RU25614U1 - COMPUTER MONITORING SYSTEM OF POPULATION HEALTH AND DIAGNOSIS OF DISEASES - Google Patents

Description

COMPUTER MONITORING SYSTEM OF POPULATION HEALTH AND DIAGNOSIS OF DISEASES

The utility model relates to the field of medicine and is intended for monitoring public health using personal computers and the Internet and diagnosing diseases. The task of creating a utility model is the complete automation of the monitoring and diagnosis process with mass coverage of the entire population and improving the quality of service.

Known methods for monitoring public health and diagnosing diseases without using computers, for example, folk remedies (book Susan Altoff. Alternative Medicine, Ural LTD, p. 8 ... 11).

The method is not applicable for mass coverage of the population.

There is also a known system for monitoring public health and diagnosing diseases that contains equipment for the clinical evaluation of laboratory blood data, biological fluids, such as lymph, hormones, and entering these data into a personal computer. Book Bochkova N. N., Handbook of the therapist, M., publishing house ACT, part 2, p. 703 ... 720.

Disadvantages of the system are poor quality monitoring and diagnosis.

Tasks of creating a utility model: expanding the functionality and quality of technology for monitoring public health and diagnosing diseases and issuing recommendations for treatment of all types of clinical (diagnosable) diseases and associated somatic disorders, as well as in chronic and acute diseases, in extremely severe cases and speeding up prevention monitoring for healthy people.

MKP7O06R15 / 00

To measure parameters characterizing the state of the human body, a conversion device, an interactive device, at least one personal computer for collecting, storing and processing information, personal computers are connected to the Internet using hardware, and / or protection modules against unauthorized access and information leakage of the monitoring and diagnostic process, to which servers of specialized medical institutions are also connected . The equipment for measuring parameters characterizing the state of public health includes sensors for measuring physical, and / or chemical, and / or visual, and / or electrical parameters of the human body, including biologically active points and / or biologically active zones. As sensors for measuring physical parameters, sensors of pressure, and / or temperature, and / or pulse, and / or weight, and / or force meters, and / or ergonometers are used. As chemical sensors, sensors used to measure the chemical composition of the blood and / or biological fluids of the patient’s body are used. A video camera was used as a visual sensor, for example, for scanning the patient's iris retina. Conductivity sensors and / or electric potential sensors attached to the patient’s skin surface and / or biologically active points and / or biologically active zones were used as sensors of electrical parameters. The personal computer software contains a database, a program for determining the initial diagnosis, a program for accessing the server or servers of specialized medical institutions, and a program for determining the final diagnosis.

The essence of the utility model is illustrated in the drawings of FIG. 1 and 2, where:

In FIG. 1 shows a diagram of the system.

The system (Fig. 1) contains equipment 1, including sensors 2 ... 5, the number of sensors and their types and purpose can be arbitrarily large. The system contains one or more personal computers 6 ... 7, which are concentrated in one or more diagnostic centers of a region (country). The outputs from the sensors 2 ... 5 are connected to the first input of the conversion device 8, which is, for example, a multi-channel analog-to-digital converter. To the second and third inputs of the personal computer 6 are connected, respectively, an interactive exposure device 9, for example, a keyboard, a mouse, a scanner, etc., and a camera 10. To the first output from the personal computer 6, one or more devices are connected to output information 1, namely: monitor, printer, etc. The second exit from the personal computer 6 through the protection module 12 and the modem 13 and the communication line 14 is connected to the Internet 15. A server or several servers of specialized medical institutions 16 ... 18 are connected to the Internet 15.

The hardware and software of computer 6 is shown in FIG. 2 and contains electronic components 19 and software 20. The software 20 contains a database 21. An information processing program 22, an initial diagnosis program 23, a program for accessing the server of a specialized medical institution 24, and a final diagnosis program.

The system works as follows. Patients come to a diagnostic center in which a personal computer 6, or several computers, is installed. Sensors 2 ... 5 are attached to the patient and, in addition, information that cannot be obtained by the sensors, for example, the patient’s name, age information and subjective complaints, is entered using an interactive exposure device 9. Additionally, information can be entered from the video camera 10, for example, the pattern of the retina. Information from the sensors 2 ... 5, from the interactive exposure device 9 and from the video camera 10 is sent to a personal computer 6, where it is processed by the information processing program 22 and then the initial diagnosis is formed using the initial diagnosis program 23. If necessary, in complex or insufficient software resources of a personal computer 6, the program for accessing the server of a specialized medical institution 24 generates a request to the Internet 15 and then to the corresponding server of a specialized medical institution 16 ... 18. A response from a server or several servers of specialized medical institutions arrives at a personal computer 6, which issues a final diagnosis to the information output device I. The patient receives an oral consultation or a printout of dia Noz disease on the printer. In addition, information about the status of all who applied to the diagnostic center, including healthy people, is stored in the memory of personal computers 6 ... 8, which allows monitoring the health of the population. Application of the utility model allowed: 1. To conduct mass monitoring of the health status of the population of a region (country). 2. Carry out a quick and high-quality diagnosis of diseases using the experience of specialized medical institutions located in remote regions and other countries. 3. To ensure the protection of confidential information of the monitoring and diagnosis process from leakage and unauthorized access. Authors: xi Grigashkin G.A. 05.2002 DUDIKYU.B.

Claims (7)

1. A system for computer monitoring of public health and diagnosing diseases, comprising apparatus for measuring parameters characterizing the state of the human body, a conversion device, an interactive exposure device, at least one personal computer for collecting, storing and processing information, characterized in that personal computers through a conversion device and communication lines are connected to the Internet using hardware and / or software modules for protection against unauthorized access UPA and information leakage process monitoring and diagnostics, which are also connected to the servers of specialized medical institutions.  2. The computer monitoring system of public health and diagnosing diseases according to claim 1, characterized in that the equipment for measuring parameters characterizing the state of public health includes sensors for measuring physical and / or chemical and / or visual and / or electrical parameters of the human body, including biologically active points and / or biologically active zones.  3. The system of computer monitoring of public health and diagnosing diseases according to claim 1 or 2, characterized in that pressure sensors, and / or temperature, and / or pulse, and / or weight sensors and / or force meters are used as sensors for measuring physical parameters , and / or ergonometers.  4. A system for computer monitoring of public health and diagnosing diseases according to any one of claims 1 to 3, characterized in that sensors for measuring the chemical composition of the blood and / or biological fluids of the patient’s body are used as chemical sensors.  5. A computer monitoring system according to any one of claims 1 to 4, characterized in that a video camera is used as a visual sensor, for example, for scanning the patient's iris.  6. The system of computer monitoring of public health and diagnosis of diseases according to any one of claims 1 to 5, characterized in that conductivity sensors and / or electric potential sensors attached to the patient’s skin surface and / or biologically active points are used as sensors of electrical parameters , and / or biologically active zones. 7. The system of computer monitoring of public health and diagnosis of diseases according to any one of claims 1 to 6, characterized in that the personal computer software contains a database, an information processing program, an initial diagnosis determination program, a program for accessing a server or servers of specialized medical institutions and a program for determining the final diagnosis.