Parameter context switching for an implanted device
DC CAFCFirst Claim
1. An implant device comprising:
- an implantable case;
electronic circuitry housed within said implantable case for performing a prescribed function, the electronic circuitry including a control register wherein a control set of operational parameters is stored, a controller that controls the operation of the implant device as a function of the control set of operational parameters stored in the control register, and a plurality of sets of operational parameters; and
selection means for selecting one of the plurality of sets of operational parameters as the control set of operational parameters that is stored in the control register;
whereby the operation of the implant device may be changed through selection of a different set of operational parameters.
2 Assignments
Litigations
1 Petition
Accused Products
Abstract
An implant device provides context switching, meaning the ability to change one set of operational parameters for another. The implant device is controlled by a set of operational parameters. The patient may swap the current set of operational parameters with another set of operational parameters. Further, the implant device may include a time-of-day clock, and/or a sensor, and is configured to automatically change its operational parameters from one set of operational parameters to another at certain times of the day, week, or month, or upon the occurrence of certain prescribed events. In one embodiment, the patient may define selected operational parameters within a new set of operational parameters for use with the implant device, providing such patient-defined parameters remain within set limits. The ability to change the current operational parameter set (OPS) is achieved, in a first embodiment, by including memory circuitry within the implant device wherein a plurality of OPS'"'"'s are stored. Upon receipt of an appropriate command, manually provided by the patient user through a hand-help programmer, or automatically generated by time-of-day or sensor circuits within the implant device, the current OPS is exchanged by another OPS. In a second embodiment, a plurality of OPS'"'"'s are externally stored, e.g., in a hand-held programming device, and only the currently-used OPS is stored in the implant device. Changes to the OPS are made by transmitting the replacement OPS to the implant device through a telemetry link established with the implant device from the hand-held programming device. When the patient wishes to change the OPS, he manually activates the appropriate controls on the hand-held programming device, and such activation causes the new OPS to be telemetered to the implant device, where it replaces the current OPS.
940 Citations
18 Claims
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1. An implant device comprising:
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an implantable case;
electronic circuitry housed within said implantable case for performing a prescribed function, the electronic circuitry including a control register wherein a control set of operational parameters is stored, a controller that controls the operation of the implant device as a function of the control set of operational parameters stored in the control register, and a plurality of sets of operational parameters; and
selection means for selecting one of the plurality of sets of operational parameters as the control set of operational parameters that is stored in the control register;
whereby the operation of the implant device may be changed through selection of a different set of operational parameters. - View Dependent Claims (2, 3, 4, 5, 6, 7)
memory means external to the implant device wherein the plurality of sets of operational parameters are stored; and
telemetry means for transmitting a selected one of the plurality of sets of operational parameters to the electronic circuitry for loading into the control register.
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4. The implant device of claim 1 further including change means for allowing a user of the implant device to change individual parameters included within a selected one of the plurality of operational parameters.
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5. The implant device of claim 4 wherein the change means allows the user of the implant device to change only certain ones of the individual parameters included within the selected one of the plurality of operational parameters.
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6. The implant device of claim 1 wherein the prescribed function performed by the electronic circuitry comprises a stimulation pulse generator, and wherein the operational parameters included within the control set of operational parameters include pulse width, pulse amplitude and pulse rate.
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7. The implant device of claim 6 wherein the operational parameters included within the control set of operational parameters further include electrode configuration, ramp rate, and treatment time.
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8. A method of changing the operational parameters used to control an implant device, comprising:
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defining a plurality of sets of operational parameters, each set including individual parameters that define respective characteristics associated with the operation of the implant device;
storing the plurality of sets of operational parameters;
selecting one of the stored sets of operational parameters as a control set of operational parameters; and
providing the control set of operational parameters to the implant device, and using the provided control set of operational parameters to control the operation of the implant device. - View Dependent Claims (9, 10, 11, 12, 13)
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14. An implant system that permits parameter context switching comprising:
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an implant device comprising;
electronic circuitry that performs a prescribed function as controlled by a set of operational parameters, a first memory element wherein the set of operational parameters is stored, a replenishable power source that provides operating power for the implant device, a first telemetry circuit that receives control data from an external source, and a second telemetry circuit that receives power to replenish the replenishable power source;
an external control device comprising a first transmission circuit that transfers control data through the first telemetry circuit of the implant device that defines the set of operational parameters stored in the first memory element of the implant device; and
an external charging device comprising;
a power source, and a second transmission circuit that transfers power from the power source through the second telemetry circuit to the replenishable power source of the implant device. - View Dependent Claims (15, 16, 17, 18)
limited memory access control circuitry within the external control device that allows access to a selected plurality of individual operating parameters within each of the sets of operational parameters included within the plurality of sets of operational parameters stored within the second memory element;
full memory access control circuitry within the external control device that allows access to all of the individual operating parameters of each of the sets of operational parameters included within the plurality of sets of operational parameters stored within the second memory element;
a manual patient selection circuit that allows a patient user of the external control device to selectively alter the selected plurality of individual operating parameters accessible through the limited memory access control circuitry; and
a clinician programmer selectively coupled to the full memory access control circuitry that allows a clinician user of the clinician programmer to selectively alter all of the individual operating parameters of each of the sets of operational parameters included within the plurality of sets of operational parameters stored within the second memory element.
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18. The implant system of claim 17 wherein the external control device further includes limit checking circuitry that prevents an alteration of individual operating parameters contained within the plurality of sets of operational parameters that exceeds a respective predefined limit.
Specification