BG3775U1 - Textile applicator for monitoring, telemedical diagnostics and electrophysiological data collection - Google Patents

Abstract

The utility model concerns a textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, which will find application in the field of medicine and in particular for real-time monitoring of patients. The textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, which is a fitted sleeveless textile T-shirt, made so that on the inside of the T-shirt at the points of contact with the patient's body, defined by the medical requirements for electrophysiological signals conductive zones (5) are defined to discharge electrophysiological signals. The electrically conductive zones (5) are formed by electrically conductive fabric woven from metallized fibers, which are textile threads coated with a conductive metallized layer. Attached to the inside of the T-shirt is a medical device (1) having replaceable electrodes (2) connected to at least one means for transferring electrophysiological data (3), which is wirelessly connected to an electronic consumer communication device (4). The medical device (1) is fixed so that the electrodes (2) are placed in the electrically conductive zones (5), and the means for transferring electrophysiological data (3) is located in the chest area of the T-shirt.

Description

Field of technology

The utility model refers to a textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data, which will find application in the field of medicine and in particular for real-time monitoring of patients.

BACKGROUND OF THE INVENTION

An applicator for monitoring, telemedicine diagnostics and electrophysiological data collection is known in the art, which includes a medical device having interchangeable electrodes connected to at least one electrophysiological data transfer means that is wirelessly connected to an electronic consumer communication device. The known applicator is attached to the patient's chest by means of patches which have impaired electrical conductivity for the removal of electrophysiological signals and need to be replaced no later than 24 hours after insertion, as they lose their adhesive properties. Replacement is difficult because it requires precise placement in specific places, and removal is often uncomfortable and unpleasant for the patient.

Technical essence of the utility model

The task of the utility model is to create an innovative and highly effective applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data, which will provide better contact with the patient's skin in order to achieve high signal quality, allowing greater accuracy and validity. of measurements.

The problem is solved by a textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data, which includes a medical device having replaceable electrodes connected to at least one means for transferring electrophysiological data, which is wirelessly connected to an electronic consumer communication device.

According to the utility model, the textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data is a fitted sleeveless textile T-shirt, made so that on the inside of the T-shirt at points of contact with the patient's body, defined by medical requirements for electrophysiological signals , are electrically conductive zones for removal of electrophysiological signals. The electrically conductive zones are formed by electrically conductive fabric woven from metallized fibers, which are textile threads coated with a conductive metallized layer. The medical device is attached to the inside of the T-shirt so that the electrodes are attached to the electrically conductive areas and the electrophysiological data transfer means is located in the chest area of the T-shirt.

In embodiments of the textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, according to the utility model, the electrophysiological data transfer means is three-channel with five electrodes or twelve-channel with ten electrodes.

In a preferred embodiment of the textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, according to the utility model, the electrophysiological data transfer means is connected via Bluetooth to the electronic consumer communication device, which is a smartphone with a mobile application for monitoring vital signs. The electronic consumer communication device has a two-way encrypted connection via WiFi or mobile network over the Internet to a medical database server, which is two-way connected in real time to at least one electronic device with medical software for monitoring, telemedicine diagnostics and emergency medical response.

The textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data is reusable and is designed with a fitted cut made of fabric with the required density, elasticity and strength of textiles. The cut of the textile applicator ensures the best possible contact between the patient's human body and the contact points with the patient's body through the electrically conductive area, which ensures very good and precise drainage.

4634 Descriptions to certificates for registration of utility models № 07.2 / 31.07.2020 of electrophysiological signals. The textile applicator covers all the necessary places for medical purposes by placing sensors on the patient's body and at the same time provides comfort in use and prolonged wear, as it is suitable for everyday wear of the patient under monitoring and at the same time with modern design and clean vision.

Explanation of the attached figure

The textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data, according to the utility model, is explained in more detail in the attached figure, which shows a schematic diagram.

Examples of implementation of the utility model

The attached figure shows an exemplary embodiment of the textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, which is a fitted sleeveless textile T-shirt, made so that on the inside of the T-shirt at points of contact with the patient's body defined by the medical requirements for removal of the electrophysiological signals are separate electrically conductive zones 5 for removal of electrophysiological signals. The electrically conductive zones 5 are formed by an electrically conductive fabric woven from metallized fibers, which are textile threads coated with a conductive metallized layer. Attached to the inside of the T-shirt is a medical device 1 having replaceable electrodes 2 connected to at least one electrophysiological data transfer means 3, which is wirelessly connected to an electronic consumer communication device 4. The medical device 1 is fixed so that the electrodes 2 are attached in the electrically conductive zones 5, and the means for transferring electrophysiological data 3 is located in the chest area of the T-shirt. The electrophysiological data transfer means 3 can be three-channel with five electrodes 2 or twelve-channel with ten electrodes 2. The electrophysiological data transfer means 3 can be connected via Bluetooth to the electronic consumer communication device 4, which is a smartphone with a mobile monitoring application of vital showed. In this case the electronic consumer communication device 4 has a two-way encrypted connection via WiFi or mobile network via the Internet to a server with a medical database 6, which in turn is connected in real time to at least one electronic device 7 with medical monitoring software, telemedicine diagnosis and emergency medical response.

