Biomed. Microdevices, 3 (2), 2001, p 133-142.

May 2001

PJ Rousche et al., Flexible Polyimide-Based Intracortical Electrode Arrays with Bioactive Capability, IEEE TBME, 48 (3), 2001, p 361-371.

B Ziaie et al., A Self-Oscillating, Detuning-Insensitive Class-E Transmitter for Implantable Microsystems, IEEE TBME, 48 (3), 2001, p 397-400.

GJ Suaning & NH Lovell, CMOS Neurostimulation ASIC with 100 Channels, Scaleable Output and Bidirectional Radio-Frequency Telemetry, IEEE TBME, 48 (2), 2001, p 248-260.

February 2001

JC Chang et al., Microelectrode Array Recordings of Patterned Hippocampal Neurons for Four Weeks, Biomed. Microdevices, 2 (4), 2000, 245-253.

RA Venkateswar et al., An Electrophoretic Method for Microstamping Biomelecule Gradients, Biomed. Microdevices, 2 (4), 2000, 255-264.

T Stieglitz et al., Micromachined, Polyimide-Based Devices for Flexible Neural Interfaces, Biomed. Microdevices, 2 (4), 2000, 283-294.

January 2001

TG Ruardij et al., Adhesion and Patterning of Cortical Neurons on Polyethylenimine- and Fluorocarbon-Coated Surfaces, IEEE TBME, 47 (12), 2000, 1593-1599.

JR Buitenweg et al., Finite Element Modeling of the Neuron-Electrode Interface, IEEE EMB Magazine, 19 (6), 2000, 46-52.

August 2000

TH Yoon et al. A Micromachined Silicon Depth Probe for Multichannel Neural Recording, IEEE TBME, 47 (8), 2000, 1082-1087.

KH Kim & SJ Kim. Noise Performance Design of CMOS Preamplifier for the Active Semiconductor Neural Probe, IEEE TBME, 47 (8), 2000, 1088-1105.

WJ Parak et al. Can the Light-Addressable Potentiometric Sensor (LAPS) Detect Extracellular Potentials of Cardiac Myocytes ?, IEEE TBME, 47 (8), 2000, 1106-1113.

July 2000

JC Eason & RA Malkin. A Simulation Study Evaluating the Performance of High-Density Electrode Arrays on Myocardial Tissue, IEEE TBME, 47 (7), 2000, 893-901.

JD Weiland & DJ Anderson. Chronic Neural Stimulation with Thin-Film, Iridium Oxide Electrodes, IEEE TBME, 47 (7), 2000, 911-918.

KH Kim & SJ Kim. Noise Characteristic Design of CMOS Source Follower and Voltage Amplifier for Active Semiconductor Neural Signal Recording, MBEC, 38 (4), 2000, 469-472.

A Stett et al. Electrical Multisite Stimulation of the Isolated Chicken Retina, Vision Research, 40, 2000, 1785-1795.

S Weiss et al. Analysis of Field Potentials and Spike Patterns Evoked by Local Electrical Stimulation of the Chicken Retina, in: Retinal Degenerative Diseases and Experimantal Therapy, Hollyfield et al. (eds.), Kulwer Academic / Plenum Publishers, 1999, 407-416.

S Parrini et al. Modelling Analysis of Human Optic Nerve Fibre Excitation Based on Experimental Data, MBEC, 38 (4), 2000, 454-464.

LNS Andreasen,et al. Measurement of the Performance of Nerve Cuff Electrodes for Recording, MBEC, 38 (4), 2000, 447-453.

AG Richardson et al. Modelling the Effects of Electric Fields on Nerve Fibres: Influence of the Myelin Sheath, MBEC, 38 (4), 2000, 438-446.

ET McAdams & J Jossinet. Nonlinear Transient Response of Electrode-Electrolyte Interfaces, MBEC, 38 (4), 2000, 427-432.

June 2000

I Papautsky et al., Micromachined Pipette Arrays, IEEE TBME, 47 (6), 2000, 812-819.

May 2000

Q Bai et al., A High-Yield Microassembly Structure for Three-Dimensional Microelectrode Arrays, IEEE TBME, 47 (3), 2000, 281-289.

DW Branch et al., Long-Term Maintenance of Patterns of Hippocampal Pyramidal Cells on Substrates of Polyethylene Glycol and Microstamped Polylysine, IEEE TBME, 47 (3), 2000, 290-300.

G Ensell et al., Silicon-Based Microelectrodes for Neurophysiology, Micromachined from Silicon-on-Insulator Wafers, MBEC, 38 (2), 2000, 175-179.

B Schlosshauer et al., Towards a Retina Prosthesis Model: Neurons on Microphotodiode Arrays in Vitro, B. Microdevices, 2 (1), 1999, 61-72.

Other items of interest

C Veraart, C Raftopoulos, JT Mortimer, J Delbeke, D Pins, G Michaux, A Vanlierde, S Parrini, M-C Wanet-Defalque. Visual Sensations Produced by Optic Nerve Stimulation using an Implanted Self-Sizing Spiral Cuff Electrode, Brain Research, 813, 1998, p 181-186.

August 2000
Optobionics / UIC Medical Center / Central DuPage Hospital have reported clinical trials of a sub-retinal prosthesis (June 30, 2000). Go to the Optobionics web site.

The EU has been running a public consultation on whether to open a proactive initiative on bionics. Look at www.cordis.lu/ist/fetbi.htm. I'm afraid it closed on 15th July - but I didn't find out about it until recently. It should still be of interest, though.

January 2000
There has been some exciting news regarding visual prostheses from the Dobelle Institute. You can find details on their web site: http://www.dobelle.com/