UA10836U - System for distant assessment of state of surface in biological object - Google Patents

Abstract

The system for the distant assessment of the state of surface in the biological object comprises the photosensor for recording the light flux from the surface of the object under study and the system of the distant transmission of information. In addition, the system contains pulse generator providing for variation of wave length of the emitting light, the photosensor connected with the module of the primary processing of the data and the module of transmitting the data to the server as well as with the feedback module and the module for displaying the results of the analysis.

Description

Description of the invention

The useful model refers to the field of medicine, namely to informatics and telemedicine and can be used for combined remote determination of the state of the corresponding surfaces, which, in turn, directly or indirectly determine the patient's health indicators.

There are known approaches defined as the use of psychophysiological sensor systems and systems that can be used at the household level (pocket systems - mobile phones, pocket computer systems, etc.). Measurement data obtained by such systems can be verified on the portable equipment itself before they are transmitted to a central computer (server).

The obtained data are supposed to be used to monitor the state of the body during the user's participation in computer games, as well as to provide other forms of biological feedback - for example, measuring the level of stress or controlling blood pressure, etc. The measurement results can be used in a networked environment when they are transmitted to a central server that simultaneously 12 processes multiple results from many users. Switching on sensor systems for measuring psychophysiological parameters, which aims to control and support the operation of the equipment, is carried out by using the control panel of ordinary household appliances - such as, for example, an air conditioner, a refrigerator, and others. In the developed technical solution, the possibility of producing a feedback signal in real time and the possibility of forming a dialogue between the server system and the user based on the determination of the relevant measured values are noted.

The developed system is aimed at measuring certain parameters (cardiac output, amplitude of pulse waves, blood pressure, rhythm of heart activity and its frequency and blood pressure on the stick and pulse volume) and is aimed at establishing compliance with the functioning of household appliances, computer software indicators of the functional state of the human body.

Thus, the indicated system is focused on the registration (monitoring) of functional indicators of the state of the cardiovascular system, correction of the physiological state of the user in the form of prevention of stress reactions, optimization of the operation of household appliances, achievement of a harmonious state of the user in various modes of its activity.

There are other systems and methods of remote determination of functional indicators of biological objects (2, 4), but these systems have a specific purpose - in the form of diagnostics of the functional state of the heart muscle based on the accumulation of sound phenomena of its activity (2), or in the form of detection of characteristic signs of functional insufficiency of the cardiovascular system |4), optimization of remote transmission of medical data based on the coding of individual information about the patient, and different communication channels are used for the transmission of coded information and non-coded information (11 .

However, the use of these systems makes it possible to determine the functional indicators of the state of health, (7 but they are not aimed at determining the characteristics of the corresponding surfaces, which are informative about the state of the body.

The closest to the stated one is the system of monitoring the condition of the physiological indicators of the skin, which are obtained "due to the characteristics of the spectrum obtained during the radiation that is directed to the biological object C

IB According to the developed solution, it is possible to remotely measure the level of melanin using the study of the indicators of the absorption spectrum of the skin, which is based on the Bouguer-Lambert-Behr law and

From" spectral analysis in a modification using the method of multiple linear regression. The specified technique involves the calculation of the absorption spectrum of skin A (5). The authors assumed that melanin and blood in vessels are the two main chromophores in human skin and are located in the epidermis and dermis. Also -from 15 it was taken into account that the subcutaneous fatty tissue assumes the function of scattering and reflecting light over the entire visible spectrum of waves. The authors, through experimental studies both under the conditions of ip miggo and (in ip mimo) proved that the dependence of the absorption spectrum on the concentration of chromophores is valid only at insignificant concentrations of the latter. Also, no linear dependence of blood absorption on the concentration of hemoglobin was observed. The absorption spectrum of blood consists of from the spectra of oxyhemoglobin, dioxyhemoglobin, and about 50 bilirubin. Changes in the absorption spectrum are extremely uneven, that is, the absorption spectrum of bilirubin does not have a peak, while the absorption spectra of the remaining components have an absorption peak at wavelengths of the order of 480 nm. The increase in the absorption spectrum was caused by the increase concentration of melanin and strong scattering of human skin, which significantly decreased in the short-wave part of the visible spectrum of light and gradually decreased when shifting to the red part of the spectrum. 99 Thus, the specified method is based on obtaining information about a biological object by exposure to electromagnetic radiation yum and registration of changes in the spectral characteristics of the skin, followed by calculation of the concentration of the substance that absorbed the corresponding radiation. At the same time, it is only about specific conditions for determining the level of certain components of the skin, namely, melanin and some forms of hemoglobin. 60 The basis of a useful model is the task of developing a system for determining the state of the biological surface through the use of combined remote collection, transmission and processing of analog and digitized signals about the state of the biological surface, analysis of the received data according to normative values, which will significantly increase the reliability of the method.

