Deep brain stimulation system for the treatment of Parkinson's Disease or other disorders
First Claim
1. A multichannel deep brain stimulation system (10) comprising:
- an implantable pulse generator (20) having means for generating electrical stimuli comprising a plurality of channels and memory circuits, wherein the memory circuits store at least one program and data;
at least one electrode array (30) connected to said implantable pulse generator, said at least one electrode array having a plurality of electrodes (32);
a rechargeable battery (27) coupled to the implantable pulse generator, a hand-held programmer (50);
a clinician'"'"'s programmer (60);
a manufacturing and diagnostic system (70); and
an external battery charging system (40);
wherein the implantable pulse generator (20) and said at least one electrode array (30) are adapted to be implanted directly in the cranium of a patient; and
wherein the means for generating electrical stimuli comprises control circuits (21, 28, 27) and the memory circuits (22, 24) that cause stimulation pulses having parameters specfied by the at least one program and data stored in the memory circuits to be applied through at least one of the plurality of channels to the electrodes (32) of the at least one electrode array; and
wherein the hand-held programmer (50) is adapted to;
communicate with the implantable pulse generator, allow the patient to monitor and change stimulation parameters, provide a first communication link (46) with the clinician'"'"'s programmer, and provide a second communication link (47) with the manufacturing and diagnostic system, all for the purpose of programming and testing the implantable pulse generator (20); and
wherein the external battery charging system (40) is adapted to be inductively coupled to the rechargeable battery (27) for the purpose of replenishing the power stored within the rechargeable battery.
2 Assignments
0 Petitions
Accused Products
Abstract
A deep brain stimulation (DBS) system (10) provides a multiplicity of stimulation channels through which stimulation may be delivered deep within the brain of the patient. The DBS system is powered by a rechargeable battery (27). In one embodiment, the system has four channels driving sixteen electrodes (32). The DBS system is easily programmed for use by a clinician using a clinician programming system (60), and further affords a simple but highly advanced hand held programmer (50) control interface through which the patient may easily change stimulation parameters within acceptable limits. The DBS system (10) includes a small, implantable pulse generator (20) that is small enough to be implanted directly in the cranium of the patient, thereby eliminating the long lead wires and tunneling procedures that have been used in the past. Further, the DBS system allows up to two electrode arrays (30, 30′) to be attached to the implantable pulse generator (20), thereby eliminating the requirement for implanting two independent implantable pulse generators for bilateral stimulation of deep brain structures.
237 Citations
14 Claims
-
1. A multichannel deep brain stimulation system (10) comprising:
-
an implantable pulse generator (20) having means for generating electrical stimuli comprising a plurality of channels and memory circuits, wherein the memory circuits store at least one program and data;
at least one electrode array (30) connected to said implantable pulse generator, said at least one electrode array having a plurality of electrodes (32);
a rechargeable battery (27) coupled to the implantable pulse generator, a hand-held programmer (50);
a clinician'"'"'s programmer (60);
a manufacturing and diagnostic system (70); and
an external battery charging system (40);
wherein the implantable pulse generator (20) and said at least one electrode array (30) are adapted to be implanted directly in the cranium of a patient; and
wherein the means for generating electrical stimuli comprises control circuits (21, 28, 27) and the memory circuits (22, 24) that cause stimulation pulses having parameters specfied by the at least one program and data stored in the memory circuits to be applied through at least one of the plurality of channels to the electrodes (32) of the at least one electrode array; and
wherein the hand-held programmer (50) is adapted to;
communicate with the implantable pulse generator, allow the patient to monitor and change stimulation parameters, provide a first communication link (46) with the clinician'"'"'s programmer, and provide a second communication link (47) with the manufacturing and diagnostic system, all for the purpose of programming and testing the implantable pulse generator (20); and
wherein the external battery charging system (40) is adapted to be inductively coupled to the rechargeable battery (27) for the purpose of replenishing the power stored within the rechargeable battery. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A multichannel bilateral deep brain stimulation system (10) comprising:
-
an implantable pulse generator (20);
a plurality of electrode arrays (30, 30′
), each of said plurality of electrode arrays having a plurality of electrodes (32) thereon, and each of said plurality of electrode arrays being detachably connected to said implantable pulse generator;
processing means (21, 26, 27) and memory means (22, 24) included within the implantable pulse generator, the memory means comprising memory circuitry wherein at least one stimulation program and data are stored, wherein the implantable pulse generator is adapted to generate and apply stimulation pulses to selected electrodes (32) of the plurality of electrode arrays as defined by the at least one stimulation program and data stored within the memory means;
a hand held programmer (50);
a clinician programmer (60);
a manufacturing and diagnostic system (70);
a rechargeable battery (27) included within the implantable pulse generator that provides operating power for the implantable pulse generator;
means (50) for non-invasively programming the memory circuitry with the at least one stimulation program and data;
means for providing a first radio frequency (RF) communication link between the implantable pulse generator and the hand held programmer;
means for providing a first infra red communication link between the hand held programmer and the clinician programmer;
means for providing a second infra red communication link between the hand held programmer and the manufacturing and diagnostic system;
means for providing a second RF communication link between the implantable pulse generator and the manufacturing and diagnostic system; and
means (40) for non-invasively recharging the rechargeable battery;
wherein the hand held programmer includes means for allowing the patient to monitor and change the at least one stimulation program and data, and further facilitates communications between the clinician'"'"'s programmer, the manufacturing and diagnostic system and the implantable pulse generator. - View Dependent Claims (10, 11, 12)
-
-
13. A multichannel deep brain stimulation system comprising:
-
a cranium mountable implantable pulse generator including at least one memory circuit;
data stored within the at least one memory circuit;
at least one electrode array adapted to be detachably connected to the implantable pulse generator, the at least one electrode array including two or more electrodes thereon;
a rechargeable battery coupled to the implantable pulse generator;
an external battery charging system;
a hand held programmer;
a clinician'"'"'s programmer;
a manufacturing and diagnostic system;
wherein the implantable pulse generator includes means for generating electrical pulses that are defined by parameters specified by the data stored in the at least one memory circuit;
wherein the hand held programmer includes means for communicating with the implantable pulse generator, and further includes means for allowing a patient to monitor and program at least some of the data stored in the at least one memory circuit;
wherein the hand held programmer further includes means for communicating with the clinician'"'"'s programmer, whereby an operator of the clinician'"'"'s programmer communicates with and programs the implantable pulse generator through an interface provided by the hand held programmer; and
wherein the hand held programmer also includes means for communicating with the manufacturing and diagnostic system, whereby a user of the manufacturing and diagnostic system monitors and communicates with the implantable pulse generator through an interface provided by the hand held programmer. - View Dependent Claims (14)
-
Specification