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KR-20260064390-A - MEDICAL INFORMATION INTEGRATED MANAGEMENT DEVICE, METHOD FOR IMPROVING TREATMENT EFFICIENCY BASED ON ARTIFICIAL INTELLIGENCE AND SYSTEM THEREFOR

KR20260064390AKR 20260064390 AKR20260064390 AKR 20260064390AKR-20260064390-A

Abstract

An apparatus, method, and system for integrated medical information management for artificial intelligence-based clinical efficiency are disclosed. A method for integrated medical information management for artificial intelligence-based clinical efficiency according to at least one of the various embodiments of the present disclosure may comprise: a step of acquiring clinical data; a step of predicting and analyzing the acquired clinical data using a trained artificial intelligence model; a step of generating and mapping a unique code to the clinical data; a step of converting an image of the stored clinical data; a step of mapping clinical guide data to the converted image of the clinical data and storing it; a step of executing a viewer to retrieve the clinical data when a request for the data is received; and a step of providing the retrieved clinical data through the executed viewer.

Inventors

  • 원창덕

Assignees

  • 가톨릭대학교 산학협력단

Dates

Publication Date
20260507
Application Date
20241031

Claims (20)

  1. In a method for integrated medical information management for artificial intelligence-based medical treatment efficiency, performed by a device processor, Step of acquiring clinical data; A step of predicting and analyzing the clinical data obtained above using a trained artificial intelligence model; A step of generating and mapping a unique code to the above clinical data; A step of converting the image of the clinical data stored above; A step of mapping clinical guide data onto an image of the converted clinical data and storing it; When a request for clinical data is received, a step of executing a viewer to call the clinical data; and The method comprises the step of providing the called clinical data through the executed viewer. method.
  2. In claim 1, The method further comprising the step of forming a platform for the integrated management of the above medical information, method.
  3. In claim 2, The above platform is, Services provided in the form of web services or web applications, method.
  4. In claim 3, The above platform is, Integrated with the Picture Archiving and Communication System (PACS), method.
  5. In claim 4, The image of the clinical data stored above is, Converting JPEG files into DICOM file format, method.
  6. In claim 5, In the above clinical guide data, at least one of the content predicted and analyzed by the above artificial intelligence model and the medical staff's explanatory data, method.
  7. In claim 6, In the above clinical guide data, Includes pre/post-clinical images and medical data, method.
  8. In claim 7, In the above clinical guide data, Updated after providing the above clinical data to the patient, method.
  9. In claim 1, The above unique code is, A unique identifier generated by considering the type of clinical data, generation time, clinical field, and medical staff mentioned above, method.
  10. In claim 4, In the above viewer, A viewer dedicated to the above-mentioned medical image storage and transmission system (PACS), method.
  11. In a medical information integrated management device for artificial intelligence-based medical treatment efficiency, Memory; and It includes a processor that communicates with the above memory to exchange data, The above processor is, When clinical data is acquired, the clinical data is predicted and analyzed using a trained artificial intelligence model, a unique code is generated and mapped to the clinical data, the image of the stored clinical data is converted, clinical guide data is mapped to the converted image of the clinical data and stored, and when a request for clinical data is received, a viewer is executed to call the clinical data, and the called clinical data is provided through the executed viewer. device.
  12. In claim 11, The above processor is, Providing a platform for the integrated management of the above medical information, device.
  13. In claim 12, The above processor is, Providing the above platform in the form of a web service or web application, device.
  14. In claim 13, The above processor is, Controlling the above platform to be linked with a medical image storage and transmission system (PACS), device.
  15. In claim 14, The above processor is, Converting the images of the above-mentioned stored clinical data from JPEG files into DICOM file format, device.
  16. In claim 15, The above processor is, Controlling the above clinical guide data to include at least one of the content predicted and analyzed by the artificial intelligence model and the medical staff's explanation data. device.
  17. In claim 16, The above processor is, Controlling to include pre- and post-clinical images and medical data in the above clinical guide data, device.
  18. In claim 17, The above processor is, Updating the above clinical guide data after providing the above clinical data to the patient, device.
  19. In claim 11, The above unique code is, A unique identifier generated by considering the type of clinical data, generation time, clinical field, and medical staff mentioned above, device.
  20. In claim 14, In the above viewer, A viewer dedicated to the above-mentioned medical image storage and transmission system (PACS), device.

