Imaging compatible electrode-set for measurement of body electrical signals and methods for fabricating the same using ink-jet printing
First Claim
1. A device for measuring electrical activity from a human or mammalian body part comprising:
- a flexible substrate, said flexible substrate comprising a substantially planar non-electrically conductive material;
a plurality of electrodes disposed on said flexible substrate at a set of predetermined positions physically corresponding to a set of predetermined positions of interest on a body, said electrodes comprising a thin layer of conductive material;
an interface connector attached to said flexible substrate adapted to electrically communicate with an electrical signal measuring device;
a plurality of conductive traces disposed on said flexible substrate, each of said conductive traces electrically connecting one of said electrodes with an interface connector and comprising a thin layer of conductive material;
wherein said conductive traces are spaced on said flexible substrate at a distance from each other that prevents electrical communication between them.
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Accused Products
Abstract
This invention relates to devices and methods for measuring and/or recording electrical signals from a body, particularly to devices and methods for recording electrical signals from a body while inside a medical imaging device, such as magnetic field scanner, such as a magnetic resonance imaging (MRI) scanner, or a computerized tomography (CT) scanner, and more particularly to devices, such as headpieces with electrodes and conductive pathways, and methods for synthesis of conductive inks used to fabricate the devices, such as with inkjet printer technology. Inkjet compatible inks may be utilized that employ nanoparticle solutions or metalorganic decomposition to generate metallic depositions, such as of silver, without sintering or other secondary processing in predetermined, including customized, layouts.
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Citations
20 Claims
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1. A device for measuring electrical activity from a human or mammalian body part comprising:
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a flexible substrate, said flexible substrate comprising a substantially planar non-electrically conductive material; a plurality of electrodes disposed on said flexible substrate at a set of predetermined positions physically corresponding to a set of predetermined positions of interest on a body, said electrodes comprising a thin layer of conductive material; an interface connector attached to said flexible substrate adapted to electrically communicate with an electrical signal measuring device; a plurality of conductive traces disposed on said flexible substrate, each of said conductive traces electrically connecting one of said electrodes with an interface connector and comprising a thin layer of conductive material; wherein said conductive traces are spaced on said flexible substrate at a distance from each other that prevents electrical communication between them. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for fabricating a set of electrodes on a substrate comprising:
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providing a substrate, said substrate being sized and adapted for processing in an inkjet printer; providing an ink formulation, said ink formulation comprising a metal nanoparticle solution (NP) or a metalorganic decomposition formulation (MOD) and being inkjet printing compatible; applying said ink formulation to said substrate by inkjet printing in a formation that comprises a plurality of electrodes at predetermined positions and a plurality of traces connecting said electrodes to an area of said substrate designated for connecting to an electrical signal connector, said traces being spaced on said substrate to prevent electrical contact between them; and activating said ink formulation to produce continuous and conductive metal depositions that form said electrodes and said traces; wherein said continuous and conductive metal depositions form thin layers of metal on said substrate. - View Dependent Claims (12, 13, 14, 15)
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16. A method for fabricating a custom set of electrodes on a substrate comprising:
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determining a set of desired electrode placement locations on a subject by marking three dimensional positions and generating a first data set; projecting said first data set from three dimensional positions to two dimensional positions; generating a layout of electrode and trace positions using said two dimensional positions, said traces connecting said electrodes to an area of a substrate designated for connecting to an electrical signal connector and said traces being spaced on said substrate to prevent electrical contact between them; providing said substrate, said substrate being sized appropriately to encompass said layout and adapted for processing in an inkjet printer; providing an ink formulation, said ink formulation comprising a metal nanoparticle solution (NP) or a metalorganic decomposition formulation (MOD) and being inkjet printing compatible; applying said ink formulation to said substrate by inkjet printing; and activating said ink formulation to produce continuous and conductive metal depositions that form said electrodes and said traces; wherein said continuous and conductive metal depositions form thin layers of metal on said substrate. - View Dependent Claims (17, 18, 19, 20)
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Specification