Intracranial sensing and monitoring device with macro and micro electrodes
First Claim
1. A sensing device for contact with brain tissue comprising:
- a flexible support sleeve having an outer surface and inner surface defining a cavity;
at least one annular macroelectrode sensing element secured with respect to and around the outer surface and having a macroelectrode brain-contact surface;
a lead wire secured to each macroelectrode sensing element and extending into and along the cavity;
at least one microelectrode sensing element secured with respect to the macroelectrode sensing element and having a microelectrode brain-contact surface completely surrounded by the macroelectrode brain-contact surface; and
an insulated micro-wire secured to each microelectrode sensing element and extending into and along the cavity, the micro-wire being insulated along its entire length with a bio-compatible material to prevent electrical interaction between the microelectrode sensing element and the macroelectrode sensing element, the macroelectrode brain-contact surface and the microelectrode brain-contact surface being in substantially the same curved surface to abut brain tissue for monitoring, wherein the microelectrode sensing element is adapted to monitor cellular neuron activity signals within the brain, while the macroelectrode sensing element is adapted to monitor EEG brain activity signals from the brain.
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Accused Products
Abstract
A cortical sensing device for contact with the surface of the brain is provided that includes a support member, at least one macroelectrode sensing element secured with respect to the support member and at least one microelectrode sensing element secured with respect to the macroelectrode. The support member is substantially thin and made from flexibly-conformable material to accurately and safely place the sensing device upon the brain surface. The microelectrode sensing element is surrounded by the macroelectrode brain-contact surface of the macroelectrode sensing element. The first surface of the support member, the macroelectrode brain-contact surface and the microelectrode brain-contact surface are substantially co-planar to abut the surface of the brain for sensoring and monitoring.
27 Citations
6 Claims
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1. A sensing device for contact with brain tissue comprising:
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a flexible support sleeve having an outer surface and inner surface defining a cavity; at least one annular macroelectrode sensing element secured with respect to and around the outer surface and having a macroelectrode brain-contact surface; a lead wire secured to each macroelectrode sensing element and extending into and along the cavity; at least one microelectrode sensing element secured with respect to the macroelectrode sensing element and having a microelectrode brain-contact surface completely surrounded by the macroelectrode brain-contact surface; and an insulated micro-wire secured to each microelectrode sensing element and extending into and along the cavity, the micro-wire being insulated along its entire length with a bio-compatible material to prevent electrical interaction between the microelectrode sensing element and the macroelectrode sensing element, the macroelectrode brain-contact surface and the microelectrode brain-contact surface being in substantially the same curved surface to abut brain tissue for monitoring, wherein the microelectrode sensing element is adapted to monitor cellular neuron activity signals within the brain, while the macroelectrode sensing element is adapted to monitor EEG brain activity signals from the brain. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification