JP2001005879A - Medical system architecture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To call the image and patient data of an ERP bank from the operator console of facilitates and work stations. SOLUTION: This device has image acquisition facilities 1-4, receiving devices 5-8 for image processing and patient data, a transmitting device 9 for image and patient data for exchanging data between application programs, an image storage device 10 and a device 13 for storing the other patient data in the ERP server of the ERP data bank and/or other hospital information system. The ERP server is made to correspond, to the facilities 1-4 and they communicate with each other through the data object of the ERP server. The ERP server communicates with the hospital information system through the device 9 while using the data object.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for acquiring images, a device for processing images belonging to each device and receiving data relating to a patient, and DICOM (Digital Imaging and Communication in Medicine). The present invention relates to a medical system architecture having a device for transmitting images and data relating to a patient operating for data exchange between various application programs according to the law, and a device for storing images and data.

[0002]

[Prior Art] Book "Bildgebende Systeme fur die me"
dizinische Diagnostik (imaging diagnostic imaging system) ", H. Morneburg, 3rd edition, 199
From 5 years, page 684 onwards, a medical system architecture is known in which an image viewing and image processing station, a so-called workstation, is connected to an image communication network for retrieving images generated by patient data and equipment. However, only minimal data from the DICOM worklist is available to the facility. Thus, the DICOM Worklist transmits only some patient data, such as, for example, name, age, ID, and certain risk factors.

[0003] DE-A 196 25 837 describes a device for acquiring images, a device for image processing associated with each device, and data exchange between various application programs according to the DICOM method. A medical system architecture is described that has a device for image transmission operative to perform image processing and a device for storing images.

From DE-A 41 32 951, further data on patients are stored in a central computer,
Medical system architectures with devices for storage along with other general treatment data are known.

[0005]

The object of the present invention is to provide a medical system architecture of the type described at the outset, wherein the equipment and workstation operator consoles are used to store images and images from an EPR (electronic chart) data bank. The object is to provide a medical system architecture that allows the recall of all patient data.

[0006]

According to the present invention, there is provided a medical system architecture in which data relating to another patient is further stored in an EPR data bank and / or in an EPR server of another hospital information system that owns the data. At least one device for storing in the
Associated with an EPR server having control software for connection to the R databank and / or the EPR server, which communicates with each other via the data objects of the EPR server using browser software provided in the facility. In this case, the problem is solved by the EPR server communicating with the hospital information system via the device using the data object. Thereby, important, ready-to-use data or test results, for example from the operator console of the facility, can be made available on the fly from other hospital information systems of the information technology. Access to all patient data stored in the EPR data bank is enabled. That is, DICO
Aside from M's minimal data, access to laboratory results, other findings, previous history of all tests, prescriptions and possibly insurance data is possible.

According to the invention, the EPR server runs on the operator console of a facility having a console computer and an image display unit, or on its own computer. The EPR server can then be connected directly or indirectly via an interface engine to the EPR data bank.

[0008] The EPR server uses a data object and issues an HL (health level) 7 command to the DIC for equipment.
The facility communicates with other hospital information systems if it communicates via an interface engine that converts to OM commands.

[0009] The EPR server ensures that only the user and / or the right of access are checked only on the first inquiry from the EPR browser, and merely authentication and / or decoding or coding is performed. If so configured, access to data is simplified.

Advantageously, the device for storing patient data in the EPR data bank has terminals in an application data bank for the laboratory and / or the radiology department or in a management data bank spanning departments in the hospital information system. It is.

A user interface of an apparatus for processing an image is divided into a plurality of ranges. Insertion is performed according to information of a user job in a control range, and a field in a card writer format is arranged at an edge of the user interface. In a medical system architecture, each of which is associated with another user job, and the currently invoked visible user job at the present time is marked recognizable on a card writer, the present invention provides a Above the interface, an EPR icon and / or an EPR browser window may be insertable.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the embodiments shown in the drawings.

FIG. 1 shows the system architecture of a medical image communication network as an example. Acquisition of medical images is performed by an imaging system, for example, a CT unit 1 for computer tomography, an MR unit 2 for magnetic resonance, a DSA unit 3 for digital subtractive angiography, and an X-ray unit 4 for digital radiography. It is performed by equipment including. Connected to these equipments 1 to 4 are operator consoles 5 to 8 of the equipment or the workstation, by which the medical images acquired are processed and stored locally. Further, patient data related to the image is input.

The operator consoles 5 to 8 are connected to an image communication network 9 for distributing and communicating generated images. Thus, for example, images generated in facilities 1-4 and operator consoles 5-8
The images further processed in are stored in a central image storage and archiving system 10 or transmitted to other workstations.

A further workstation 11 is connected to the image communication network 9 as a finding console with a local image memory. Such workstations are very fast small computers, for example based on one or many fast processors. The images acquired in the workstation 11 and stored in the image archiving system 10 are later recalled for finding and are also stored in a local image memory, from which the work It is provided for use by an observer working at the station 11.

The image communication network 9 further includes a server 1
2. eg patient data server (PDS), file server, program server and server 13 according to the invention
Is connected.

The exchange of images and data via the image communication network 9 is carried out in such a way that the digital communication between the diagnostic and therapeutic devices of different manufacturers is possible with a DIC.
It is performed according to the OM standard, an industry standard for transmitting images and other medical information between computers. A network interface 14 may be connected to the image communication network 9 via which the internal image communication network 9 is connected to a global data network, for example the World Wide Web 3.
4 and the data thus standardized are globally exchanged by different networks.

FIG. 2 shows a user console 21 of the facility,
2 schematically shows a connection relationship between a hospital information system and a hospital network 20 connected to the image communication network 9 of FIG. 1. The user console 21 is connected to communicate with the data object of the EPR server 23 via the data line 22, and the EPR server 23 uses the server software to execute, for example, authentication, decoding or coding and one-time authentication based on trust. Logon is performed. That is, upon a query from the browser, a user or access right check (trust-based logon) is performed only once, even if more systems are subsequently queried.

Above the user interface of the user console 21, a so-called task card 24 is inserted, as described in DE-A-1985 53 958.4. A user job or task is thus selected that is to be considered as a workflow activity in a simple and fast way, and that can be used in an advantageous manner in all medical imaging methods, especially in image post-processing and finding. It is. At that time, many tasks or activities are processed in parallel and optionally called. At that time, the user interface is divided into multiple ranges,
At this time, insertion of the information of the user job is performed within the control range, fields in the form of the card writer 25 are arranged on the edge of the user interface, and other user jobs are respectively associated with them, and are currently called. The currently visible user job is marked recognizable on the card writer 25. According to this task card concept, the card writer 25 located at the edge ensures that a clear division takes place. Thereby, a medical workflow is realized.

According to the present invention, an EPR icon 26 is arranged on at least one task card 24 on the user interface, whereby the window of the EPR browser 27 is inserted.

The EPR server 23 communicates with the hospital network 20 via a connection 29 using a data object 28.

Further, a hospital circuit network 20 and an HL7 interface engine 30 are connected. The interface engine is, for example, a software package mounted on a small PC so that two different systems can communicate. For example, the HL7 instruction of the radiology information system RIS is transmitted to the equipments 1 to 4 by the DIC.
Convert to OM instruction.

[0023] The hospital network 20 is linked to information technology (IT) systems, such as servers 31 and 32 for application and management software. Laboratory and radiology (L
The application software package for ab / RIS is a so-called department system. In contrast, cross-departmental management software (Admin), located, for example, on the server 32, is used within a hospital information system (KIS) that also contains key data. All systems are E
It has a data bank that the PR server 23 can access. Through the network 20, access to the world wide web 34 is also provided, as described above in connection with FIG. In addition, the EPR server accesses an EPR data bank 33 that stores the clinical history of the patient. Access is via the hospital network 20 directly or indirectly via the hospital network 20 to the interface engine 30.
Done through.

The equipment screen, the window of the EPR browser 27 on the user interface of the operator consoles 5 to 8 of the equipments 1 to 4 and the EP on the task card 24
With the arrangement according to the invention with the R icon 26 and the connection to the EPR server 23, some patient data (name, age, ID and specific risk factors) is not only transmitted by the DICOM worklist, but also Access is made to all patient data stored in the databank. In this way, the researcher is provided with the research results, other preliminary findings, the entire history of previous tests, prescriptions and possibly insurance data, along with the minimum data in each of the facilities 1 to 4.

The basis is unified software on all installations starting from the EPR browser. Within the EPR browser 27, data access to various in-hospital IT systems, such as patient management, radiology information systems, laboratory data, image memory, etc., restricted to the specific applications held, is provided via an interface engine. Or a hospital information system that enables direct progress. The user, ie, the patient, communicates via the EPR server 23 data object. The EPR server 23 communicates with the interface engine 30 via the data object 28,
It is directly connected to the IT system 31 or 32 or directly to the EPR data bank.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram showing an example of a system architecture of a medical image communication network.

FIG. 2 is a conceptual diagram of a hospital information system according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 CT unit 2 MR unit 3 DSA unit 4 X-ray unit for digital X-ray photography 5-8 Operator console of facilities 1 to 4 9 Image communication network 10 Image archiving system 11 Workstation 12 Server 13 EPR server 14 Circuit network Interface 20 Circuit network 21 Operator console of equipment 1 to 4 22 Data line 23 EPR server 24 Task card 25 Card writer 26 EPR icon 27 EPR browser 28 Data object 29 Connection 30 HL7 interface engine 31 Management software server 32 Application software Server 33 EPR Data Bank 34 World Wide Web

Claims (9)

[Claims] An apparatus for acquiring an image (1 to 4) and an image processing and patient receiving apparatus (5 to 8) attached to each of the apparatuses (1 to 4)
An apparatus (9, 20) for transmitting images and data relating to a patient operable to exchange data between various application programs according to the DICOM method, and an apparatus (10) for storing images. The data relating to another patient is stored in the EPR data bank (33) and / or the EP of another owned hospital information system (30 to 33).
At least one device (13, 30 to 33) for storing in an R server, and the EPR data bank (33) and / or EP
E with control software for connection to R server
PR servers (23) are associated with each other and communicate with each other via the data objects of the EPR server (23) using browser software occupying the facility, whereupon the EPR server (23) Communicate with a hospital information system (30-33) via a device (9, 20) using a data object (28). 2. An EPR server (23) comprising an equipment (1) having a console computer and an image display unit.
2. The medical system architecture according to claim 1, wherein the medical system architecture operates on an operator console (5-8) or on its own computer (11). 3. The EPR server (23) directly or indirectly through an interface engine (30).
The medical system architecture according to claim 1 or 2, wherein the medical system architecture is connected to a data bank (33). 4. An EPR server (23) using a data object (28) and an interface engine (30).
4. The medical system architecture according to claim 1, wherein the medical system architecture communicates with a hospital information system via a computer. 5. The EPR server (23) only allows the user and / or the first inquiry from the EPR browser (27).
5. The medical system architecture according to claim 1, wherein the medical system architecture is configured to perform a test only for an access right holder. 6. The method according to claim 1, wherein the EPR server is configured to perform one-time authentication only upon the first inquiry from the EPR browser. Medical system architecture as described in. 7. The method according to claim 1, wherein the EPR server is configured to execute decoding or coding upon a query from the EPR browser. Medical system architecture as described in. 8. The device according to claim 1, wherein the device for storing patient data in the EPR data bank comprises an application data bank for a laboratory and / or a radiology department. Medical system architecture according to one of the above. 9. An apparatus for storing patient data in an EPR data bank having terminals in a management data bank across departments in a hospital information system. 9. The medical system architecture according to one of the claims 1 to 8.