KR20010102866A - Remote diagnosis system of osteoporosis - Google Patents

Abstract

The present invention uses x-ray or ultrasound to acquire images of calcaneus areas such as fingers, wrists, and ankles needed for bone density diagnosis, and transfers the acquired images to a diagnosis server using a communication network such as an internet network to diagnose bone density embedded in the server. The present invention relates to a remote bone density diagnosis apparatus and method for measuring bone density at a remote location by storing diagnostic analysis using an algorithm and outputting the analyzed result through a communication network using a monitor and a printer of a user terminal.

Description

Remote diagnosis system of osteoporosis

The present invention relates to a bone density remote diagnosis system and method using the Internet or telephone network. In more detail, when a user acquires an image by capturing ultrasound or X-rays, accesses a diagnosis server that can be accessed using the Internet or a telephone network, transmits data for bone density measurement and requests a bone density diagnosis. By storing the transmitted data and driving the bone density analysis and diagnostic program to diagnose and transmit only the results to the user terminal or if necessary attach the doctor's opinion to the user terminal and the user can output the received diagnostic results System and method thereof.

The method for measuring and analyzing and diagnosing the bone density of a patient in a medical institution includes a device for diagnosing osteoporosis in a medical institution, or a system for diagnosing bone density by requesting a developed X-ray film to another hospital.

The method of diagnosing bone density is to analyze and diagnose data using simple X-rays, dual energy X-rays, and ultrasound using various professional and systematic algorithms. In the case of using X-rays, there is a problem that it is difficult to obtain accurate data due to over-development and low phenomenon in developing X-ray film.

The conventional bone density diagnosis system using a local system in the hospital has to establish a device for diagnosing bone density in a hospital, or a patient has to come to the hospital where the equipment is installed, or sends a developed X-ray film to another hospital to send bone density The hassle has to be requested. In addition, the examinee should visit the hospital only to diagnose osteoporosis, thereby increasing the work of the hospital and the investigator should invest a lot of time. In particular, in private clinics or public health centers, if you do not have expensive diagnostic equipment, osteoporosis diagnosis is either impossible or takes a lot of time.

The present invention is to solve the problems of the conventional bone density diagnosis method using a local system, an object of the present invention is a system capable of diagnosing bone density using an Internet system that can expand and integrate the user area And to provide a method.

In order to achieve the above object of the present invention, the present invention provides a data acquisition device capable of obtaining bone density data, a transmission device capable of transmitting the acquired data to a server, software and patient information for diagnosis and analysis connected through the Internet, It is provided with a diagnostic server having a database storage device for the management of bone density, etc. When a user accesses the diagnostic server to request a diagnosis and transmits the data for diagnosis, the diagnostic server passes the data storage and analysis process to the user. A system and method for transmitting a diagnosis result and outputting the received diagnosis result data on the user side are provided.

1 is a view showing the configuration and schematic concept of the present invention.

2 is a perspective view of the concept of obtaining an image by irradiation with radiation.

3 is a flowchart illustrating the operation of the present invention.

4 is a flowchart showing a diagnosis result output and a receiver notification and confirmation process.

1: user terminal 2: diagnostic server

3: communication network such as internet

11: personal information input device 12: authentication and payment confirmation

13: image acquisition unit 14: output device such as monitor printer

21: User authentication section 22: Recipient Information Database

23: bone density diagnosis algorithm 24: image information database

41: radiation device 42: subject

43: digital x-ray sensor 61: email address

62: personal computer

Hereinafter will be described in detail with reference to the accompanying drawings for the configuration and operation of the embodiment of the present invention. Osteoporosis diagnostic equipment is diagnosed using X-rays or ultrasound, in the embodiment will be described diagnostic equipment using X-rays and digital detectors.

1 is a schematic diagram according to an exemplary embodiment of the present invention, which is composed of a user terminal unit 1 and a server unit 2, and the user terminal unit 1 is an image acquisition unit for acquiring an image necessary for bone density diagnosis ( 13) an image processing unit for temporarily storing the acquired image, transmitting and receiving data to and from the server (3), inputting user information (11), and outputting a diagnosis result (14) through user authentication steps (12, 21). The server unit 2 is a system for analyzing the transmitted receiver information 22 and the transmitted image (23), storing the transmitted image and the analysis result (24), and transmitting the analysis result to the image processing unit. In this case, the communication means between the user terminal 1 and the server may be configured as an internet network or a modem.

