BRPI0900765A2 - electronic device introduced in an electrocardiograph for self-examination, with automatic system for collecting, transferring and sending data by telemetry to a server, interpreting digital information and making it available on the web for clinical case diagnosis - Google Patents

Abstract

ELECTRONIC DEVICE INTRODUCED IN ELECTROCARDIOGRAPH, FOR SELF EXAMINATION, WITH AUTOMATIC SYSTEM FOR COLLECTION, TRANSFER AND SENDING OF DATA BY TELEMETRY TO A SERVER, INTERPRETATION OF DIGITAL INFORMATION AND AVAILABILITY BY COMPUTER DIGITAL WEBGRAPHY USB connector to the computer interface, but for the invention it receives the adaptation of a connector R5232, for the coupling of the battery-powered GPRS antenna electronic circuit board, forming a device externally coupled to the microcontroller electronic circuit. In this version, the electrocardiograph will be manufactured with its microcontroller electronic circuit already integrating the built-in battery-powered GPRS antenna electronic circuit board, in either case the ECG-type or 24-hour cardiologic examination , will have the collected data sent in radio frequency signals, remotely, on a server, where they are decoded and made available in a database for access by the doctor, through your computer, at any time or place.

Description

"ELECTRONIC DEVICE INTRODUCED IN ELECTROCARDIOGRAPH, FOR SELF-EXAMINATION, WITH AUTOMATIC SYSTEM FOR COLLECTION, TRANSFER AND SENDING OF TELEMETRIC DATA TO A SERVER, INTERPRETATION OF DIGITAL INFORMATION AND AVAILABILITY IN THE CASADIOUS WEB PARADIANS"

This descriptive report refers to an invention patent application for an adaptation on an electrocardiograph, whose electron microcontroller circuit, responsible for preparing the electrocardiogram performed on the patient, receives, through an RS232 connector, the electronic circuit board of a GPRS powered antenna. electrically by a battery.

The adaptation, in addition to not altering the construction of the electrocardiograph, adds to this important technical effect because, when using the opacient device will have the data collection of the examination obtained by the electronic circuit controller transferred automatically to the electronic circuit board of the GPRS antenna through which the collected data. are sent simultaneously as radio frequency signals to a server. On the server the data is decoded and made available in a database on the web, for access by the responsible physician's computer and also by other interested doctors, whose analyzes and reports can be made from anywhere in the world and sent back online to immediate clinical procedures, bringing greater speed in diagnosis, precision in treatment and, consequently, patient safety.

TECHNICAL STATUS Electrocardiographic or electrocardiographic examination is known to be of great importance in terms of health prevention, capable of detecting possible heart problems and is therefore widely practiced, especially due to the increasingly stressful pace of modern life. This type of examination records the variation in electrical potentials generated by the electrical activity of the heart.

There are types of electrocardiographic exams (ECG), one of which is continuous, that is, for 24 hours, while the patient performs his daily activities. For this purpose, small electrodes are placed on the patient's chest and connected by a wire to a recorder, which is attached to the patient's waist. While the recorder records the heartbeat of the opacient heart, you should make a journal of your activities, and any symptoms you may have experienced, specifying precisely the times at which they occurred. At the end of the period, the patient delivers the electrocardiograph to the health professional or responsible physician, so that the collected data can be downloaded to the hospital control center, office or similar, where they will be analyzed, for diagnosis. Thus, the cardiologist will have to correlate his symptoms with the electrocardiographic tracings.

Also in these types of exams (ECG), in another variation, the patient must walk on a treadmill or pedal a bicycle while his heart rhythms are monitored, and physical exertion is gradually increased during the examination in order to achieve the triggering of some arrhythmias. In order to observe and detect changes that may be the cause of many arrhythmias (ischemia, or lack of oxygen in the heart cells), the follow-up of these patients is of great value in the diagnosis.

