Surgery – Diagnostic testing
Reexamination Certificate
1999-12-17
2002-12-24
Nasser, Robert L. (Department: 3736)
Surgery
Diagnostic testing
C128S904000
Reexamination Certificate
active
06497655
ABSTRACT:
THE FIELD OF THE INVENTION
The present invention relates to medical device systems. Specifically, the invention pertains to a remote bi-directional communications with one or more programmers and medical units, or related controls that are associated with implantable medical devices (IMDs). More specifically, the invention relates to an integrated system and method of bi-directional telecommunications between a web-based expert data center and a medical device, utilizing various types of network platforms and architecture, to implement in the medical device and the IMDs, a virtual electro-physiological monitoring/consultation system, alert activation to initiate a remote monitoring session and prescriptive device programming regimens in real time.
BACKGROUND OF THE INVENTION
A technology-based health care system that fully integrates the technical and social aspects of patient care and therapy should be able to flawlessly connect the client with care providers irrespective of separation distance or location of the participants. While clinicians will continue to treat patients in accordance with accepted modern medical practice, developments in communications technology are making it ever more possible to provide a seamless system of remote patient diagnostics, care and medical services in a time and place independent manner.
Prior art methods of clinical services are generally limited to in-hospital operations. For example, if a physician needs to review the performance parameters of an implantable device in a patient, it is likely that the patient has to go to the clinic. Further, if the medical conditions of a patient with an implantable device warrant a continuous monitoring or adjustment of the device, the patient would have to stay in a hospital indefinitely. Such a continued treatment plan poses both economic and social problems. Under the exemplary scenario, as the segment of the population with implanted medical devices increases many more hospitals/clinics including service personnel will be needed to provide in-hospital service for the patients, thus escalating the cost of healthcare. Additionally the patients will be unduly restricted and inconvenienced by the need to either stay in the hospital or make very frequent visits to a clinic.
Yet another condition of the prior art practice requires that a patient visit a clinic center for occasional retrieval of data from the implanted device to assess the operations of the device and gather patient history for both clinical and research purposes. Such data is acquired by having the patient in a hospital/clinic to down load the stored data from the implantable medical device. Depending on the frequency of data collection this procedure may pose serious difficulty and inconvenience for patients who live in rural areas or have limited mobility. Similarly, in the event a need arises to upgrade the software of an implantable medical device, the patient will be required to come into the clinic or hospital to have the upgrade installed. Further, in medical practice it is an industry-wide standard to keep an accurate record of past and temporaneous procedures relating to an IMD uplink with, for example, a programmer. It is required that the report contain the identification of all the medical devices involved in any interactive procedure. Specifically, all peripheral and major devices that are used in down linking to the IMD need to be reported. Currently, such procedures are manually reported and require an operator or a medical person to diligently enter data during each procedure. One of the limitations of the problems with the reporting procedures is the fact that it is error prone and requires rechecking of the data to verify accuracy.
Yet a further condition of the prior art relates to the operator-programmer interface. Generally a medical device manager/technician, should be trained on the clinical and operational aspects of the programmer. Current practice requires that an operator attend a class/session sponsored by a clinic, hospital or the manufacturer to successfully manage a programmer-IMD procedure. Further, the manager should be able to keep abreast of new developments and new procedures in the management, maintenance and upgrade of the IMD. Accordingly, under current practice it is imperative that operators of programmers, IMDs and related medical devices be trained on a regular basis.
A further limitation of the prior art relates to the management of multiple medical devices in a single patient. Advances in modern patient therapy and treatment have made it possible to implant a number of devices in a patient. For example, IMDs such as a defibrillator or a pacer, a neural implant, a drug pump, a separate physiologic monitor and various other IMDs may be implanted in a single patient. To successfully manage the operations and assess the performance of each device in a patient with multi-implants requires a continuous update and monitoring of the devices. Further, it may be preferred to have an operable communication between the various implants to provide a coordinated clinical therapy to the patient. Thus, there is a need to monitor the IMDs including the programmer on a regular, if not a continuous, basis to ensure optimal patient care. In the absence of other alternatives, this imposes a great burden on the patient if a hospital or clinic is the only center where the necessary upgrade, follow up, evaluation and adjustment of the IMDs could be made. Further, even if feasible, the situation would require the establishment of multiple service areas or clinic centers to support the burgeoning number of multi-implant patients world-wide.
The proliferation of patients with multi-implant medical devices worldwide has made it imperative to provide remote services to the IMDs and timely clinical care to the patient. Frequent use of programmers to communicate with the IMDs and provide various remote services, consistent with co-pending applications titled “System and Method for Transferring Information Relating to an Implantable Medical Device to a Remote Location,” filed on Jul. 21, 1999, Ser. No. 09/358,081; “Apparatus and Method for Remote Troubleshooting, Maintenance and Upgrade of Implantable Device Systems,” filed on Oct. 26, 1999, Ser. No. 09/426,741; “Tactile Feedback for Indicating Validity of Communication Link with an Implantable Medical Device,” filed Oct. 29, 1999, Ser. No. 09/430,708; “Apparatus and Method for Automated Invoicing of Medical Device Systems,” filed Oct. 29, 1999, Ser. No. 09/430,208; “Apparatus and Method for Remote Self-Identification of Components in Medical Device Systems,” filed Oct. 29, 1999, Ser. No. 09/429,956; “Apparatus and Method to Automate Remote Software Updates of Medical Device Systems,” filed Oct. 29, 1999, Ser. No. 09/429,960; “Method and Apparatus to Secure Data Transfer From Medical Device Systems,” filed Nov. 2, 1999, Ser. No. 431,881; “Implantable Medical Device Programming Apparatus Having An Auxiliary Component Storage Compartment,” filed Nov. 4, 1999, Ser. No. 09/433,477; “Remote Delivery Of Software-Based Training For Implantable Medical Device Systems,” filed Nov. 10, 1999, Ser. No. 09/437,615; “Apparatus and Method for Remote Therapy and Diagnosis in Medical Devices Via Interface Systems,” filed Dec. 14, 1999, Ser. No. 09/460,580; which are all incorporated by reference herein in their entirety which are all incorporated by reference herein in their entirety, has become an important aspect of patient care. Thus, in light of the referenced disclosures, remote training of the technicians/operators of the programmers and other peripheral equipment, that are associated with the IMDs, is a vital step in providing efficient therapy and clinical care to the patient.
The prior art provides various types of remote sensing and communications with an implanted medical device. One such system is, for example, disclosed in Funke, U.S. Pat. No. 4,987,897 issued Jan. 29, 1991. This patent discloses a system that is at least partially implanted into a living body with a minimum of
Linberg Kurt R.
Merry Randy L.
Nelson Chester G.
Plombon William J.
Mallari Patricia C.
Medtronic Inc.
Nasser Robert L.
Wolde-Michael Girma
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