Method of fabricating a multichannel electrode
First Claim
1. A method of fabricating a multichannel electrode, said method comprising the steps of:
- a) providing a first non-planar backbone comprising a lumen;
b) coating said non-planar backbone with an electrically conductive material;
c) laser micro-machining a plurality of channels into said electrically conductive material;
d) providing a second non-planar backbone within said lumen of said first non-planar backbone, said second non-planar backbone coated with an electrically conductive material and comprising a plurality of electrode channels machined thereon;
wherein at least one channel of said multichannel electrode comprises an impedance suitable for recording electrical activity of a cell, and wherein at least one channel comprises an impedance suitable for stimulating the electrical activity of a cell; and
(e) placing said second backbone within said lumen of said first backbone.
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Abstract
The invention provides a multichannel electrode (“MC electrode”) which can perform multiple functions such as recording, stimulating and lesioning simultaneously or sequentially upon a single insertion into a target site. In one aspect, the MC electrode further provides imaging and drug delivery capabilities. The invention also provides interface connectors for connecting the MC electrode to external units such as data acquisition and/or stimulation systems. Although the MC electrode and associated connectors and system(s) provide an optimal way to perform deep brain surgical procedures, the MC electrode and associated connectors and system(s) are useful generally in any technique which relies on recording, activating, and/or inhibiting electrical signals produced by cells.
69 Citations
5 Claims
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1. A method of fabricating a multichannel electrode, said method comprising the steps of:
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a) providing a first non-planar backbone comprising a lumen; b) coating said non-planar backbone with an electrically conductive material; c) laser micro-machining a plurality of channels into said electrically conductive material; d) providing a second non-planar backbone within said lumen of said first non-planar backbone, said second non-planar backbone coated with an electrically conductive material and comprising a plurality of electrode channels machined thereon;
wherein at least one channel of said multichannel electrode comprises an impedance suitable for recording electrical activity of a cell, and wherein at least one channel comprises an impedance suitable for stimulating the electrical activity of a cell; and(e) placing said second backbone within said lumen of said first backbone. - View Dependent Claims (3, 4, 5)
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2. A method of fabricating a multichannel electrode, said method comprising the steps of:
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a) providing a first non-planar backbone comprising a lumen; b) coating said non-planar backbone with an electrically conductive material; c) laser micro-machining a plurality of channels into said electrically conductive material; d) providing a second non-planar backbone comprising a lumen within said lumen of said first non-planar backbone, said second non-planar backbone coated with an electrically conductive material and comprising a plurality of electrode channels machined thereon;
wherein at least one channel of said multichannel electrode comprises an impedance suitable for recording electrical activity of a cell, and wherein at least one channel comprises an impedance suitable for stimulating the electrical activity of a cell, and/or lesioning a cell; and(e) placing said second backbone within said lumen of said first backbone.
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Specification