US20140236634A1 - Mobile discrete data documentation - Google Patents
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- US20140236634A1 US20140236634A1 US14/262,110 US201414262110A US2014236634A1 US 20140236634 A1 US20140236634 A1 US 20140236634A1 US 201414262110 A US201414262110 A US 201414262110A US 2014236634 A1 US2014236634 A1 US 2014236634A1
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- G06Q50/24—
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/10—Office automation; Time management
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H10/00—ICT specially adapted for the handling or processing of patient-related medical or healthcare data
- G16H10/60—ICT specially adapted for the handling or processing of patient-related medical or healthcare data for patient-specific data, e.g. for electronic patient records
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/63—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for local operation
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
Abstract
Systems, methods, and computer-readable media for transferring data from a medical device to a patient's electronic medical record are provided. Initially, a medical device and a patient are identified, such as by scanning a barcode or searching in an electronically-searchable database. Once identified, the medical device and the patient area associated, and data from the medical device is acquired and sent to a form that allows a user to edit the data or add other information. The user may then indicate that the data is ready to be transmitted to the patient's electronic medical record. The medical device and the patient may now be disassociated. The disassociation may be implicit, so that it is not required that a user provide an indication that the patient and medical device are to be disassociated. Rather, the disassociation may occur upon transmittal of the data to the patient's EMR.
Description
- This Nonprovisional patent application is a continuation of U.S. patent application Ser. No. 12/351,601, filed Jan. 9, 2009, entitled “MOBILE DISCRETE DATA DOCUMENTATION,” which is incorporated by reference herein in its entirety.
- Traditionally, transmitting patient information, such as data from a medical device to a patient's electronic medical record (EMR), has been a difficult, error-prone, and time-consuming process for the user, such as a clinician, who is responsible for taking the vitals from the patient and transferring the data to the patient's EMR. For example, when a patient's vitals are taken, such as temperature, blood pressure, heart rate, etc., a clinician may use a medical device to take the vitals and write down the data on a piece of paper, only to record the data in the patient's EMR at some later time. This manual transfer of data oftentimes results in error both in accurately recording the data, and recording the data in the correct patient's EMR, as there is no positive verification that the patient from which the data was taken is the same patient to which the EMR belongs. Additionally, as mentioned, transcription errors are probable, given that this method may take several hours from the time the data is written down or otherwise recorded from the medical device, until the time that it is recorded into the patient's EMR.
- This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter. The present invention is defined by the claims.
- Embodiments of the present invention provide systems and methods for efficiently and effectively recording data from a medical device into a patient's EMR. A medical device may be transferred from room to room by a clinician, and associated with various patients such that data can be taken from the medical device that corresponds to the patient who is associated at that time. This data may then be transferred to an application that allows the clinician to edit the data or add other information corresponding to the patient prior to the data being transmitted to the patient's EMR. This process may take a fraction of the time that the manual transfer of data takes, as described above, and is much more efficient than manually entering the data from the medical device into the patient's EMR. In addition to editing or adding other information, a user may verify the data, and then indicate, such as by selecting a designated button, that the data is ready to be transmitted to the patient's EMR. Once the data has been transmitted, the patient and the medical device may be disassociated so that another patient can be identified, and data can be acquired from the medical device that corresponds to the newly associated patient.
- More particularly, a first aspect of an embodiment of the present invention includes one or more computer-readable storage media having computer-executable instructions embodied thereon, that, when executed perform a method for electronically transferring data associated with a patient from a medical device to an EMR that corresponds to the patient. The method includes receiving an identification of the medical device, receiving an identification of a first patient, and receiving a user selection to associate the first patient to the medical device. Further, the method includes, in response to receiving the user selection to associate the first patient to the first medical device, acquiring the data associated with the first patient from the medical device, and communicating the data for display in a format that allows a user to manipulate the data. The method additionally includes receiving an indication that the data is to be transmitted to the EMR that corresponds to the patient, and transmitting the data to the EMR that corresponds to the first patient. Upon transmitting the data to the EMR, the method also includes disassociating the first patient and the medical device such that a second patient can be associated to the medical device.
- In a second aspect, embodiments of the present invention are directed toward a system having a processor and one or more computer-readable storage media for electronically transferring data associated with a patient from a medical device to an EMR that corresponds to the patient. The system includes a receiving component for receiving identifications for the patient and the medical device, an associating component for associating the patient to the medical device in response to receiving an indication that the patient and the medical device are to be associated, and an acquiring component for acquiring the data from the medical device that is associated with the patient. The system further includes a transmitting component for transmitting the acquired data to a requesting application so that the data can be manipulated prior to being stored in the EMR corresponding to the patient. Additionally, the system includes a publishing component for publishing the data to the EMR that corresponds to the patient in response to receiving an indication that the data is to be transmitted to the EMR.
- A further aspect of an embodiment of the present invention takes the form of one or more computer-readable storage media having computer-executable instructions embodied thereon, that, when executed perform a method for electronically transferring data associated with a patient from a medical device to an EMR that corresponds to the patient. The method includes receiving an identification of a first patient, receiving an identification of the medical device, and in response to receiving the identification of the medical device, acquiring the data associated with the first patient from the medical device. Further, the method includes associating the first patient and the medical device to one another, communicating the data for display such that the data can be manipulated by a user, and receiving an indication that the data is to be transmitted to the first patient's EMR. The method additionally includes transmitting the data to the first patient's EMR, wherein once the data is transmitted to the first patient's EMR, the first patient and the medical device are no longer associated.
- Embodiments are described in detail below with reference to the attached drawing figures, wherein:
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FIG. 1 is a block diagram of an exemplary computing environment suitable for use in implementing embodiments of the present invention; -
FIG. 2 is an exemplary system architecture suitable for use in implementing embodiments of the present invention; -
FIG. 3 is a block diagram of an exemplary system, in accordance with an embodiment of the present invention; -
FIG. 4 is an illustrative flow diagram of a method for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR) corresponding to a patient, in accordance with an embodiment of the present invention; -
FIG. 5 is an illustrative flow diagram of a method for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR) corresponding in accordance with an embodiment of the present invention; -
FIG. 6 is an illustrative screen display showing a selected device, in accordance with an embodiment of the present invention; -
FIG. 7 is an illustrative screen display showing a selected patient and a selected device that have been associated, in accordance with an embodiment of the present invention; -
FIG. 8 is an illustrative screen display showing data acquired from a medical device, in accordance with an embodiment of the present invention; -
FIG. 9 is an illustrative screen display showing a patient having been disassociated from the medical device upon data associated with the patient having been transmitted to the patient's EMR; -
FIG. 10 is an illustrative screen display showing a patient's EMR after receiving transmitted data from a medical device, in accordance with an embodiment of the present invention; -
FIG. 11 is an illustrative screen display showing a method of searching for a patient in a database, in accordance with an embodiment of the present invention; -
FIG. 12 is an illustrative screen display showing an identified patient, in accordance with an embodiment of the present invention; -
FIG. 13 is an illustrative screen display showing data acquired from a medical device, in accordance with an embodiment of the present invention; and -
FIG. 14 is an illustrative screen display showing a previously identified patient and medical device having been disassociated and deleted from the display, in accordance with an embodiment of the present invention. - The subject matter of the present invention is described with specificity herein to meet statutory requirements. However, the description itself is not intended to limit the scope of this patent. Rather, the inventors have contemplated that the claimed subject matter might also be embodied in other ways, to include different steps or combinations of steps similar to the ones described in this document, in conjunction with other present or future technologies. Moreover, although the terms “step” and/or “block” may be used herein to connote different elements of methods employed, the terms should not be interpreted as implying any particular order among or between various steps herein disclosed unless and except when the order of individual steps is explicitly described.
- Having briefly described embodiments of the present invention, an exemplary operating environment suitable for use in implementing embodiments of the present invention is described below.
- Referring to the drawings in general, and initially to
FIG. 1 in particular, an exemplary computing system environment, for instance, a medical information computing system environment, with which embodiments of the present invention may be implemented is illustrated and designated generally asreference numeral 20. It will be understood and appreciated by those of ordinary skill in the art that the illustrated medical informationcomputing system environment 20 is merely an example of one suitable computing environment and is not intended to suggest any limitation as to the scope of use or functionality of the invention. Neither should the medical informationcomputing system environment 20 be interpreted as having any dependency or requirement relating to any single component or combination of components illustrated therein. - The present invention may be operational with numerous other general purpose or special purpose computing system environments or configurations. Examples of well-known computing systems, environments, and/or configurations that may be suitable for use with the present invention include, by way of example only, personal computers, server computers, hand-held or laptop devices, multiprocessor systems, microprocessor-based systems, set top boxes, programmable consumer electronics, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above-mentioned systems or devices, and the like.
- The present invention may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include, but are not limited to, routines, programs, objects, components, and data structures that perform particular tasks or implement particular abstract data types. The present invention may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in association with local and/or remote computer storage media including, by way of example only, memory storage devices.
- With continued reference to
FIG. 1 , the exemplary medical informationcomputing system environment 20 includes a general purpose computing device in the form of acontrol server 22. Components of thecontrol server 22 may include, without limitation, a processing unit, internal system memory, and a suitable system bus for coupling various system components, includingdatabase cluster 24, with thecontrol server 22. The system bus may be any of several types of bus structures, including a memory bus or memory controller, a peripheral bus, and a local bus, using any of a variety of bus architectures. By way of example, and not limitation, such architectures include Industry Standard Architecture (ISA) bus, Micro Channel Architecture (MCA) bus, Enhanced ISA (EISA) bus, Video Electronic Standards Association (VESA) local bus, and Peripheral Component Interconnect (PCI) bus, also known as Mezzanine bus. - The
control server 22 typically includes therein, or has access to, a variety of computer-readable media, for instance,database cluster 24. Computer-readable media can be any available media that may be accessed byserver 22, and includes volatile and nonvolatile media, as well as removable and non-removable media. By way of example, and not limitation, computer-readable media may include computer storage media and communication media. Computer storage media may include, without limitation, volatile and nonvolatile media, as well as removable and non-removable media implemented in any method or technology for storage of information, such as computer-readable instructions, data structures, program modules, or other data. In this regard, computer storage media may include, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks (DVDs) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage, or other magnetic storage device, or any other medium which can be used to store the desired information and which may be accessed by thecontrol server 22. Communication media typically embodies computer-readable instructions, data structures, program modules, or other data in a modulated data signal, such as a carrier wave or other transport mechanism, and may include any information delivery media. As used herein, the term “modulated data signal” refers to a signal that has one or more of its attributes set or changed in such a manner as to encode information in the signal. By way of example, and not limitation, communication media includes wired media such as a wired network or direct-wired connection, and wireless media such as acoustic, RF, infrared, and other wireless media. Combinations of any of the above also may be included within the scope of computer-readable media. - The computer storage media discussed above and illustrated in
FIG. 1 , includingdatabase cluster 24, provide storage of computer-readable instructions, data structures, program modules, and other data for thecontrol server 22. - The
control server 22 may operate in acomputer network 26 using logical connections to one or moreremote computers 28.Remote computers 28 may be located at a variety of locations in a medical or research environment, for example, but not limited to, clinical laboratories (e.g., molecular diagnostic laboratories), hospitals and other inpatient settings, veterinary environments, ambulatory settings, medical billing and financial offices, hospital administration settings, home health care environments, and clinicians' offices. Clinicians may include, but are not limited to, a treating physician or physicians, specialists such as surgeons, radiologists, cardiologists, and oncologists, emergency medical technicians, physicians' assistants, nurse practitioners, nurses, nurses' aides, pharmacists, dieticians, microbiologists, laboratory experts, laboratory technologists, genetic counselors, researchers, veterinarians, students, and the like. Theremote computers 28 may also be physically located in non-traditional medical care environments so that the entire health care community may be capable of integration on the network. Theremote computers 28 may be personal computers, servers, routers, network PCs, peer devices, other common network nodes, or the like, and may include some or all of the elements described above in relation to thecontrol server 22. The devices can be personal digital assistants or other like devices. -
Exemplary computer networks 26 may include, without limitation, local area networks (LANs) and/or wide area networks (WANs). Such networking environments are commonplace in offices, enterprise-wide computer networks, intranets, and the Internet. When utilized in a WAN networking environment, thecontrol server 22 may include a modem or other means for establishing communications over the WAN, such as the Internet. In a networked environment, program modules or portions thereof may be stored in association with thecontrol server 22, thedatabase cluster 24, or any of theremote computers 28. For example, and not by way of limitation, various application programs may reside on the memory associated with any one or more of theremote computers 28. It will be appreciated by those of ordinary skill in the art that the network connections shown are exemplary and other means of establishing a communications link between the computers (e.g.,control server 22 and remote computers 28) may be utilized. - In operation, a clinician may enter commands and information into the
control server 22 or convey the commands and information to thecontrol server 22 via one or more of theremote computers 28 through input devices, such as a keyboard, a pointing device (commonly referred to as a mouse), a trackball, or a touch pad. Other input devices may include, without limitation, microphones, satellite dishes, scanners, or the like. Commands and information may also be sent directly from a remote healthcare device to thecontrol server 22. In addition to a monitor, thecontrol server 22 and/orremote computers 28 may include other peripheral output devices, such as speakers and a printer. - Although many other internal components of the
control server 22 and theremote computers 28 are not shown, those of ordinary skill in the art will appreciate that such components and their interconnection are well known. Accordingly, additional details concerning the internal construction of thecontrol server 22 and theremote computers 28 are not further disclosed herein. -
FIG. 2 is anexemplary system architecture 200 suitable for use in implementing embodiments of the present invention. Generally, theexemplary system architecture 200 advantageously allows for communication with medical devices, for example, through a bus or server, instead of communication directly with the medical devices. A patient to device association may be initiated, and the existence of a bus or server may assist in maintaining that association until the occurrence of a disassociation event. If a computing device, such as a PDA, for example, were to communicate directly with a medical device, the relationship or association between the patient and medical device may terminate when that particular medical device is no longer being used for that particular patient. There may be instances, however, when a caregiver may want the association between that patient and medical device to continue until the occurrence of some disassociation event. In that case, a bus may assist in maintaining and managing that relationship. - Initially, the
exemplary system architecture 200 includesdevice connectivity 210,device messaging services 212, andapplication services 214. Thedevice connectivity 210 includes one or more medical devices that are connected to thedevice messaging services 212 such that the devices may, at a later time, be associated to a particular patient and/or an order. These devices may include, but are not limited to monitors, cardiac ventilators, balloon pumps, patient beds, infusion pumps, sequential compression devices, electronic security devices, vital signs devices, or any other device that a health care provider may use for a patient while the patient is in the hospital. These devices are shown inFIG. 2 asareas - Each medical device may communicate with the
device messaging services 212 in a different way. For example, some devices, such asdevice 216, may utilize adevice gateway 228. A gateway is generally a device that connects networks or other devices using different communications protocols so that information can be easily passed from one to the other. A gateway may both transfer information and convert it to a form compatible with the protocols used by the receiving network. Here, the device gateway assists in the transfer of data from thedevice 216 to the device messaging services 212. As will be described in greater detail below, an adapter, such asadapter 240 may be used in instances where thedevice gateway 228, was provided by the device manufacturer. Theadapter 240 is typically used to facilitate communication from a consumer to the gateway over the consumer's protocol. It should be noted that an adapter may reside on or near the device messaging services, or may reside near the actual device or device gateway. In other instances, a device gateway may be a third-party device gateway 230. In these instances, an adapter may not be necessary, as thedevice messaging services 212 may already know what type of messages to expect from thatdevice 218 through the third-party device gateway 230. Many different connection types may be utilized between devices, gateway servers, and components of thedevice messaging services 212, including, but not limited to, HL7 TCP/IP, a software development kit (SDK),RS 232, etc. - Other devices, such as
device 220, may have an internal gateway or other component such that a gateway like 228 or 230 would not be needed. These devices may have all of the required capability built into it, and, if necessary, may even have their own adapters incorporated therein such that a separate adapter would not be necessary. Still other devices, such asdevices connectivity engine 238 anddevice adapters - The device adapter is a hardware device that is affixed directly onto the medical device, and acts as the sole source of identification and connection to the
connectivity engine 238.Device adapters Device adapters connectivity engine 238 including, but not limited to, Universal Serial Bus (USB) or Personal Area Network (PAN). - The
connectivity engine 238 is a piece of hardware that may be connected todevices connectivity engine 238, a software portion may also be included. Even if there is a wired connection between theconnectivity engine 238 and a device, there may still be a wireless connection over a wireless network between theconnectivity engine 238 and the device messaging services 212. In one embodiment, both a hardware and software portion of theconnectivity engine 238 are located near the medical devices, as shown inFIG. 2 . In another embodiment, however, the software portion of theconnectivity engine 238 runs on the computing device (e.g., PDA, tablet PC) that is used to display data from medical devices, and may be located logically with the application services 214. - The
connectivity engine 238 may also assist in detecting types of devices so that the appropriate driver may be loaded, which may be based on the make and model of the particular device. Theconnectivity engine 238 may be located on thedevice messaging services 212 or as part of thedevice subsystems 210, as illustrated inFIG. 2 . Thedevice messaging services 212 or a component thereof may communicate with theconnectivity engine 238 to establish a connection to the device itself. In one embodiment, theconnectivity engine 238 may be physically present in a patient's room so that when a new device, such as a legacy device, is brought into that room, it may be connected to theconnectivity engine 238 if needed. At that time, a connect event may occur, and thedevice messaging services 212 may broadcast the connect event to other components who may need to know. - The medical devices, either directly or indirectly through a gateway, connectivity engine, or other component are connected to the device messaging services 212. The
device messaging services 212, in some embodiments, may generally include one ormore adapters 240, one or more bus hosts, such as bus hosts 242 and 244, amain bus 246, adevice lifecycle 248, adriver library 250, and adevice message routing 252. As previously described, an adapter may be used when the device gateway, such asdevice gateway 228, is provided by the manufacturer of a device, for example. Theadapter 240 assists to facilitate communication from a consumer to the gateway over the consumer's protocol. While oneadapter 240 is illustrated inFIG. 2 , it is contemplated to be within the scope of the present invention that more than oneadapter 240 may be used. In one embodiment, oneadapter 240 may be used for more than one medical device, but in another embodiment, each medical device requiring an adapter may require a separate adapter. Further, theadapter 240 may be used to communicate data from thedevice messaging services 212 tohealthcare system providers 254. In these cases, the data may not be transferred through any services or applications, but may be transferred directly to otherhealthcare system providers 254. Typically, an inbound and outbound adapter would be provided to transform messages to and from a standard format and protocol, such as HL7. - A bus host, such as
bus host FIG. 2 , for example, has a bus host fordevices device adapters connectivity engine 238. In addition to the above described functionality of the bus hosts 242 and 244, they may also allow for communication to the device to get various types of information to and from the device. This information may be, for example, determining whether the bed rails are up or down, or even determining the patient's weight when the patient is sitting or lying on the bed. - The
main bus 246 provides connection framework, as it may create and manage all connections to the device messaging services 212. Themain bus 246 also provides messaging architecture for the device messaging services 212. The main functionality of themain bus 246 includes providing general operational and management capabilities for connected devices, which may vary depending on the service that is subscribing or requesting the data from the devices. - A
device lifecycle 248 may detect the presence of a device on themain bus 246. Thedevice lifecycle 248 also may maintain an accurate directory of currently connected medical devices to themain bus 246 as various medical devices become connected. Further, it may ensure “active” connectivity of a medical device to themain bus 246 via a device heartbeat. A heartbeat is an indication given at a certain interval of time that a particular medical device is connected to themain bus 246. This interval may vary, and may be regular, such as every 20 seconds, for example. Additionally, the interval may depend on each medical device. As a medical device deregisters, or becomes unconnected to themain bus 246, thedevice lifecycle 248 may be responsible for sending out a notice of a disconnect event, and will then stop sending that device's heartbeat out to certain components that require that information. There are various phases of thedevice lifecycle 248, which may include, in one embodiment, a notification phase that notifies of an event generated at the device connection and of a device connected as directly to themain bus 246; an interrogation phase; an identification phase that identifies the vendor, make, model, etc. of each medical device and that finds and downloads the appropriate driver when necessary; an activation phase that loads the device driver and registers the medical devices; and an execution phase that is responsible for tracking the medical devices' heartbeats and gathers and transmits data to and from the medical devices. - A
driver library 250 may store a plurality of drivers that may be used and installed on particular devices, when required. Further, a devicemessage routing component 252 handles routing messages from source to destination across the device messaging services 212. Messages may take on a variety of forms, and may contain vastly different types of content. Various types of messaging may include request and reply messaging, publish and subscribe messaging, and asynchronous one-way messaging. Request and reply messaging includes taking a message from a source, routing it to a single destination, and routing a reply message from the destination back to the original source. Publish and subscribe messaging involves a publisher sending messages out on a named topic, which may be received by multiple subscribers. Asynchronous one-way messaging includes doing requests and reply messaging without needing to receive a reply. The only receipt message may be an indication that the message was successfully sent. - With continued reference to
FIG. 2 ,application services 214 includes various components, includinghealthcare system providers 254, adatabase 256,services 260, and anapplication 268. Theservices 260 may consume some or all of the information that themain bus 246 provides. In some instances, theservices 260 may be application programming interfaces (APIs), which may support requests made by computer programs, such as applications. For instance, theservices 260 may use themain bus 246 to determine where a connected device is located. Theservices 214 may include various components that may all utilize information sent by themain bus 246. These may include, for example, anaggregation component 262, adata store 264, and a patient todevice association 266, which is further discussed herein. Theaggregation component 262 allows for a user to query a patient by a patient identification over a large number of patient identifications. Once a match is found, information relating to that patient, such as devices that the patient is associated with, may be retrieved. Thedata store 264 stores data that is published by the medical devices. - In various embodiments of the present invention, the
services 260 run on themain bus 246, and thus together with themain bus 246, may provide additional functionality to the system as a whole. For example, whenvarious services 260 run on themain bus 246, themain bus 246 may store discrete data posts, such as heart rate, systolic blood pressure, diastolic blood pressure, etc., in a data store, such asdata store 264, for historical queries and archiving. Further, themain bus 246 may chart acquired discrete data into a patient's EMR; publish medical device outcomes, such as lab results and other test results, to a patient's EMR; and publish digital media from a device into a patient's EMR, publish infusion data, if required, and infusion events (e.g., infusion rate, volume infused, volume to be infused, rate change, begin bag, end bag) into a patient's EMR. - The
application 268 works with theservices 260 to facilitate specific functionality, such as chart documentation. Theapplication 268, in one embodiment, may be a user interface, such as the user interfaces illustrated in many of the figures associated with this application. Here, the user interfaces may be screen shots of associating a patient to a device, or to an order, for example. While oneapplication 268 is illustrated inFIG. 2 , more than one application is considered to be well within the scope of the present invention. Theservices 260 and theapplication 268 are incorporated such that theservices 260 retrieve raw data from themain bus 246 and other components, while theapplication 268 uses that information and presents it to a user through a user interface. - While only a
main bus 246 is illustrated inFIG. 2 , more than one bus may be used in implementing embodiments of the present invention. By way of example only and not limitation, themain bus 246 may be a first bus that is responsible for managing all of the medical devices. Thismain bus 246 may be located at the facility, such as a hospital. One or more local busses may be present that can store and facilitate the transfer of information from one or more medical devices, and that transfer that information to themain bus 246. Themain bus 246 may not even be aware that there are local busses, as the local busses may just be proxying messages that they receive from the medical devices. Local busses may also be present at the facility (e.g., hospital), but may be physically located in a patient's room, for example, such as on a cart where an associated medical device is located. In one embodiment of the present invention, more than onemain bus 246 may be available to provide a backup system. One main bus may be a primary node, and the other may be a secondary node. If one node goes down, the secondary node may be utilized. Additionally, the nodes or busses may be used in conjunction with one another such that each has certain responsibility, for example. - The
database 256, in one embodiment, may be sent patient, medical device, and order association information. For instance, identification of a patient and medical device that have been associated may be sent to thedatabase 256. Any data that it released by the medical device may also be routed to thedatabase 256 so that this information can be stored in a flowsheet, for example. A clinician may then make the decision as to what to do with the data. For example, the clinician may decide that certain data points should be included in the patient's chart, and the others may be completely deleted from thedatabase 256. A specific example of this may be when a clinician looks at data in thedatabase 256 that is associated with a certain patient. The data may include values at different times, such as 12:00 PM, 12:15 PM, and 12:30 PM. The clinician may not wish for all of these values to be entered into the patient's chart, but may choose, for example, just the 12:00 PM and 12:30 PM entries to officially document. Additionally, having this information in thedatabase 256 allows for a higher accuracy. In one instance, a clinician may write down in a patient's chart that an infusion pump began at 12:10 PM, when it actually started at 12:06 PM. Having this information in thedatabase 256 allows for the clinician to officially document accurate start and end times, as well as other values whose accuracy is important to the patient's health. - As previously discussed, various
healthcare system providers 254 may wish to receive data or information regarding a particular medical device or patient. In this case, theadapters 240 may be configured to send this information via an HL7 or ASTM connection, for example, to thehealthcare system providers 254. In one embodiment, theservices 260 may communicate with varioushealthcare system providers 254, and this communication takes place via themain bus 246. - Turning now to
FIG. 3 , a block diagram is shown of anexemplary system 300, in accordance with an embodiment of the present invention. Theexemplary system 300 initially includesapplication services 310, which may comprise several components, such as a database, various services that request and utilize data from medical devices (e.g., aggregation service, data store service, patient to device association services, chart documentation service), and various applications on which the services run.Application services 310 is described in further detail in the discussion ofFIG. 2 herein.Device messaging services 312 may include a main bus, which is a central bus or server that is responsible for receiving and delivering data from medical devices to various applications and services. Device messaging services is also described in further detail in the discussion ofFIG. 2 herein.Medical devices 314 may include any medical devices and associated components (e.g., device gateways, connectivity engine, device adapters) that are or may be connected, directly or indirectly, to the main bus, such asmain bus 246 inFIG. 2 . - The
main bus 316, as described above, includes a plurality of components, each being responsible for tasks associated with providing data from the medical devices to various services and applications. Themain bus 316 includes a receivingcomponent 318, an associatingcomponent 320, an acquiringcomponent 322, a transmittingcomponent 324, and apublishing component 326. While these five components are included in the embodiment ofFIG. 3 , it will become apparent to one of ordinary skill in the art that any number of components, either more or less than the illustrated five, may be used to accomplish the purposes of the present invention. Therefore, other components are contemplated to be within the scope of the present invention. For example, a displaying component may be includes that communicates the data for display such that the data can be manipulated by a user. - The receiving
component 318 receives identifications for the patient and the medical device. The identifications may be received in a number of ways, including, but certainly not limited to, scanning a barcode associated with the patient or the medical device, entering a name or identification associated with the patient or medical device, or searching an electronically searchable database for a patient or medical device. Further, more than one patient or medical device may be identified. - The associating
component 320 associates the identified patient and the identified medical device in response to receiving an indication that the patient and the medical device are to be associated. This indication may take many forms. An explicit association may be available to the user, such as through a selectable button on the display device. Alternatively, an implicit association, such as a button that allows the user to acquire data from the medical device, may be available to the user. In one embodiment, once that button is selected, the identified patient and medical device may be associated, prior to or simultaneous to receiving data from the medical device. - The acquiring
component 322 acquires the data from the medical device that has been associated to the identified patient. The acquiringcomponent 322 may request the data from the medical device from which it requires the data. The medical device, in one embodiment, may send the most recent data that it has for the patient to the acquiringcomponent 322. - The transmitting
component 324 transmits the acquired data to a requesting application or service so that the data can be manipulated prior to being stored in the EMR corresponding to the patient. For instance, thechart documentation services 267 application may have requested the data. Alternatively, in one embodiment, themain bus 316 or a component thereof (e.g., the transmitting component 324) may request the data from the medical device, and may send the data to an application or a service, such as thechart documentation services 267, without having received a request for the data by the application or service. That application or service may store the data in a format such that a user has the capability to manipulate or edit the data prior to the data being transmitted to the patient's EMR, where the data is indefinitely stored for future reference. For instance, the data transferred to the application or service may be vital information for a patient, but a clinician may wish to update one or more of the values manually, and as such, may be able to edit the one or more values in the application or service. Further, one or more fields, such as drop-down fields that have options from which a user may select, may be intentionally left blank for a user, such as a clinician, to complete. - The
publishing component 326 publishes, or transmits the data to the EMR that corresponds to the patient in response to receiving an indication that the data is to be transmitted to the EMR. As previously mentioned, a user, such as a clinician, may have the opportunity to review the acquired data in a format that allows the user to edit the data, if desired. Once the information has been reviewed and has been determined to be accurate, and once the user has had the opportunity to edit or add any other information, the user may select a button, such as a sign button, that indicates that the data is ready to be transmitted or published to the patient's EMR. -
FIG. 4 is an illustrative flow diagram of amethod 400 for electronically transferring data associated with a patient from a medical device to an EMR corresponding to a patient, in accordance with an embodiment of the present invention. Initially, atstep 410, an identification of the medical device is received. For example,FIG. 6 illustrates ascreen display 600 showing a selected device, in accordance with an embodiment of the present invention.Area 610 indicates that a patient has not yet been selected, or identified, and asearch button 611 is provided to allow a user to search in an electronically searchable database for a particular patient. Medical devices may be identified in a number of ways, including, but not limited to, scanning a barcode associated with the device, entering a name or identification associated with the device, or searching an electronically searchable database for a medical device, as mentioned above.Area 612 indicates that one device has been selected or identified, and atarea 614, various types of information associated with the identified medical device are displayed. This information includes, but is not limited to, vendor, model, and status information associated with the device. - In one embodiment, a medical device is scanned (e.g., using a barcode associated with the device) or otherwise identified, but the information displayed in
area 614 indicates that the medical device is associated or currently being used by another patient. The user, in this case, may have the option to change the association from the currently associated patient to the identified patient, or may choose to select a different medical device, such as by removing all selected devices by using a remove allbutton 616, and by selecting adevice search 618 button. As mentioned previously, selecting thedevice search 618 button is just one way of identifying a medical device. As illustrated, each device has a box that can be checked, as is illustrated in the embodiment ofFIG. 6 . - Returning to
FIG. 4 , atstep 420, an identification of a first patient is received. This identification may be received in a number of ways, including, but certainly not limited to, scanning a barcode associated with the patient, entering a name or identification associated with the patient, searching an electronically searchable database for a patient, etc. Further, more than one patient may be identified. To illustrate the identification of a patient and a medical device,FIG. 7 is provided.FIG. 7 illustrates ascreen display 700 showing an identified patient and an identified medical device, in accordance with an embodiment of the present invention. The patient is identified, as shown inarea 710. In addition to displaying the patient's name, the patient's date of birth, identification numbers, and gender are also displayed. Other embodiments may include other information that assists in identifying the patient. Another patient may be searched for by using asearch button 711, as mentioned above. Once the device is associated, as indicated byarea 712, and descriptive information for this medical device is displayed inarea 714, including vendor, model, and status information. Other embodiments may include different information. The medical devices that have been selected (e.g., the box has been checked) may be removed by selecting the remove allbutton 716. - Once the medical device and patient have been identified, a user may select an
acquire data button 718 that retrieves data (e.g., via the acquiring component 322) from the identified medical device and loads it into an application or service so that the user is able to manipulate the data, if necessary. Atarea 720, a user may select thedevice search button 720, which provides one way of identifying a medical device. More than one medical device may be identified and displayed on a screen display, such as thescreen display 700. - Returning to
FIG. 4 , atstep 430, a user selection to associate the first patient to the medical device is received. This user selection may take the form of a user selecting a button that indicates that the user wishes to receive data corresponding to the first patient from the medical device, such as theacquire data button 718 inFIG. 7 , discussed above. Prior to or simultaneous to receiving the data, the first patient and the medical device may be associated. In response to receiving the user selection to associate the first patient and the medical device to one another, the data associated with the first patient is acquired from the medical device atstep 440. At step 450, the data is communicated for display in a format that allows a user to manipulate the data. For example,FIG. 8 , illustrates ascreen display 800 showing data acquired from a medical device, in accordance with an embodiment of the present invention. The patient is identified inarea 810, and asearch button 811 is provided as one way of identifying a new patient.Area 812 identifies the associated device, and inarea 814, the data acquired from the device is displayed. - In the embodiment of
FIG. 8 , vital information was taken for the identified patient, which includes diastolic blood pressure, systolic blood pressure, heart rate, temperature, and pulse rate. Although vital information is shown inFIG. 8 , any other type of data than can be acquired from a medical device is contemplated to be within the scope of the present invention. As previously mentioned, data may be edited or added prior to being transmitted to the patient's EMR. For instance, the data transferred to an application or service may be vital information for a patient, such as is shown inFIG. 8 , but a clinician may wish to update one or more of the values manually, and as such, may be able to edit the one or more values in the application or service. Further, one or more fields, such as drop-down fields that have options from which a user may select, may be intentionally left blank for a user, such as a clinician, to complete. - For example, several data field boxes are left blank in
FIG. 8 , so as to allow a user to fill them in. Further, the data fields may be defined by the user, such that if the user finds it necessary to add an additional data field that is not currently displayed, the user can add the additional data field(s) to add more information. Here,data field box 816 is an example of a box that has had data transferred to it from the medical device, anddata field box 818 is an example of a box, here a drop-down box, that allows the user to fill in additional information for the identified patient. For instance, the user may choose to identify how the blood pressure was taken on the patient, such as if the patient was sitting, standing, or supine. Another drop-down box may be available to identify where the temperature was taken on the patient, such as orally, rectally, in the ear, under the arm, etc. Other examples of data fields in the embodiment ofFIG. 8 that allow a user to fill in additional information include the respiratory rate of the patient, or a pain scale of the patient. As previously mentioned, the user has the option to customize the displayed data fields. -
Area 820 displays the time and date when the data was acquired from the medical device. At any time, a user may be able to get the most updated data from the medical device by selecting a reacquire data button, such asbutton 822. The information inareas sign button 824 may be selected, and the data can then be transmitted to the patient's EMR, as will be described in more detail below. Although a sign button is provided in the embodiment ofFIG. 8 , other methods of indicating that the data is to be sent to the patient's EMR are contemplated to be within the scope of the present invention. - Returning to
FIG. 4 , atstep 460, an indication that the data is to be transmitted to the patient's EMR is received, and the data is transmitted to the patient's EMR atstep 470. Once a user, such as a clinician, has verified that the data from the medical device is accurate, and had edited or added information as needed, the user indicates (e.g.,sign button 824 ofFIG. 8 ) that the data is ready to be transmitted to the patient's EMR for future retrieval. At this point, the data has been authenticated by the user. At step 480, upon transmitting the data to the first patient's EMR, the first patient and the medical device are disassociated such that a second patient can be associated to the medical device. This disassociation may not be an explicit disassociation, but may be an implicit disassociation, wherein the patient's identification is automatically removed from the screen display without receiving an explicit indication from a user that the patient and medical device should be disassociated. - In one embodiment, once the data from the first patient is transmitted to that patient's EMR, the disassociation occurs, thereby allowing for another patient to be identified and associated to the same medical device. In one instance, the medical device does not need to be identified again. An illustrative embodiment of this is shown in
FIG. 9 , which is anillustrative screen display 900 showing a patient having been disassociated from the medical device upon data associated with the patient being transmitted to the patient's EMR. - Initially,
area 910 illustrates that no patient has yet been selected, as the last patient that was associated with the device has been removed and automatically disassociated.Area 912 indicates that one device, which is the same device, is still selected. Information for the medical device is shown inarea 914. A new patient may be identified in any of the ways described above, including the use of asearch button 911 for searching an electronically searchable database having a plurality of patients, such as patients that are currently admitted in a particular hospital, or patients of a particular doctor's office. If another device is desired, the remove allbutton 916 may be selected to remove one or more devices that have been selected (e.g., by checking the checkbox), and thedevice search button 918 may be selected to search for another device. As previously mentioned, other methods for identifying a device may also be available. - As mentioned above, at
step 470, the data is transmitted to the patient's EMR.FIG. 10 illustrates ascreen display 1000 that shows a patient's EMR after receiving transmitted data taken from a medical device, in accordance with an embodiment of the present invention.Area 1010 contains information about the patient to which the EMR belongs. Aninformation display portion 1012 of thescreen display 1000 illustrates the data that was transmitted from the application or service to the EMR. For instance, the patient's vitals are shown in the embodiment ofFIG. 10 , as the medical device associated to the patient was a device that takes vitals. Thus, a temperature, heart rate, pulse rate, and blood pressure are displayed in the patient's EMR. Here, the patient's vitals were taken at three separate times: first at 2:25 PM as indicated inarea 1014, a second time at 2:27 PM as indicated inarea 1016, and a third time at 2:32 PM as indicated inarea 1018. In one embodiment, a user may identify a patient three separate times to record vitals at three separate times in the patient's EMR, but in another embodiment, the user may be able to identify, and therefore associate the patient to the medical device one time, and continue taking readings from the medical device, and have all of the data transmitted to the patient's EMR. - In one embodiment, an identification of a second patient is received, and a user selection is received to associate the second patient to the medical device. As mentioned, this indication may be the selection of a button, such as an acquire data button, or a link, that acts as a retrieval mechanism that retrieves the data from the medical device. The data associated with the second patient is then acquired from the second medical device. This process may continue with a third patient, a fourth patient, etc.
- In still another embodiment, one or more medical devices may be suggested to the user. The medical devices may be suggested based on a number of factors. The user may then select one of the suggested medical devices, and that user selection is received. The patient and the selected device may be associated, and the data associated with the first patient may be acquired from the selected medical device. The medical devices may be suggested based on, for exemplary purposes only, a location of the patient. For instance, the patient may be located in the intensive care unit (ICU) of a hospital, and medical devices typically used in the ICU may be suggested. Alternatively, the medical devices may be suggested based on a diagnosis or treatment of the patient. Still yet, the medical devices may be suggested based on one or more demographics of the user, such as the user's age, gender, or the like.
- Turning now to
FIG. 5 , an illustrative flow diagram is shown of amethod 500 for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR), in accordance with an embodiment of the present invention. WhileFIG. 4 , as described above, illustrates a user first identifying a medical device followed by a patient,FIG. 5 illustrates first identifying a patient, and then a medical device. Thus, initially, atstep 510, an identification of a first patient is received.FIGS. 11 and 12 further illustrate the identification of a patient. For example,FIG. 11 is anillustrative screen display 1100 showing a method of searching for a patient in a database, in accordance with an embodiment of the present invention. This is just one method of identifying a patient, and others are contemplated to be within the scope of the invention. Here, a patient may be searched for utilizing the search box, shown byarea 1110. The search may be performed using the patient's name (e.g., first name, last name) or the patient's identification number, and by selecting asearch button 1114.Area 1112 is a patient list area that displays the patients that are found in the database, and may include some information about the patient that may assist in verifying that the correct patient is identified. As shown here, gender and date of birth information is displayed for one or more of the patients. - Once a patient has been identified by one of many available methods, information corresponding to the patient may be displayed on a screen display, as illustrated by
FIG. 12 .FIG. 12 is anillustrative screen display 1200 showing an identified patient, in accordance with an embodiment of the present invention. The patient information, such as the patient's name, date of birth, and identification number(s), is displayed inarea 1210.Area 1212 indicates that no device has yet been selected, and adevice search button 1214 is provided as one method for identifying a medical device. - Referring back to
FIG. 5 , an identification of a medical device is received atstep 520. In the embodiment ofFIG. 5 , the identified medical device and related information (e.g., vendor, model, status) may not be displayed, but the data from the medical device corresponding to the identified patient may be immediately acquired and displayed. Thus, unlike the embodiment ofFIG. 4 , it is not required here that the user select an acquire data button to associate the patient and medical device and to acquire the data, as once the medical device is identified, the data may be displayed. - At
step 530, the data associated with the first patient is acquired from the medical device in response to receiving the identification of the medical device. The first patient and the medical device are associated to one another, as shown atstep 540. Atstep 550, the data is communicated for display such that the data can be manipulated by a user.FIG. 13 illustrates ascreen display 1300 that shows data acquired from a medical device, in accordance with an embodiment of the present invention. The patient is identified inarea 1310, along with patient information, such as the patient's date of birth, and one or more identification numbers. Atarea 1312, the medical device from which the data has been acquired is identified. The acquired data is displayed inarea 1314. In this embodiment, the medical device took vital information from the patient, and thus vital information is displayed in thearea 1314. Thearea 1314 includes information such as diastolic blood pressure, systolic blood pressure, heart rate, temperature, pulse rate, etc. This data acquired from the medical device is shown in data fields, such asdata field 1316. - Other data fields are shown, such as
item 1318, which has been intentionally left blank for the user, such as a clinician, to fill in. These data fields include how the blood pressure was taken (e.g., sitting, standing, supine), where the temperature was taken on the patient's body (e.g., oral, rectal, from the ear, under the arm), the patient's respiratory rate, and pain scale. These fields, although illustrated in the embodiment ofFIG. 13 , may be customizable by the user, and thus other embodiments of the present invention may include different data fields for the user to fill in.Area 1320 displays when the data was acquired from the device, and may include information such as a date and time. At any time, the user may request to have the most updated data sent from the medical device by selecting areacquire data button 1322. In this instance, a user selection may be received to obtain updated data associated with the patient from the medical device. The updated data may be acquired from the medical device, and the data may be communicated for display such that the updated data can be manipulated by the user in a similar manner as the initial data. - An indication that the data is to be transmitted to the first patient's EMR is received at
step 560. This indication may take one of many forms. For example, returning toFIG. 13 , once the user has verified the data and added or edited any information as necessary, asign button 1324 may be selected, which provides an indication that the data is ready to be sent to the patient's EMR. At this point, the data has been authenticated by the user. Atstep 570, the data is transmitted to the first patient's EMR. In one embodiment, once the data is transmitted, the first patient and the medical device are no longer associated. This disassociation of the patient and the medical device may not be explicit, but may be implicit, such that the user doesn't have to provide any indication that they are to be disassociated. In another embodiment, an explicit disassociation is required to disassociate the patient and the medical device, wherein the user has to actively select a button or otherwise provide an indication that the patient and medical device are to be disassociated. - In a further embodiment, which is illustrated in
FIG. 14 , once the data is transmitted to the patient's EMR, the medical device and patient, having been disassociated upon the transmittal of data to the EMR, are no longer displayed on the screen display, and thus a patient and medical device must be identified in order to be associated.FIG. 14 is anexemplary screen display 1400 illustrating the previously identified medical device and patient no longer being displayed on the display once the data has been transferred to the patient's EMR.Area 1410 indicates that a patient is not currently identified, and may be searched for using asearch button 1411. Other methods of identifying a patient, as discussed herein, may also be used. Similarly,area 1412 indicates that a medical device is not currently identified, and also may be searched for by the selection of adevice search button 1414, although other methods of identifying a medical device may also be used. - Once the data corresponding to the first patient is sent to the first patient's EMR, an identification of a second patient may be received. Upon receiving the identification, the data from the medical device may be acquired, wherein the data corresponds to the second patient, and may be the most updated data corresponding to that patient. The medical device may then be associated with the second patient.
- It will be understood that certain features and sub-combinations of utility may be employed without reference to features and sub-combinations and are contemplated within the scope of the claims. Furthermore, the steps performed need not be performed in the order described.
Claims (19)
1. One or more computer-readable storage media having computer-executable instructions embodied thereon, that, when executed perform a method for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR) that corresponds to the patient, the method comprising:
receiving a user selection to associate a first patient to a medical device;
in response to receiving the user selection to associate the first patient to the medical device, acquiring the data associated with the first patient from the medical device;
communicating the data to an application for display in a format that allows a user to manipulate the data;
upon receiving an indication that the data is ready to be transmitted to an EMR that corresponds to the first patient, transmitting the data from the application to the EMR that corresponds to the first patient; and
automatically disassociating the first patient and the medical device so that a second patient can be associated with the medical device, wherein the data transmitted to the EMR corresponding to the first patient continues to be stored in the EMR after the first patient is disassociated from the medical device.
2. The media of claim 1 , further comprising:
receiving an identification of a second patient;
receiving the user selection to associate the second patient to the medical device; and
acquiring the data associated with the second patient from the medical device.
3. The media of claim 1 , wherein the user selection to associate the first patient to the medical device comprises the user selection of a link that retrieves the data from the medical device.
4. The media of claim 1 , further comprising:
suggesting at least one medical device;
receiving the user selection of one of the at least one medical device;
associating the first patient to the one of the at least one medical device; and
acquiring the data associated with the first patient from the one of the at least one medical device.
5. The media of claim 4 , wherein the at least one medical device is suggested based on a location of the first patient.
6. The media of claim 4 , wherein the at least one medical device is suggested based on a diagnosis of the first patient.
7. The media of claim 1 , further comprising receiving an indication that the data is to be transmitted to the EMR that corresponds to the first patient, the indication indicating that the user has reviewed the data such that the data is ready to be transmitted to the EMR corresponding to the first patient.
8. A system having a processor and one or more computer-readable storage media for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR) that corresponds to the patient, the system comprising:
a processing unit; and
a memory for storing computer-executable instructions that, when executed by the processing unit, executes:
a receiving component that receives identifications for the patient and the medical device;
an associating component that associates the patient to the medical device in response to receiving an indication that the patient and the medical device are to be associated;
an acquiring component that acquires the data from the medical device that is associated with the patient;
a transmitting component that transmits the acquired data to an application so that the data can be added to, deleted, or edited prior to being stored in the EMR corresponding to the patient;
a publishing component that publishes the data to the EMR that corresponds to the patient such that the data is stored in the EMR in association with the patient, wherein the EMR stores patient information relevant only to the patient's medical history and current treatment; and
a disassociating component that automatically disassociates the patient from the medical device after the data is transmitted to the EMR corresponding to the patient, allowing for another patient to be associated with the medical device, wherein the data continues to be stored in the EMR corresponding to the patient after the patient is disassociated from the medical device.
9. The system of claim 8 , wherein the data that is transmitted to the application is displayed in a format that allows the user to add information corresponding to the patient that is not included in the data acquired from the medical device.
10. One or more computer-readable storage media having computer-executable instructions embodied thereon, that, when executed perform a method for electronically transferring data associated with a patient from a medical device to an electronic medical record (EMR) that corresponds to the patient, the method comprising:
receiving an identification of a first patient;
receiving an identification of the medical device;
in response to receiving the identification of the medical device, acquiring the data associated with the first patient from the medical device;
associating the first patient to the medical device;
communicating the data to an application for display such that the data can be added to, deleted, or edited by a user prior to the data being transmitted to an EMR associated with the first patient;
receiving an indication that the data is to be transmitted to the first patient's EMR;
transmitting the data from the application to the first patient's EMR, the data being stored in the EMR in associated with the first patient; and
disassociating the first patient and the medical device after the data is transmitted to the first patient's EMR such that the data transmitted to the EMR continues to be stored in the EMR after the first patient is disassociated from the medical device.
11. The media of claim 10 , wherein the medical device comprises each of a plurality of medical devices.
12. The media of claim 11 , further comprising receiving an indication of one of the plurality of medical devices from which to acquire the data.
13. The media of claim 10 , further comprising:
once the data is sent to the first patient's EMR, receiving an identification of a second patient;
acquiring the data from the medical device, wherein the data is associated with the second patient; and
associating the medical device and the second patient to one another.
14. The media of claim 10 , wherein the identification of one or more of the first patient or the medical device is received by scanning a barcode associated with the first patient or the medical device.
15. The media of claim 10 , wherein the identification of one or more of the first patient or the medical device is received by a user selection of the first patient identification or the medical device identification found in an electronically searchable database that contains a plurality of identifications.
16. The media of claim 10 , wherein the data acquired from the medical device includes vital information taken from the first patient, the vital information including one or more of a body temperature, blood pressure, respiration, or pulse.
17. The media of claim 10 , wherein the data is authenticated once it is transmitted to the first patient's EMR.
18. The media of claim 10 , further comprising;
receiving a user selection to receive updated data associated with the first patient from the medical device;
acquiring the updated data from the medical device; and
communicating the updated data for display such that the updated data can be manipulated by the user.
19. The media of claim 10 , wherein the data is communicated for display into a format that allows the user to add information corresponding to the first patient that is not included in the data acquired from the medical device.
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Also Published As
Publication number | Publication date |
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US20170316160A9 (en) | 2017-11-02 |
US20160364530A1 (en) | 2016-12-15 |
US8731957B2 (en) | 2014-05-20 |
US10546357B2 (en) | 2020-01-28 |
US20100179819A1 (en) | 2010-07-15 |
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