The problem is solved by the fact that, according to the invention, the system additionally has a pulse generator (1) for electromagnetic oscillations in the range of 250nm-50μm with the possibility of varying the length of the emitted light,

which is aimed at the surface of a biological object, a photo sensor (2) connected to the primary data processing module (3), the data transfer module (4) to the server (5), as well as the feedback module (b) and the analysis results reproduction module (7).

In Fig. a system for remote determination of the state of the surface of a biological object is presented, where: 1. Generator of pulsed electromagnetic radiation; 2. Detector of radiation reflected by the biological surface; 3. Primary data processing module, which filters the signal; 4. The module for transmitting the signal to the server, in which the amplification takes place while maintaining the linearity of the parameters of the signal power; 5. Server where situational analysis takes place (according to user requirements), processing of received signals according to algorithms, placement of results in individual databases, generation of conclusions-recommendations regarding the state of the biological surface; 6. Module for transmitting measurement results to the user; 7. Module for displaying recommendations/measurement results, for example, on a mobile phone display.

The system is used as follows.

The automated complex, designed for remote examination of patients, is a package of interconnected programs that work on "client-server" and Uware technologies.

The developed system is intended for a wide range of users, allows obtaining dynamic parameters of the state of the corresponding surfaces, which are relevant for the user. For example, it can be about the size of the skin lesion, the brightness of the skin surface or other characteristics (degree of wrinkling, etc.). It is these indicators that have certain averaged characteristics according to the data of the central server to which the skin image is directed. With the help of software tools, the received image is compared with template data and a conclusion is made about the degree of deviations in one direction or another - both by the user himself and in automated mode using software tools, or, at the user's request, by a medical specialist. Thus, the use of the system can take place both in the op-Iipe mode and in the oi-Ipe mode - (postponed during consultations).

The diagram illustrating the principle of operation of the complex is shown in Fig.

The client part of the complex is installed in mobile means of information collection, and the server part is installed in Gezo telemedicine service centers. The client part of the complex works in the operating system

Mysgozoa Upaomuz 95/98/M1/2000, ХР, Mipaomuz 95, M/ipdomuz 98, Mipdom/z 2000, M/ipdomuz SE, HIMOKH, OMIKH, MAS, and

RaitO5, EROS, EROS 16, EROSZ2, R ECHO5, O5/9, dama5, ZYAMVIAM, Misgozoii RoskKeyi RS, server part, including - KedNai Gipikh version 6.1 and higher.

The client part includes a pulse generator of electromagnetic radiation, which, depending on the purpose of the corresponding measurement, can generate a wavelength of 25O0nm-5Ωm. It is about the standard duration and power of the emitted pulse. There is also a receiving part - a detector of reflected radiation, which captures the received image.

The wireless data transmission system (WSP) supports most of the known protocols: SORO, SOMA, OM,

ROS, RN5, TOMA, RGEH, Ken EX, EM, AUNT, OEST, RragatAS, and Morieh. BSP, in turn, is supported by all operating systems, including RaitO5, EROS, MUipdoje SE, RI'EHO5, O5/9, damAO5, as well as s) with ZUMVIAM.

