Sphenoidal electrode and insertion method
First Claim
1. In an apparatus for insertion of a sphenoidal wire electrode of the type having a hollow needle with a slant-tip and an opposite grip end and the wire inside the needle, the improvement comprising:
- the wire having a turned-back distal portion which is beside the needle and terminates forwardly along the slant-tip;
the wire being a sole wire whereby electrical brain impulses are received in well-defined unambiguous electrical signals;
the wire having a diameter of about 0.20-0.30 mm such that it is of sufficient size for pickup of electrical brain impulses in the sphenoidal area;
the wire being of a metal selected from the class consisting of silver, platinum and gold such that despite its size it is sufficiently malleable to unfold and straighten upon an initial pulling of the wire from the tissue without damaging tissue during its removal; and
the wire being free within the needle for coaxial movement with respect thereto and extending away from the distal end to beyond the grip end of the needle for electrical attachment.
1 Assignment
0 Petitions
Accused Products
Abstract
An improved apparatus and method for insertion of a sphenoidal wire electrode. The apparatus includes a needle (22) carrying a wire (24) having a turned-back distal portion (34) beside the needle and terminating forwardly along the slant-tip (28). The method includes positioning the wire in the needle with such turned-back distal portion as described, inserting the needle and wire, engaging the tissue with the turned-back portion to resist unintended relocation during needle withdrawal and the subsequent test period, and unfolding the turned-back portion of the wire to straighten it by initial pulling of the wire after the test period.
689 Citations
6 Claims
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1. In an apparatus for insertion of a sphenoidal wire electrode of the type having a hollow needle with a slant-tip and an opposite grip end and the wire inside the needle, the improvement comprising:
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the wire having a turned-back distal portion which is beside the needle and terminates forwardly along the slant-tip; the wire being a sole wire whereby electrical brain impulses are received in well-defined unambiguous electrical signals; the wire having a diameter of about 0.20-0.30 mm such that it is of sufficient size for pickup of electrical brain impulses in the sphenoidal area; the wire being of a metal selected from the class consisting of silver, platinum and gold such that despite its size it is sufficiently malleable to unfold and straighten upon an initial pulling of the wire from the tissue without damaging tissue during its removal; and the wire being free within the needle for coaxial movement with respect thereto and extending away from the distal end to beyond the grip end of the needle for electrical attachment. - View Dependent Claims (2)
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3. In a method for manipulating a sphenoidal wire electrode of the type including the pre-test steps of inserting into the tissue a hollow needle containing the wire and withdrawing the needle along the wire and the post-test step of pulling the wire out of the tissue, the needle having a slant-tip and a grip end, the improvement comprising:
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positioning the wire in the needle with a turned-back distal portion of the wire beside the needle and terminating forwardly along the slant-tip, said wire; being a sole wire whereby electrical brain impulses are received in well-defined unambiguous electrical signals for accurate eleptogenic mapping, having a diameter of about 0.20-0.30 mm such that it is of sufficient size for pickup of electrical brain impulses in the sphenoidal area, and being free within the needle for coaxial movement with respect thereto and extending away from the distal end to beyond the grip end of the needle for electrical attachment; inserting the needle with positioned wire into the sphenoidal tissue until the slant-tip is properly located in position near the brain; engaging the sphenoidal tissue with the turned-back portion to resist unintended relocation during withdrawal of the needle and the subsequent test period; and unfolding the turned-back portion of the wire to straighten it by initial pulling of the wire from the tissue after the test period and then completing removal of the straightened wire, said wire being of a metal selected from the class consisting of silver, platinum and gold such that despite its size it is sufficiently malleable to unfold and straighten upon an initial pulling of the wire from the tissue without damaging tissue during its removal. - View Dependent Claims (4)
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5. In a method for manipulating a sphenoidal wire electrode including the pre-test steps of inserting into the tissue a hollow needle with the wire and withdrawing the needle along the wire and the post-test step of pulling the wire out of the tissue, the needle having a grip end and an opposite slant-tip with proximal and distal edges, the improvement comprising:
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positioning the wire along the needle with a main portion and a turned-back distal portion of the wire on opposite sides of the slant-tip proximal edge, said portions terminating forwardly in a bend in contact with the slant-tip proximal edge, one of said portions being within the needle, said wire; being a sole wire whereby electrical brain impulses are received in well-defined unambiguous electrical signals for accurate eleptogenic mapping, having a diameter of about 0.20-0.30 mm such that it is of sufficient size for pickup of electrical brain impulses in the sphenoidal area, and being free within the needle for coaxial movement with respect thereto and extending away from the distal end to beyond the grip end of the needle for electrical attachment; inserting the needle with positioned wire into the sphenoidal tissue until the slant-tip is properly located in position near the brain; engaging the sphenoidal tissue with the turned-back portion to resist unintended relocation during withdrawal of the needle and the subsequent test period; and unfolding the turned-back portion of the wire to straighten it by initial pulling of the wire from the tissue after the test period and then completing removal of the straightened wire, said wire being of a metal selected from the class consisting of silver, platinum and gold such that despite its size it is sufficiently malleable to unfold and straighten upon an initial pulling of the wire from the tissue without damaging tissue during its removal. - View Dependent Claims (6)
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Specification