Means and method for the placement of brain electrodes
First Claim
1. A system for electrically connecting an implantable control module to brain electrodes, the system comprising:
- at least one brain electrode adapted to be placed onto, within or in close proximity to the brain;
a control module adapted to be implanted within a human subject; and
an electrical wire joining each of the at least one electrodes to the control module, the electrical wire having a proximal portion, a distal portion and a distal end, the proximal portion being generally straight and the distal portion being formed into a helical coil, and the distal end of the electrical wire being attached to the brain electrode.
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Accused Products
Abstract
Disclosed are a means and a method for the placement of insulated electrical wires beneath the human scalp in such a way that they will experience no flexing after implantation thus disallowing wire breakage. Specifically, this intracranial system uses wires to connect a control module containing various electronic systems to brain electrodes. These wires are placed in grooves that are made by a surgeon in an outer portion of the patient'"'"'s cranium by means of a specially shaped burr rotated at high speed by means of a router. At the end of the groove, the surgeon would drill a burr hole in the cranium at the site where a brain electrode is to be placed. A distal portion of each electrical wire would be in the form of a helical coil; one helical coil would be placed in each burr hole. The grooves and burr holes could be filled with an adhesive filler type of material to form a smooth outer surface for the cranium. Also, a special cap could be placed over the burr hole. The function of the cap would be to form a smooth outer surface for the cranium. The electrodes at the end of the wires could be placed at various locations such as deep into the brain, on the brain surface, or in close proximity to the brain.
362 Citations
11 Claims
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1. A system for electrically connecting an implantable control module to brain electrodes, the system comprising:
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at least one brain electrode adapted to be placed onto, within or in close proximity to the brain; a control module adapted to be implanted within a human subject; and an electrical wire joining each of the at least one electrodes to the control module, the electrical wire having a proximal portion, a distal portion and a distal end, the proximal portion being generally straight and the distal portion being formed into a helical coil, and the distal end of the electrical wire being attached to the brain electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for the placement of brain electrodes beneath the scalp of a human patient, the method comprising:
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(a) performing a surgical procedure to expose the cranium, (b) removing bone from the cranium to form a hole into which a control module with attached wires can be placed, (c) drilling one or more burr holes in the cranium at the site(s) where a brain electrode is to be implanted, (d) using a router to form one or more grooves in the cranium, which grooves connect the control module hole to each burr hole, (e) placing a control module with fixed lengths of wires into the hole in the cranium formed for the control module, at least some of the wires having a brain electrode located at the wire'"'"'s distal end, (f) placing one wire into each of the grooves formed by the router, (g) placing a distal portion of each wire into a burr hole, the distal portion of the wire being in the form of a helical coil, (h) placing each brain electrode at an appropriate location. - View Dependent Claims (9, 10, 11)
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Specification