A remote monitoring system for monitoring a plurality of medical devices at a patient care or home care facility. The system includes a device integration server in communication with wireless relay modules for receiving data packets from the medical devices including an identifier and data for each medical device. The system also includes a data management system and an outbound web server. The data management system is configured to log data for the medical devices. The web server is configured to provide webpages including the data of the medical devices for display on a remote monitoring computer, subject to authentication of an associated data request from the monitoring computer. The web server is configurable to look up patient information from a secure source when user has appropriate permissions. In addition, the device integration server is configured to process alert messages received from the wireless relay modules and, in response, to transmit text message information to the wireless relay modules to be relayed to one or more text messaging recipients.
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10. A method for processing a medical device alert in a medical device monitoring system, the method comprising:
remotely receiving a data packet from a wireless relay device in communication with a medical device;
retrieving from the data packet a packet type, a medical device id and a registered location of the medical device;
determining if said packet type is indicative of an alert condition;
retrieving alert response information from a patient data management system via a secure communications link; and
transmitting said alert response information to said medical relay device.
18. A method for controlling a medical device by a medical device monitoring system, the method comprising the steps of:
receiving credentials from a user of a monitoring computer and a request from said user to control a medical device;
verifying said user is authorized to control said medical device; and
if verification is achieved, then
logging said request in a device control database;
transmitting a control command based on said user request to a relay device, said control command comprising device control commands which, when received by the medical device, causes the medical device to execute the command, said relay device being configured to issue said control command to said medical device;
receiving an update message from said relay device in response to said control command; and
logging said update message in said device control database.
1. A system for enabling the remote monitoring of a plurality of medical devices, the system comprising:
a device integrator server in communication with at least one wireless relay device, wherein said wireless relay device is configured to transmit control packets containing control commands to the medical devices, wherein the control packets comprise device control commands for remotely controlling the medical devices from a remote terminal, and data packets containing information provided by the medical devices, wherein each said data packet includes data identifying at least a medical device id, a patient id and medical device data;
a data manager system coupled to said device integrator server, said data manager system comprising at least a device control database, and
a web server configured for providing web pages for receiving at least the medical data and, subject to verification of the patient id and medical device id, transmitting the medical device data to a remote monitoring computer via a secure internet connection for displaying the medical device data by the remote monitoring computer.
17. A method for displaying medical device data by a medical device monitoring system, the method comprising:
receiving credentials from a user of a monitoring computer and a request from said user for medical device information for a patient to be monitored;
verifying said user is authorized to receive the medical device information; and if verification is achieved, then:
identifying, based on at least said credentials and said request, an address for a secure patient database having information regarding said patient;
retrieving patient data and associated medical device identification data by a web server from said patient data management system over a secure communications link;
retrieving medical device data from a device control database for at least one medical device according to said retrieved medical device identification data; and
transmitting said retrieved medical device data by said web server for display on said monitoring computer; and
forwarding device control commands from the monitoring computer to the medical device which, when received by the medical device, cause the medical device to execute the commands.
15. A method for registering a medical device for a patient with a medical device monitoring system, the method comprising:
receiving credentials of a user of a set-up computer;
receiving medical device identification data and associated patient identification data for a patient to be monitored;
verifying said user is authorized to initialize a medical device associated with the medical device information;
if verification is achieved then,
storing said medical device identification data in a device control database of said device data management system;
identifying, based on at least said received medical device identification data or patient identification data, an address for a secure patient database having information regarding said patient; and
storing said identified address in said device data management system in association with said medical device identification data; and
forwarding said patient identification data and said address to a web server that will generate secure webpages of medical device monitor information for access by a user of a monitoring computer; and
forwarding device control commands from the medical device monitor to the medical device which, when received by the medical device, cause the medical device to execute the commands.
9. A system for enabling the monitoring of a plurality of medical devices, the system comprising:
a device integrator server in communication with at least one wireless relay device, wherein said wireless relay device is configured to transmit data packets containing information provided by the medical devices, and
said device integrator server is configured to receive the transmitted packets, to extract a packet type, a medical device id and medical device data from each received packet, to identify a registered location associated with the extracted medical device id, and to store the extracted medical device data with the extracted medical device id and registered location in a device control database;
a web server configured for hosting web pages for display on a user computer, said web server being coupled to a patient data management system via a secure communications link; and
a data management component coupled to said device integrator server and said web server, said data management component comprising said device control database, an applications database and a secure device server, wherein
said device integrator server is configured to reply to said wireless relay via said mobile communications network when said packet type for a received data packet matches a predetermined packet type, and
said web server is configured to retrieve a destination address from said application database according to said registered location data, to retrieve patient data and medical device id data from said patient data management system via said secure communications link according to said destination address, to retrieve said medical device data from said device control database via said secure device server according to said registered location data and said medical device id data, and to prepare a web page for displaying said retrieved medical device data and patient data at the user computer.
2. The system of
3. The system of
4. The system of
6. The system of
7. The system of
11. The method of
storing said data packet as a data entry in a device control database, said data entry identifying said alert condition.
12. The method of
retrieving said stored data entry by a web server;
identifying a computer in communication with said web server as a current monitor for said medical device; and
transmitting an alert by said web server for display on a web page of said computer indicating said alert condition.
13. The method of
14. The method of
transmitting a bandwidth priority instruction to said medical relay device instructing said medical relay device to grant a service priority for relaying information between said medical device and said medical device monitoring system while said alert condition persists.
16. The method of
19. The method of
transmitting said update message by a web server for display on said monitoring computer.
20. The method of
21. The method of
22. The method of
23. The method of
retrieving authorized use information for said medical device, and
determining that verification is achieved when said user is authorized to control said medical device and said control command is directed to an authorized use according to said authorized use information.
24. The method of
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This application is related to U.S. application Ser. No. 13/006,769, filed Jan. 14, 2011, entitled “Wireless Relay Module for Remote Monitoring Systems”, and to U.S. application Ser. No. 13/006,784, filed Jan. 14, 2011, entitled “Medical Device Wireless Network Architectures,” each of which is incorporated by reference in its entirety herein.
The present application is directed to a remote monitoring system for monitoring medical devices in communication with a wireless communication network, and more particularly, to a remote monitoring system for monitoring medical devices that communicate with the wireless communication network via one or more wireless relay modules and a wireless relay network.
In critical care and home care health service centers including hospitals, clinics, assisted living centers and the like, care giver-patient interaction time is at a premium. Moreover, response times by care givers to significant health conditions and events can be critical. Systems of centralized monitoring have been developed to better manage care giver time and patient interaction. In such systems, physiological data from each patient is transmitted to a centralized location. At this centralized location, a single or small number of technicians monitor all of this patient information to determine patient status. Information indicating a patient alarm condition will cause the technicians and/or system to communicate with local care givers to provide immediate patient attention, for example via wireless pagers and/or cell phones, and/or by making a facility-wide audio page.
Implementing such centralized monitoring systems using wireless networks may present a number of difficulties. In order to effectively monitor patient status using information provided by a variety of medical devices that may be dynamically assigned to patients in a variety of rooms and on a variety of floors in a facility, it would be desirable to establish communications between the medical devices and the centralized location by means of a local area network such as, for example, a “WiFi” network based on IEEE 802.11 standards. However, as such networks are typically already in place in facilities to support a variety of other functions (for example, physician access to electronic medical records (EMRs), facility administrative systems and other functions), it is often undesirable to secure sufficient local area network access for the purpose of providing centralized monitoring. Moreover, when a patient is located remotely from a critical care health service center (for example, at home), access to traditional local area network facilities such as a WiFi network may be unavailable or not sufficiently reliable to support critical care monitoring applications.
Clearly, for improved efficiencies in centralized monitoring of critical care and home care health service centers, it may be desirable to provide a single “off-site” centralized monitoring location for monitoring several geographically-dispersed critical care health service centers.
As an alternative to conventional WiFi or IEEE 801.11-based local area networks, ZIGBEE networks based on the IEEE 802.15.4 standard for wireless personal area networks have been used for collecting information from a variety of medical devices in accordance with IEEE 11073 Device Specializations for point-of-care medical device communication, including for example pulse oximeters, blood pressure monitors, pulse monitors, weight scales and glucose meters. See, e.g., ZIGBEE Wireless Sensor Applications for Health, Wellness and Fitness, the ZIGBEE Alliance, March 2009, which is incorporated by reference herein in its entirety. As compared to present IEEE 802.15.1 BLUETOOTH wireless personal area networks, for example, ZIGBEE networks provide the advantage of being dynamically configurable, for example, in “self-healing” mesh configurations, and operating with low power requirements (enabling, for example, ZIGBEE transceivers to be integrally coupled to the medical devices under battery power). However, transmission ranges between individual ZIGBEE transceivers are generally limited to no more than several hundred feet. As a consequence, such networks are suitable for on-site communications with medical devices, but unusable for centralized monitoring locations located off-site. Therefore, a hybrid system may be employed in which one or more wireless personal area networks are configured to facilitate on-site communications between medical devices and one or more wireless relay modules which are further configured to communicate with off-site centralized monitoring systems (for example, via a wireless wide-area network (WWAN) such as a mobile telephone data network, for example, based on a Global System for Mobile Communications (GSM) or Code Division Multiple Access (CDMA) cellular network or associated wireless data channels). Such a relay module and system are respectively described in the related patent applications entitled “Wireless Relay Module for Remote Monitoring Systems” (U.S. application Ser. No. 13/006,769, filed Jan. 14, 2011) and “Medical Device Wireless Network Architectures” (U.S. application Ser. No. 13/006,784, filed Jan. 14, 2011) which have been incorporated by reference within this patent application.
In accordance with applicable patient data privacy provisions of the Health Insurance Portability and Accountability Act of 1996 (HIPAA), communication of information between the monitored medical devices and the central monitoring location must be done securely, and medical device and associated patient information must be made available only to personnel accessing the centralized monitoring systems who are in possession of the appropriate access credentials. In order to be viable, the centralized monitoring system must also be capable of recognizing medical device information indicating an alert condition requiring response by on-site or other specialized personnel and reaching those on-site or specialized personnel to report the alert condition in a timely fashion.
Thus, it would be desirable to provide a remote, centralized medical information monitoring system that communicates over a wireless network of wide reach (for example, a wireless wide area network) with one or more critical care and/or home care health service centers via one or more wireless relay modules at each site, where the wireless relay modules relay communications provided by on-site medical devices over a wireless local area network or wireless personal area network. It would further be desirable for the centralized medical information monitoring system to be capable of also configuring medical devices according to associations with individual sites and patients, of logging communications from medical devices, of displaying medical device data to users of the centralized medical information monitoring system who are able to provide sufficient credentials, and of recognizing medical device alert conditions and reporting these conditions to responsible personnel in a timely fashion. In addition, it would be desirable for the centralized information monitoring system to be capable of transmitting information to the medical devices via the wireless relay modules for operating and maintaining the medical devices, including for example software upgrades and library upgrades downloaded to the medical devices.
The present invention is directed to a remote monitoring system and method for monitoring the status of a plurality of medical devices located remotely from the monitoring system at a patient care or home care facility. In accordance with one embodiment of the invention, one or more medical devices (including but not limited to including for example, respirators, enteral feeding devices, pulse oximeters, blood pressure monitors, pulse monitors, weight scales and glucose meters) are provided at a patient care or home care facility. An interface circuit is coupled to each medical device, and is configured for communicating with one of a plurality of the wireless relay modules via a wireless relay network. The wireless relay modules are further configured to communicate with the remote monitoring device over an internet-accessible wireless communication network, and preferably, a wireless wide-area network (WWAN) such as a mobile telephone data network including (for example, based on a Global System for Mobile Communications (GSM) or Code Division Multiple Access (CDMA) cellular network or associated wireless data channels). Also, for compliance for example with HIPAA regulations, communications over each of the wireless networks are preferably conducted securely.
The remote monitoring system and method includes a device integration server in communication with the wireless relay modules for receiving data packets from the wireless relay modules including information provided by the medical devices. This information includes identification of an associated medical device and data of the medical device, and is preferably encrypted or otherwise securely transmitted, for example, in compliance with HIPAA patient data privacy provisions. In addition, the information may include encrypted or otherwise securely transmitted patient identification information, which in addition may preferably be coded in its unencrypted state to avoid any reference to the patient's identity.
The remote monitoring system also includes a data management system including a secure device web server and a device control database, and an outbound web server. The data management system is configured to log information provided to the device integration server concerning the medical devices. The web server is configured to provide webpages including the data of the medical devices for display on a remote monitoring computer, subject to authentication of an associated data request originating from the monitoring computer.
The remote monitoring system may further be configured for secure communications with a patient care database node that securely stores associated patient information, and for providing additional access to the remote monitoring computer upon receiving sufficient requestor authentication for configuring medical devices to patients and for controlling the operation of the medical devices. In addition, the remote monitoring system may be configured to process alert messages received from the wireless relay modules and, in response, transmit text message information to the wireless relay modules to be relayed to one or more text messaging recipients. Alternatively, the remote monitoring system may be configured to transmit the text message directly to the one or more text messaging recipients.
The invention will become more readily apparent from the Detailed Description of the Invention, which proceeds with reference to the drawings, in which:
Reference will now be made in detail to exemplary embodiments of the invention, including the best modes contemplated by the inventors for carrying out the invention. Examples of these exemplary embodiments are illustrated in the accompanying drawings. While the invention is described in conjunction with these embodiments, it will be understood that it is not intended to limit the invention to the described embodiments. Rather, the invention is also intended to cover alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.
In the following description, specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be practiced without some or all of these specific details. In other instances, well-known aspects have not been described in detail in order not to unnecessarily obscure the present invention.
For the purpose of illustrating the present invention, exemplary embodiments are described with reference to
In this specification and the appended claims, the singular forms “a,” “an,” and “the” include plural references unless the context clearly dictates otherwise. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs.
A diagram of an exemplary system 100 for monitoring medical devices in accordance with the present invention is illustrated in
Associated with each medical device 10 is an interface circuit 15 that includes a transceiver having one or more of a transmitter and/or a receiver for respectively transmitting and receiving signals in a facility-oriented wireless network 17 such as, for example, a Low-Rate Wireless Personal Area Networks or “LR-WPAN,” ZIGBEE network or another low-power personal area network such as a low power BLUETOOTH network, existing or presently under development or consideration. See, e.g., Houda Labiod et al., Wi-Fi, Bluetooth, Zigbee and WiMax, Springer 2010, which is incorporated by reference herein in its entirety. It should be understood that interface circuit 15 may be contained within or disposed external to medical device 10 in accordance with the present invention.
Also provided within the patient facility 20 are one or more relay modules 30. Each relay module 30 includes a first transceiver for receiving signals from and transmitting signals to the interface circuits 15 in the facility-oriented wireless network, and further includes a second transceiver for wirelessly transmitting signals to and receiving signals from an access point 40 via a wireless wide-area network (“WWAN”) 52. Suitable WWANs for use with the present invention include, for example, networks based on a Global System for Mobile Communications (GSM) or Code Division Multiple Access (CDMA) cellular network or associated with the 2G, 3G, 3G Long Term Evolution, 4G, WiMAX cellular wireless standards of the International Telecommunication Union Radiocommunication Sector (ITU-R). See, e.g., Vijay Garg, Wireless Communications & Networking, Morgan Kaufmann 2007, which is incorporated by reference herein in its entirety. For compliance with HIPAA regulations, communications over each of the facility-oriented wireless network and WWAN are preferably conducted securely using, for example, using a Secure Sockets Layer (SSL) protocol or a Transport Layer Security (TLS) protocol.
As illustrated in
In this case, for example, a third party service provider may host the access point 40 to simultaneously support a number of distinct patient and/or home care facilities, thereby eliminating the need for each of these facilities to configure and maintain their own private access point facilities and providing hosting service to each facility that are likely far less than the costs of configuring and maintaining dedicated access point facilities by each care facility provider. It should be noted however that, consistent with principles of the present invention, access point 40 and patient care database node 60 may nevertheless be integrated into a single access point or node (for example, by a provider of a very large-scale facility provider monitoring many hundreds or thousands of patients). In either case, and as further described herein, the outbound web server 43 provides an interface for authenticated clinicians to retrieve patient and medical data from each of the patient care database node 60 and the access point 40 in a convenient and transparent manner such that the details of the configurations and operation of the access point 40 and patient care database node 60 are of no consequence to the clinicians.
Returning to
In addition, and as will be further described herein, the device integration server 41 of
Further, in addition to monitoring and sending commands to medical devices, the device integration server 41 may also be configured to receive and analyze patient metric information from the secure patient web server 64 via the outbound web server 43 and secure device web server 42, or by an alternate and direct secure data link to the secure patient web server 64 in order to prevent unsafe medical device usage based upon the patient metrics information. In this manner, the device integration server 41 would function as an additional failsafe for preventing operating errors that could result in patient harm due. For example, in the case that the patient metric information indicates that an enteral feeding pump is associated with a neonate, the device integration server 41 may act to discard remote monitoring commands programming large bolus or excessive feeding rates that could be harmful to a young child. Alternatively, if the patient metric information indicates that a specific feeding rate or bolus amount has been prescribed by a doctor or clinician, the device integration server may act to discard remote monitoring commands programming a rate or bolus that deviates from the prescription.
At step 204, the outbound web server 43 preferably queries the metadata and application database 46 according to one or more of identifying information for the technician and/or identifying information for the patient to identify an associated patient care database node 60 from a plurality of patient care database nodes for the patient and record a destination address for the associated patient care database node 60 in the metadata and application database 46 in association with the identifying data for the medical device 10 and/or identifying information for the patient. Identifying information for the patient is preferably generated anonymously (for example as a random number), and transmitted at step 206 to the patient care database node 60 for association with securely-stored patient identifying information. At step 208 of the method 200 of
It should be readily understood by one skilled in the art that step 204 of method 200 for identifying and storing the address of the patient care database node 60 may be omitted in accordance with the invention if a single patient care database node is utilized with system 100 of
At step 308 of the method 300 of
Upon obtaining the status information, the outbound web server 43 prepares a display page, according for example to display information retrieved from the metadata and applications database 46, to display a listing of medical devices 10 available for monitoring the user at the remote monitoring device 62.
Once a device type is selected by a user (for example, in response to an associated mouse-over or mouse-click executed by the authorized user), a second exemplary screen display 330 as illustrated by
Once an individual device is selected by a user (for example, once again, in response to an associated mouse-over or mouse-click executed by the authorized user), a third exemplary screen display 340 as illustrated by
It should be readily understood that exemplary computer screen images 320, 330 and 340 and corresponding navigation depicted by
Upon receipt of the patient authentication, a control request is forwarded by the outbound web server 43 at step 408 to the secure device web server 42 to be logged in the information record of the device control database 44 that is associated with the medical device 10 (and optionally, with an anonymous ID for the patient). At step 410, the secure device web server forwards the control request to the device integration server 41, which transmits an associated device control command over the secure WWAN 52 for receipt by an associated wireless relay module 30 at step 412. The wireless relay module 30 wirelessly communicates the command to the medical device 10 via an associated device interface 15, and awaits a reply confirming execution of the command transmitted by the device interface 15.
At step 414, the device integration server 41 receives an update message from the wireless relay module 30 via the secure WWAN 52 which confirms that the command was executed by the medical device 10. At step 416, the device integration server 41 forwards the update message to the secure device web server 42 to be logged in the information record of the device control database 44 that is associated with the medical device 10. Optionally, and preferably, the secure device web server 42 forwards information pertaining to the update message to the outbound web server 43, and the outbound web server 43 prepares an updated display screen that is transmitted to the remote monitoring device 62 to indicate that the command has been executed.
Alternatively, at step 404, the authenticated clinician may select the “System Setup” control icon button 347E to perform a command other than an operational command directed to the medical device 10.
Icon button 454 may be selected to initiate a diagnostic test of the medical device 10.
In a similar manner to that performed by the method of
Referring again to
Upon determining that the transmitted message is an alert message, the device integration server 41 proceed, at step 503, to log the message in the device control database 44, and at step 504, invokes a text messaging application that retrieves text messaging numbers associated with identifying information of the medical device 10 and/or anonymous patient identifying information. The text messaging application may preferably retrieve the text messaging numbers by queries the metadata and applications database 46 to identify the address of an associated patient care database node 60, and either making a direct request or instructing the outbound web server 43 to request the text messaging numbers from the associated patient care database node 60.
At step 506, the device integration server 41 sends one or more messages including the retrieved text messaging numbers and text message information according to the alert message to one or more wireless relay modules 30 over the secure WWAN 52. At step 508, the one or more wireless relay modules 30 transmit the text message information addressed to the text messaging numbers over one or more of the secure WWAN 52 and/or the facility-oriented wireless network 17.
The information retrieved by the outbound web server 43 to prepare this display is preferable retrieved from the patient care database node 60, by providing on one or more of identifying information for the medical device 10 and/or anonymous patient identifying information stored in the device control database 44. Upon recognizing an alert message for the medical device 10, the information provided on the “Text Paging” screen display may be retrieved by the device integration server 41 by querying the metadata and applications server 46 to retrieve address information for the patient care database node 60, and forwarding a text paging information request to the patient care database node 60 based upon one or more of identifying information for the medical device 10 and/or anonymous patient identifying information stored in the device control database 44.
Computer system 600 includes processor 610, memory 620, storage device 630 and input/output devices 640. One of the input/output devices 640 may preferably include a display 645. Some or all of the components 610, 620, 630 and 640 may be interconnected by a system bus 650. Processor 610 may be single or multi-threaded, and may have one or more cores. Processor 610 executes instructions which in the disclosed embodiments of the present invention are the steps described, for example, in one or more of
Input devices 640 may provide input/output operations for system 600. Input/output devices 640 may include one or more of a keyboard, a pointing device, and/or microphone. Input/output devices 640 may further include a display unit for displaying graphical user interfaces, a speaker and a printer and any of a number of other serial devices (for example, configured as Universal Serial Bus (USB)-based devices
It should of course, be understood that while the present invention has been described with respect to disclosed embodiments, numerous variations are possible without departing from the spirit and scope of the present invention as defined in the claims.
Moreover, it is intended that the scope of the present invention include all other foreseeable equivalents to the elements and structures as described herein and with reference to the drawing figures. Accordingly, the invention is to be limited only by the scope of the claims and their equivalents.
Gaines, Robert B., Wiesner, Joel D., Bankert, Shawn
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