Individual tasks, which are solved in the process of processing a single image, are set by the user using a mobile phone or computer keyboard. Such commands can be, for example, "compare the brightness of the corresponding surface that was observed some time ago." Previous images of biological surfaces are displayed on the appropriate display. A series of pictures and their characteristics are stored in the databases of the central server, and access to them is set using an individual user code. o Server configuration (5) is aimed at solving issues related to automatic placement

Go! relevant tasks in the database, subsequent analysis (in automatic or time-delayed modes), 5. Generation of the appropriate form of presentation of the analysis results, followed by their retransmission to the user. o Completing the consultant's workplace allows you to work with any medical images

F (ultrasound, microscopic, x-ray, etc.), which are obtained both by video capture and by scanning. They carry out the functions of entering all the necessary data about the patient, saving them on the hard disk in the local database, making notes and captions for each picture on the images, improving the quality of the image by adjusting the brightness/contrast of the images, and changing the image scale.

It is possible to view several images at the same time, their superposition and visual comparison, archiving from the relevant moments that form the basis of the conclusion, which, in turn, is transmitted in delayed mode by the e-mail system.

The workplace of the teleconsultation coordinator (doctor) is included in the MUMUM/module, which also includes a specialized UUer server. The UUM/MU-module provides user registration (natural and legal entities), registration of contracts between organizations, allows you to choose the place of the appropriate teleconsultation, as well as a specific consultant, allows you to view all the information sent for the consultation regarding the state of biological surfaces, maintain a constantly updated list of consultants (add or remove specialists according to the efficiency of their work), provides the possibility of routing telemedical consultations, 65 monitors their conduct and payment, conducts and pays for consultations (in accordance with contracts).

Protection against unauthorized use of result data transmitted through open systems,

is ensured by depersonalization at the level of the doctor who consults the patient, i.e. in the information provided to the central server, the patient's last name, first name and patronymic, his exact address are missing, and in the following his identification takes place through the patient's identification number.

Thus, in comparison with the prototype, the claimed system allows to significantly increase the probability of remotely determining the state of the biological surface, the state of health of the patient, expands the possibilities of providing timely medical care and prevents the development of complications.

Literature: 1. Rakaz MK.A., Sooreg S.). Meiyoi oi (gapzticipd teadis! ipiogtaiop omega a peihogk, BA Raiyepi 7/0 Mb,795,554, 21 Zerietreg, 2001. 2. Nauek S.5., Tpotrzop MU.K., Gotragdo .5., Vioddei GA, Sooreptpap SV Bouviet apa teiioy og diadpozipu raipoiodis peagi sopaiiopv, OA Raiepi Mb898459, Mau 24, 2005.

Z. Milap U. Arriisaiopz oi (Pe bBioieeairask (esppidche apa sagdio mazsciag topiyugipu, OBA Arriisaiop

MO149344, 7/08/2003. 4. Kozepieiy V.A., Vgeviomu M. Buviet apa teiioy iog rgomidipd sopiipysiv, ekhregi peyimogk spyiisa! sage zegmisez iot a hetoie Iosaiop(v), OBA Raiepi Mb6804656, 12 Osi., 1999. 5. Zpitada M., Matada M. Tsoi M., Maadi T. Meiapip apa riood sopsepigayop ip pitap 5Kip vicaiiea Bu tiyKrie gedgezviop apaiuviv: ehregitepiv // Rnuzisv ip Medisipe apa Vioiodu, 2001. - M.46. - R. 2385-2395.

Claims (1)

The formula of the invention is a system for remote determination of the state of the surface of a biological object, which includes a photo sensor for recording the light flux from the surface of the object under study and a system for remote transmission of information, which is distinguished by the fact that the system additionally contains a pulse generator of electromagnetic oscillations (1) with a range of 250 nm - 50 μm with the possibility of varying the length of the emitted light directed at - the surface of a biological object, a photo sensor (2) connected to the module of the primary data processing (3), data transfer module (4) to the server (5), as well as - with the feedback module (b) and the analysis results playback module (7). so so s "c) h- shi s;" - («c) (ee) at 50 42) p. 60 b5