Description

Medical Information Integrated Management Device, Method for Improving Treatment Efficiency Based on Artificial Intelligence, and System Therefor The present disclosure relates to medical information management, and more specifically, to an apparatus, method, and system for efficiently managing various medical information in conjunction with a medical image storage and transmission system based on artificial intelligence. Conventional management of clinical photos relied on individual storage devices for each medical department, which had problems with data preservation, usability, and security. Clinical photographs visually record a patient's condition and are used for various purposes, such as diagnosis, treatment planning, information sharing among medical staff, and patient explanation; however, due to the absence of a system to systematically manage medical information like these clinical photographs, their value was not being fully utilized. With the recent rapid advancement of big data and artificial intelligence technologies, the importance of medical information such as clinical images is increasing, but difficulties in data standardization and integrated management still exist. FIG. 1 is a schematic diagram of an artificial intelligence-based medical information integrated management system according to one embodiment of the present disclosure. FIGS. 2 to 9 are drawings illustrating the integrated management of medical information provided by the system of FIG. 1. Figure 10 is a configuration block diagram of the computing device of Figure 1. FIG. 11 is a flowchart illustrating an artificial intelligence-based medical information integrated management method according to an embodiment of the present disclosure. FIG. 12 is a drawing illustrating an example of a user interface related to artificial intelligence-based medical information integrated management according to an embodiment of the present disclosure. Throughout this disclosure, the same reference numerals denote the same components. This disclosure does not describe all elements of the embodiments, and general content in the art to which this disclosure pertains or content that overlaps between embodiments is omitted. The terms 'part, module, component, block' as used in the specification may be implemented in software or hardware, and depending on the embodiments, a plurality of 'parts, modules, components, blocks' may be implemented as a single component, or a single 'part, module, component, block' may include a plurality of components. Throughout the specification, when a part is described as being "connected" to another part, this includes not only cases where they are directly connected but also cases where they are indirectly connected, and indirect connections include connections made via a wireless communication network. Furthermore, when it is stated that a part "includes" a certain component, this means that, unless specifically stated otherwise, it does not exclude other components but may include additional components. Throughout the specification, when it is stated that a component is located "on" another component, this includes not only cases where a component is in contact with another component, but also cases where another component exists between the two components. Terms such as "first," "second," etc., are used to distinguish one component from another, and the components are not limited by the aforementioned terms. Singular expressions include plural expressions unless there is an obvious exception in the context. In each step, identification codes are used for convenience of explanation and do not describe the order of the steps; the steps may be performed differently from the specified order unless a specific order is clearly indicated in the context. The operating principles and embodiments of the present disclosure will be described below with reference to the attached drawings. In this specification, the term "device according to the present disclosure" includes all various devices capable of performing computational processing and providing results to a user. For example, the device according to the present disclosure may include all of a computer, a server device, and a portable terminal, or may be in the form of any one of these. Here, the computer may include, for example, a notebook, desktop, laptop, tablet PC, slate PC, etc. equipped with a web browser. The above server device is a server that processes information by communicating with an external device, and may include an application server, a computing server, a database server, a file server, a game server, a mail server, a proxy server, a web server, etc. The above portable terminal may include, for example, all types of handheld-based wireless communication devices such as PCS (Personal Communication System), GSM (Global System for Mobile communications), PDC (Personal Digital Cellular), PHS (Personal Handyphone System), PDA (Personal Digital Assis