The cardiograph has an internal microcontroller electronic circuit, which receives, by wires, the connection of electrodes that may have suction cups or clips for attachment to specific points of the patient's body. When it strains, the microcontroller circuitry picks up and amplifies the potential differences or electrical activity of the heart. Such collected data will be downloaded through a USB interface connector with the computerized central office, hospital or health center, which transforms these electrical impulses into lines for analysis by the home, which analyzes them "on site" and determines the measures may also prepare the report without further

Of course, this type of examination should have a home presence, which forces the patient to schedule and may subject him to waiting, given the schedule and activities that are always known to be troubled by health professionals.

PATENT OBJECTIVE

The invention in question, which is the reason for this patent application, allows the patient to perform this type of cardiac examination and the data to be sent in the form of radio frequency signals, remotely, on a server, where they are decoded and made available in a database. for medical access through your computer at any time or place you are.

Under the proposed system, a 24-hour ECG exam, for example, may be monitored in real time, even with the patient away from the office, where the requesting physician acts, as the data collected by the electrocardiograph microcontroller electronic circuit through Dedicated software software automatically transmits the collected data to the electronic circuit board of a GPRS antenna, which, over radio frequency waves, sends the data as signals to a server. Through dedicated software, signals are decoded and made available in a database for remote access by the physician in charge.

Thus, the attending physician or requesting physician does not necessarily have to be at the ECG examination site and can follow the patient's progress (prepared by a nurse for example) at a distance, and may also be assisted by other interested physicians (eg a team) and that can assist in the preparation of the report, which is elaborated and resubmitted "on line".

As it turns out, the system in question makes the ECG examination faster and ensures you greater accuracy by adapting it to a computerized system for information speed, which is obviously safer for the patient's health.

The electrocardiograph will maintain the same construction with its USBinterface connector with computer which, for the invention, receives the adaptation of an RS232 connector for the coupling of the battery-powered GPRS antenna electronic circuit board, forming a device externally coupled to the microcontroller electronic circuit. of the equipment. In another version, the electrocardiograph will be manufactured with its microcontroller electronic circuitry already integrating the built-in battery-powered GPRS antenna electronic circuit board.

In both versions, the same system of clinical diagnostic analysis is preserved through automatic collection, sending of radio frequency signals, decoding on site and availability for access through daweb.

Superficially explained, it passes from the device and the surrounding system, to be further detailed through the accompanying drawings. The figure below shows a conventional equipment:

Figure 1 - Perspective view of a conventional electrocardiograph showing the electrode wires, which may include suction cups, clips or other attachment system to the patient's body. The USB connector for home controller interface with a computer or control panel (for real time monitoring) is decoupled from the electrocardiograph.

The figures below show the electronic device integrated with the electrocardiogram and the system that surrounds it.

Figure 2 - Schematic view of an electrocardiograph, whose microcontroller electronic circuit is interconnected, through an RS232 connector, to the battery-powered GPRS antenna electronic circuit board;

Figure 3 - Schematic view according to the previous figure, showing the microcontroller electronic circuit, which receives, incorporated into the equipment, when manufactured, the battery powered daantena GPRS electronic circuit board. Figure 4 - Schematic view of the system where the patient is located. In this case, when the electrocardiograph microcontroller electronic circuit automatically transmits the collected data to the GPRS electronic circuit board, which, through the antenna, by means of radio frequency waves, in the telemetry system, sends the signals to the server, where they are decoded and made available in Web database for remote access. In this version, the system for sending data, decoding and making it available on the web is adapted externally to the electrocardiograph microcontroller electronic circuit;

Figure 5 - Schematic view according to the previous figure, showing the manufactured electrocardiograph already incorporating in its electronic circuit the data sending system, decoding and availability on the web.

In accordance with the accompanying drawings, the "ELECTRONIC DEVICE INTRODUCED IN ELECTROCARDIOGRAPH, AUTOMATIC AUTO-COLLECTION SYSTEM, TRANSFER AND TELEMETRIC DATA, INTERPRETATION OF DIGITAL INFORMATION, AND AVAILABILITY OF THE PURPOSE OF THE PURPOSE The invention is based on an electronic electrocardiograph (1) for electrocardiogram (ECG) examinations, which has a communicating microcontroller (2) with a computer control unit via a USB interface connector (3). electrodes (4), preferably 12, which may be attached to the patient's skin (in the case shown) by means of suction cups or other means, as shown in Figure 1.

