Surgery: light – thermal – and electrical application – Light – thermal – and electrical application – Electrical therapeutic systems
Reexamination Certificate
2001-03-02
2004-03-16
Schaetzle, Kennedy (Department: 3762)
Surgery: light, thermal, and electrical application
Light, thermal, and electrical application
Electrical therapeutic systems
C607S037000, C607S032000, C607S036000
Reexamination Certificate
active
06708065
ABSTRACT:
FIELD OF THE INVENTION
This invention pertains to implantable medical devices such as cardiac pacemakers and implantable cardioverter/defibrillators. In particular, the invention relates to an apparatus and method for enabling radio-frequency telemetry in such devices.
BACKGROUND
Implantable medical devices, including cardiac rhythm management devices such as pacemakers and implantable cardioverter/defibrillators, typically have the capability to communicate data with a device called an external programmer via a radio-frequency telemetry link. A clinician may use such an external programmer to program the operating parameters of an implanted medical device. For example, the pacing mode and other operating characteristics of a pacemaker are typically modified after implantation in this manner. Modern implantable devices also include the capability for bidirectional communication so that information can be transmitted to the programmer from the implanted device. Among the data which may typically be telemetered from an implantable device are various operating parameters and physiological data, the latter either collected in real-time or stored from previous monitoring operations.
Telemetry systems for implantable medical devices utilize radio-frequency energy to enable bidirectional communication between the implantable device and an external programmer. An exemplary telemetry system for an external programmer and a cardiac pacemaker is described in U.S. Pat. No. 4,562,841, issued to Brockway et al. and assigned to Cardiac Pacemakers, Inc., the disclosure of which is incorporated herein by reference. A radio-frequency carrier is modulated with digital information, typically by amplitude shift keying where the presence or absence of pulses in the signal constitute binary symbols or bits. The external programmer transmits and receives the radio signal with an antenna incorporated into a wand which can be positioned in proximity to the implanted device. The implantable device also generates and receives the radio signal by means of an antenna, typically formed by a wire coil wrapped around the periphery of the inside of the device casing.
In previous telemetry systems, the implantable device and the external programmer communicate by generating and sensing a modulated electromagnetic field in the near-field region with the antennas of the respective devices inductively coupled together. The wand must therefore be in close proximity to the implantable device, typically within a few inches, in order for communications to take place. This requirement is an inconvenience for a clinician and limits the situations in which telemetry can take place.
SUMMARY OF THE INVENTION
The present invention is an apparatus and method for enabling communications with an implantable medical device utilizing far-field electromagnetic radiation. Using far-field radiation allows communications over much greater distances than with inductively coupled antennas. Efficient emission and reception of far-field energy in a desirable frequency range, however, requires an antenna structure with certain minimum dimensions. An objective of the present invention is to provide such an antenna structure that does not complicate the implantation procedure, does not interfere with the device at its implanted site, and is resistant to breakage or deformation due to body movements.
In accordance with the invention, a wire or other type of antenna is embedded in dielectric material and located within the unshielded header of an implantable device where therapy leads are routed via feedthroughs to circuitry within the device housing. Alternatively, the embedded antenna is located within an unshielded housing portion of an implantable device such as a dielectric pocket or window adjacent to the rest of the housing. The antenna is connected to circuitry in order to enable the transmitting and receiving of far-field radio-frequency radiation modulated with telemetry data. By containing the antenna in this manner, the antenna is protected from bending or breakage and requires no special implantation procedure.
The dimensions of an antenna structure contained within a device header or housing portion are constrained by the size of those compartments, and it is desirable for implantable medical devices to be as small as possible. In another aspect of the invention, a helically wound dipole or monopole antenna is employed. A helical antenna is especially advantageous for this purpose because it has a longer effective electrical length than a similarly dimensioned straight wire dipole or monopole antenna. The antenna may also be tuned with a tuning circuit that optimizes its impedance for a particular frequency.
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Amundson Mark D.
Mass William R.
Mazar Scott T.
Von Arx Jeffrey A.
Cardiac Pacemakers Inc.
Schaetzle Kennedy
Schwegman Lundberg Woessner & Kluth P.A.
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