Application of the utility model

The textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data is reusable with a tailored cut and is made of fabric with the required density, elasticity and strength. Under normal use, the textile applicator can be applied practically for a very long period of time (for example from 6 to 12 months), allowing washing at a suitable temperature. The follow-up period can be as long as it is necessary to fully diagnose the patient by monitoring the various conditions of the human body. It can be used in everyday life, as well as in medical and outpatient settings. The textile applicator provides the best possible contact between the human body and the points of contact with the patient's body, defined by the medical requirements for the removal of electrophysiological signals. The contact points, according to medical requirements, can be, for example, in the following areas of the human body: subclavian in the second right and left intercostal space; in the fifth intercostal space along the mid-axillary line; in the fifth intercostal space along the anterior axillary line to the right; V in the fourth intercostal space along the left sternal edge; V ₂ in the fourth intercostal space along the left sternal edge; V., - V ₆ in the fifth intercostal space from the left sternal edge to the anterior axillary line on the left. These contact points are the best according to medical requirements, but can be changed if better ones are found later. The conductive zones 5 are separated on the inside of the textile applicator so that when the textile applicator is worn by the patient, the electrically conductive zones 5 are in constant contact with the patient's skin at these contact points. The electrodes 2 of the medical device 1 are fixed in the electrically conductive zones 5,

4635 Descriptions to registration certificates for utility models № 07.2 / 31.07.2020 which ensures the reliable removal of electrophysiological signals to the means for transfer of electrophysiological data 3. The means for transfer of electrophysiological data 3 is located in the chest area of the T-shirt, and the electronic a user communication device 4 can be placed on a belt, in a special case on the patient's hand or carried in another known and convenient way by the patient.

The electronic user communication device 4 has the ability to transmit data to a server with a medical database 6, for which purpose there is a two-way encrypted connection via WiFi or mobile network via the Internet to it. The electronic user communication device 4 packs its information and transmits it to a medical data server, from where it can be visualized according to the HL7 protocol of an electronic device 7 with medical software for monitoring, telemedicine diagnostics and emergency medical response. The information is encrypted and transmitted in real time. All unsuccessfully received packets are retransmitted on the backup channel. Information is also provided when the data transfer medium is not properly positioned. The electronic consumer communication device 4 in the form of a smartphone is convenient for carrying, sports and other active activities. In addition, the smartphone provides the ability to run various mobile operating systems for communication via BLE 4.0 protocol.

The electronic consumer communication device 4 connected to a database server 6, which in turn is bidirectionally connected to at least one electronic device 7 with medical software for monitoring, telemedicine diagnostics and emergency medical response provides the patient with real-time cardiac monitoring. . In this way, remote transmission of information about the patient's vital signs is performed. Specialized medical software serves to manage the means of data transfer 3, as well as to interpret, verify and equate the electrophysiological data of the heart based on artificial intelligence, which separates the artifacts from the normal electrophysiological parameters. It monitors vital physiological parameters of the human body such as:

- Electrocardiography;

- Spo2 - oxygen saturation;

- Non-invasive blood pressure;

- Breathing frequency;

- Body position and activity.

Electronic devices 7 with medical software for monitoring, telemedicine diagnostics and emergency medical response may be in the form of a mobile device such as a smartphone, tablet or laptop, as well as a desktop computer. When the electronic devices 7 with medical software for monitoring, telemedicine diagnostics and emergency medical response are more than one, they can be separated in a telemedicine center. The telemedicine center analyzes the information received by calculating the current cardiovascular and overall risk of serious illness and / or critical situations. When critical conditions are registered, an emergency procedure is initiated with calls to the patient, his relatives and / or the supervising physician. The system monitors the patient's health in real time, and through a GPS module in the electronic consumer communication device 4 it is possible to locate the patient and in case of a critical situation to be directed to a specialized team. Reported vital signs include heart rate, respiration rate, oxygen saturation, blood pressure, physical activity, body temperature, body position in space (upright, sitting, lying down, falling).

The textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data is designed for diagnosis, early detection and prognosis of diseases and life-threatening conditions in all medical specialties. Monitoring of vital physiological parameters through remote monitoring in continuous mode and in real time helps to better and more accurately diagnose patients. With these data, doctors can promptly change the regimen of prescribed drugs and rehabilitation in all groups of patients (children and elderly patients) staying in hospital or in an outpatient setting.

4636 Descriptions to utility registration certificates № 07.2 / 31.07.2020

Claims (3)

Claims A textile applicator for monitoring, telemedicine diagnostics and electrophysiological data collection, comprising a medical device having replaceable electrodes connected to at least one electrophysiological data transfer means which is wirelessly connected to an electronic consumer communication device, characterized in that is a fitted sleeveless textile T-shirt made in such a way that on the inside of the T-shirt at points of contact with the patient's body, defined by the medical requirements for electrophysiological signals, there are separate conductive zones (5) for electrophysiological signals, such as electrically conductive zones (5) are formed by electrically conductive fabric woven from metallized fibers, which are textile threads coated with a conductive metallized layer, the medical device (1) is attached to the inside of the T-shirt so that the electrodes (2) are attached to the electrically conductive zones (5), a the electrophysiological data transfer means (3) is located in the chest area of the T-shirt. Textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data according to claim 1, characterized in that the means for transferring electrophysiological data (3) is three-channel with five electrodes (2) or twelve-channel with ten electrodes (2). Textile applicator for monitoring, telemedicine diagnostics and collection of electrophysiological data according to claims 1 and 2, characterized in that the means for transferring electrophysiological data (3) is connected via Bluetooth to the electronic consumer communication device (4), which is a smartphone with a mobile application for monitoring vital signs, in which the electronic consumer communication device (4) has a two-way encrypted connection via WiFi or mobile network via the Internet to a database server (6), which is connected in real time to at least one electronic device (7) with medical software for monitoring, telemedicine diagnostics and emergency medical response.