As shown in FIG. 2, the X-rays 41 are irradiated onto the calcaneal sites 42 such as fingers and wrist heels, and the X-rays 42 passing through the subject are captured by the X-ray sensor 43 as images. At this time, since the image acquisition device 13 does not use a film, there is no developing process, and by using the high-sensitivity semiconductor sensor 43, there is an effect of reducing the X-ray exposure by about 90% or more as compared to when the film is exposed to light. The acquired image is transmitted to the server unit 2 by wired or wireless communication means such as an internet network to analyze the bone density. The analyzed result is transmitted back to the user terminal unit 1 to output the result to the monitor 14 and can be output using the printer 14.

3 is a schematic flowchart of an embodiment of the bone density telediagnosis method of the present invention.

An embodiment of the present invention is, for example, a bone density remote diagnosis method that can be carried out inside and outside the medical institution, the user may be a subject to be examined as well as a doctor requesting a diagnosis, the user terminal and server in the hospital, In addition, it may be a bone density diagnosis computer system connected by an Internet network or other communication network.

In order to diagnose the bone mineral density of the examinee, the user first accesses the diagnosis server 2 through the user authentication process (12, 21). At this time, when the user connects as a doctor, a certificate such as an assigned unique ID is used, and if the user is a subject, the diagnosis server 2 is made through the user terminal 1 by paying the examination fee with cash, cyber money, credit card, or the like. Accessing (STEP 51),

Confirming whether the user connected to the user terminal in the diagnosis server 2 is an authenticated person or pays a diagnosis fee (STEP 52);

Inputting information such as a resident registration number, an e-mail address, and a phone number of the examinee in the step (STEP 53);

Acquiring an X-ray image of a diagnosis part of a patient by using the image acquisition device and temporarily storing the x-ray image in a user terminal and transmitting data to a server (STEP 54);

Diagnosing and analyzing the transmitted image using a bone density diagnosis algorithm and transmitting diagnosis result data to the user terminal (STEP 55);

And receiving the diagnosis result data transmitted from the diagnosis server 2 and outputting the diagnosis result data to the display unit and the user output device of the user terminal (STEP 56).

4 is a flowchart illustrating an example of a process of confirming a diagnosis result by a user in a remote bone density remote diagnosis method according to the present invention.

In the process of FIG. 4, the bone density diagnosis result previously diagnosed by the user may be confirmed through the monitor 14 and may be confirmed by using the output of the printer 14. In addition, by sending the diagnosis result to the e-mail address 61 of the examinee, even if the time is delayed due to a decrease in communication speed or requires time for analysis, the diagnosis result can be notified to the examinee. In addition, the user may access the server through his or her own number, that is, the resident registration number, etc., using the personal computer 62, and confirm the diagnosis result and receive the diagnosis result.

The protection scope of the present invention is not limited to the embodiments of the system and method of the present invention described above, but includes various embodiments that can be predicted based on the technical idea of the present invention.

As described above, according to the remote bone mineral density diagnosis apparatus according to the present invention, even if the patient does not visit the hospital where the bone density diagnosis apparatus is installed, the examinee directly accesses the diagnosis server and diagnoses the effect of saving time and money. In addition, the examinee can easily operate the device to diagnose osteoporosis by preventing osteoporosis, and if it turns out to be osteoporosis, visit the hospital immediately and receive medical treatment. It is effective to reduce errors.

In addition, data can be electronically accumulated to provide more accurate bone density diagnosis and comprehensive evaluation based on the integrated data.

Claims (6)

X-ray image acquisition device using X-ray 42 and digital X-ray sensor and communication means such as Internet network, user input device such as touch screen and keyboard, output device composed of monitor and printer, and payment system for using the diagnosis device. In the remote bone density diagnosis system comprising a diagnostic server having a user terminal and a diagnostic analysis storage and transmission and reception device for bone density, The user terminal acquires an X-ray image of a calcaneal region such as a finger or ankle, transmits the input personal information and X-ray image to the diagnosis server, analyzes and diagnoses the image at the diagnosis server, and transmits the diagnosis result data to the user terminal. Bone density remote diagnosis system and its method. The method according to claim 1, Bone density remote diagnosis system and method using ultrasound as an image acquisition device. The method according to claim 1, wherein the digital X-ray sensor of the image acquisition device is an AREA sensor or a LINEAR sensor using a semiconductor such as CCD, CMOS, AMLCD, TFT, TFA, and the like. The X-ray of the image acquisition apparatus of claim 1, wherein the bone density remote diagnosis system and method using SOFT X-RAY, HARD X-RAY, COOL X-RAY, DUAL MODE X-RAY, and the like. Bone density remote diagnosis system and method, characterized in that the image obtained in claim 2 is two-dimensional and three-dimensional data. Claims 1, 2, 3, 4, 5 Bone density remote diagnosis system and method, characterized in that the built-in functions such as image acquisition, diagnosis, analysis, storage, output of results in the user terminal.