Inductively rechargeable external energy source, charger, system and method for a transcutaneous inductive charger for an implantable medical device

a technology of inductive charging and external energy source, which is applied in the field of implantable medical devices, can solve the problems posing a potentially serious health risk, and shock to the patient, and achieves the effect of limiting the patient's mobility and the amount of power availabl

Inactive Publication Date: 2005-04-07
MEDTRONIC INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0018] An external power source for transcutaneously transferring energy to an implantable medical device must obtain power from a source. The external source of power is typically either from batteries carried within the external power source or directly from readily available AC power, for example, from a standard wall socket. Obtaining power from batteries carried within the external power source is convenient and may allow the patient to be at least somewhat mobile, the amount of power available is limited by the size and weight of the batteries before the batteries are exhausted. However, obtaining power directly from standard readily available AC power not only limits the patient's mobility but also poses a potentially serious health risk. Placing a primary inductive charging coil directly on the patient's skin while the external power source is connected directly to standard AC power risks shock to the patient in the event of a malfunction of the external power source.

Problems solved by technology

However, obtaining power directly from standard readily available AC power not only limits the patient's mobility but also poses a potentially serious health risk.
Placing a primary inductive charging coil directly on the patient's skin while the external power source is connected directly to standard AC power risks shock to the patient in the event of a malfunction of the external power source.

Method used

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  • Inductively rechargeable external energy source, charger, system and method for a transcutaneous inductive charger for an implantable medical device
  • Inductively rechargeable external energy source, charger, system and method for a transcutaneous inductive charger for an implantable medical device
  • Inductively rechargeable external energy source, charger, system and method for a transcutaneous inductive charger for an implantable medical device

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Embodiment Construction

[0043]FIG. 1 shows implantable medical device 16, for example, a drug pump, implanted in patient 18. The implantable medical device 16 is typically implanted by a surgeon in a sterile surgical procedure performed under local, regional, or general anesthesia. Before implanting the medical device 16, a catheter 22 is typically implanted with the distal end position at a desired therapeutic delivery site 23 and the proximal end tunneled under the skin to the location where the medical device 16 is to be implanted. Implantable medical device 16 is generally implanted subcutaneously at depths, depending upon application and device 16, of from 1 centimeter (0.4 inches) to 2.5 centimeters (1 inch) where there is sufficient tissue to support the implanted system. Once medical device 16 is implanted into the patient 18, the incision can be sutured closed and medical device 16 can begin operation.

[0044] Implantable medical device 16 operates to infuse a therapeutic substance into patient 18....

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PUM

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Abstract

External power source, charger, system and method for an implantable medical device having therapeutic componentry and a secondary coil operatively coupled to the therapeutic componentry. A primary charging coil is capable of transcutaneously inductively energizing the secondary coil when externally placed in proximity of the secondary coil. Drive circuitry is operatively coupled to the primary charging coil for exciting the primary charging coil. A rechargeable power source is operatively coupled to the drive circuitry. A secondary recharging coil is operatively coupled to the rechargeable power source. A primary recharging coil is adapted to be coupled to a source of AC power which when placed in proximity of the secondary recharging coil can inductively energize the secondary recharging coil in order to charge the rechargeable power source.

Description

FIELD OF THE INVENTION [0001] This invention relates to implantable medical devices and, in particular, to energy transfer devices, systems and methods for implantable medical devices. BACKGROUND OF THE INVENTION [0002] Implantable medical devices for producing a therapeutic result in a patient are well known. Examples of such implantable medical devices include implantable drug infusion pumps, implantable neurostimulators, implantable cardioverters, implantable cardiac pacemakers, implantable defibrillators and cochlear implants. Of course, it is recognized that other implantable medical devices are envisioned which utilize energy delivered or transferred from an external device. [0003] A common element in all of these implantable medical devices is the need for electrical power in the implanted medical device. The implanted medical device requires electrical power to perform its therapeutic function whether it be driving an electrical infusion pump, providing an electrical neurost...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61N1/378
CPCA61N1/3787A61N1/3655A61M5/1723A61M5/142A61M2205/3327A61M2205/3368A61M2209/01H02J50/70H02J7/007192H02J50/12A61M5/14276A61M2205/52A61M2205/8206A61M2205/8237
Inventor FORSBERG, JOHN W.PHILLIPS, WILLIAM C.SCHMELING, ANDREW L.OLSON, DAVID P.
Owner MEDTRONIC INC
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