For the invention, the USB interface connector (3) receives the adaptation of an RS232 connector (5) for coupling to its electronic circuit controller (2) the electronic circuit board (6) of the GPRS antenna (7). The electronic circuit board (6) is battery-powered (8), thus forming an electro-electronic device coupled externally (9) to the electrocardiograph in its version (la), as shown in Figures 2 and 4, which, as such. adaptation, gains remarkable range and technical improvements over the proposed system.

In another version, the electrocardiograph (lb), as shown in figures 3 and 5, is manufactured with the GPRS antenna electronic circuit board (6) already internally incorporated, also powered by battery (8) and interconnected with the electronic microcontroller circuit ( 2) forming an electro-electronic device incorporated internally (10) into the electrocardiograph (lb).

For the system, the patient can be prepared or electrode fixed (4) by a nurse or health professional, therefore, there is no need for the presence of the responsible physician on site. from the collection and amplification by the electrode array (4) and the microcontroller electronic circuit (2) of the electrical impulses from the heart activity, which are transferred, through dedicated software (specially developed by the system), to the electronic circuit board (6) which, through its GPRS antenna (7), whether it is a handset, mobile phone or the internet in a telemetry system, sends this collected data as radio frequency signals to a specific server (11).

On the server (11), through the dedicated software, the signals are decoded again in configuration of the data initially collected by the electrocardiograph, and then made available in a web database (12) (W).

Thus, the attending physician does not need to be "in loco" following the ECG exam, whose evolution can be accompanied by his computer, accessing the database (12) through the web (W) wherever he is at any time. The same is true for 24-hour ECG exams, which can be followed up fully on line, offering the possibility of simultaneous analysis and diagnosis to the doctor for complete speed in the clinical procedures to be taken.

Other doctors can also follow the ECG exam remotely, helping in the diagnosis, preparing the reports and returning them instantly, bringing greater safety in the patient's treatment.

To access the database (12), the responsible or interested physician must be registered in the system, in order to be able to analyze the treated data collected from the patient on his ECG examination, so that he can formulate his report. The database (12) can be controlled by the government, making it available with the information collected after the ECG examination performed by the patient, also through the registration of the interested doctor.

Claims (3)

1.) "ELECTRONIC DEVICE INTRODUCED IN ELECTROCARD GRAPH ARD" consisting of an electronic electrocardiograph (1) equipped with an electronic circuitry (2) communicating with a computer control unit via a USB interface connector (3) which extends wiring to electrodes (4), preferably 12 in number, with clamp cups or the like, characterized in that the USB interface connector (3) receives the adaptation of an RS232 connector (5) for coupling to its electronic circuit board (2) of the plate circuit (6) of the GPRS antenna (7), said battery-powered plate (6) (8), thus forming an electro-electronic device coupled externally (9) to the electrocardiograph (la). 2.) "ELECTRONIC DEVICE INTRODUCED IN ELECTROCARDIOGRAPH" according to claim 1, characterized in that, optionally, the electrocardiograph (Ib) is manufactured with the GPRS antenna circuitry (7) already internally incorporated, also powered by battery ( 9) and interconnected to the electron microcontroller circuit (2), forming an electro-electronic device internally incorporated (10) into the electrocardiograph (lb). 3.) "AUTOMATIC SELF-COLLECTING SYSTEM, TRANSFER AND SENDING OF DATA BY TELEMETRY TO A SERVER, INTERPRETATION OF DIGITAL INFORMATION AND WEB AVAILABILITY FOR CLINICAL CASE DIAGNOSTICS", according to claims 1 and 2, after the capture, electrodes (4) and the microcontroller electronic circuit (2), the electrical impulses derived from the patient's heart activity, the system is characterized by enabling the transfer of the collected data to the electronic circuit board (7) which, through its GPRS antenna (8) sends this collected data as radio frequency signals to a specific server (11), where the signals are decoded again in the configuration of the data initially collected by the electrocardiograph (Ia) and (lb), and then made available in a database (12) web (W) for remote access.