PL229747B1 - Modular telemedical device - Google Patents

Abstract

Modular telemedicine apparatus comprising: a battery power source, a data carrier, a battery charging and protection system, a USB interface system, and data analysis and control module, wherein the battery power source, the data carrier, the battery charging and protection system, and the USB interface system are interconnected and constitute a separate power supply and data module replaced at the same time upon battery drain and/or filling the data carrier up.

Description

Description of the invention

The subject of the invention is a modular telemedicine device used in long-term monitoring of vital signs of a patient, in particular in Holter ECG examination.

Heart-related ailments such as chest pain, palpitations, shortness of breath, and fainting are customarily diagnosed by electrocardiographic (ECG) methods. This test, while being slightly invasive, provides information on the electrical activity of the heart muscle, which in turn allows for the diagnosis of heart attacks, arrhythmias, myocardial ischemia or congenital and acquired heart defects. A standard ECG test is performed while you are resting. Electrodes conducting the electrical signal are placed on the patient's chest and on the legs and arms. Recording of myocardial electrical activity typically takes up to several minutes. Then this record is analyzed by a doctor to identify any abnormalities in the work of the heart muscle.

In some cases, when it is not possible to obtain reliable test results during a one-time electrocardiogram, it is recommended to perform a Holter ECG test. The Holter ECG test is a modification of the resting ECG test. The main difference is the duration of the study. Holter tests last from 24 hours up to several or several days. The purpose of this test is to monitor the patient's heartbeat during the patient's 24/7 normal activity, whether at rest, exercise or asleep. In addition to the diagnosis of standard ailments related to the work of the heart offered by stationary ECG devices, the recorder also allows the assessment of treatment with antiarrhythmic drugs or the efficiency of the installed pacemaker.

Telemedicine systems have been gaining popularity in recent years. Such systems allow for two-way communication between the medical facility and the patient, including sending tests and their analyzes, conducting remote medical interviews, requesting contact from the patient. A medical facility cooperating with the system has the possibility of video consultation with the patient, sending medical tips and information, diagnosis, and even educational and preventive programs. Permanent remote care by qualified medical personnel allows you to take appropriate measures if necessary - from increasing the patient's mental comfort thanks to direct communication, through monitoring the correctness of the course of treatment, to taking life-saving measures. Telemedicine devices for long-term Holter ECG examinations have found a special place. It is the detection of heart disorders and taking immediate rescue actions that often save the patient's life.

Patent application WO1994013198 discloses a portable, modular patient monitor. The above-mentioned medical monitor consists of a portable module that collects and displays electrical signals sent from sensors placed on the patient. As a result, it allows the detection of various vital functions of the patient, including the detection of ECG signals. The portable medical device has a battery placed in a separate housing, which is removably connected to the monitor. In addition, the device has an additional, built-in, internal battery, which maintains the operation of the device during the replacement of the external battery module. In the analyzed solution, the battery is charged in a special docking station. The device's memory, which stores, inter alia, the collected electrocardiograms, is in the form of a memory card installed in the data acquisition module. The cited device has separate "modules": battery, data acquisition, analysis and display, and memory. Charging the battery requires an additional special docking station, while sending data requires removing the memory card from the device and inserting it into the appropriate slot on the computer. In the case of elderly people, carrying out many activities to charge the battery and exchange data is troublesome due to the increased number of operations and the need to mechanically manipulate small components, e.g. a memory card. In addition, the device, although mobile, is so large that it does not allow you to carry it with you constantly, and thus the continuous, long-term diagnosis of heart diseases.

In turn, the document US5678562A discloses a device for monitoring the vital signs of a patient having a removable disk and a WI-FI modem. The device has a modular structure, a separate battery module is connected to the device housing. The device also has a miniature magnetic disk on which the test results are saved. The analysis of the results requires taking the disk out and connecting it to a computer via a special socket or through an appropriate adapter.

PL 229 747 B1

In the analyzed device, in order to continue the study with memory overflow and battery discharge, it is necessary to perform two operations, take out the battery module and connect it to the charger and take out the miniature magnetic disk and connect it to the computer. Elderly people with movement disorders make more operations difficult. In addition, pulling out the disk may cause additional problems due to the rather complicated procedure and delicate structure of the miniature magnetic disk.

Patent application US20120190969 relates to an implantable cardiac device. A sealed, biologically neutral housing is implanted into the patient's body. The housing houses the heart rhythm detection and circulation circuits as well as the cardiac therapy circuits that deliver therapeutic signals (defibrillation signals). The housing also includes devices for detecting the orientation of the patient's body (vertical, horizontal). The device also has sensors that analyze the ECG signal and detect any abnormalities in the heartbeat. The device contains a memory card that stores software for operating the device and data collected from sensors. In addition, the housing may have several internal housings for storing the power sources, e.g. The battery must not be charged while on the patient to avoid possible electric shock. The memory can be in a separate housing, while reading the measurement data to a computer requires downloading the entire device, and thus stopping the examination and / or therapy.

A technical problem to be solved is to propose such a structure of a telemedicine device monitoring ECG signals that will protect the patient against electric shock while charging the device, will have a fast communication link, will allow for independent and simultaneous replacement of the battery and memory module without the need to employ qualified technical personnel, it will have security features enabling the battery to be charged when the device is placed directly on the patient, will ensure uninterrupted operation of the device with long-term diagnosis, and will reduce the requirements for chargers in terms of galvanic isolation. The present invention has unexpectedly solved the mentioned technical problems.

The subject of the invention is a modular telemedicine device containing: battery power source, data carrier, battery charging and protection system, USB interface system and data analysis and control module, battery power source, data carrier, data charging and protection system, USB interface system are connected to with each other and constitute a separate power and data module that can be replaced simultaneously when the battery is discharged and / or the data carrier is overfilled. The power and data module is locked by a bolt. The solution is characterized in that the bolt includes a switch arrangement identifying the disconnection / switching point of the power and data module.

Preferably, the modular technical device has a panel covering the data communication and battery charging sockets while the modules are connected.

The modular telemedicine device according to the invention, thanks to the combination of a battery power source, data carrier, battery charging and protection system and USB interface system into one power and data module, connected by a bolt with the data analysis and control module, allows for quick, not requiring qualified personnel replacing the power source and storage medium in a single operation when the battery is discharged and / or the storage medium is full. The panel covering the sockets, data communication and battery charging while the modules are connected and mounted on the patient, prevents the device from being connected to the computer and / or charger, which eliminates the risk of electric shock. Separating the modules and preventing the connection of the device on the patient also reduces the requirements for chargers in terms of galvanic isolation and allows the installation of a USB interface with a data transfer speed of 480 Mbps. Placing the switch-over system in the bolt that secures and secures the power and data module allows, in turn, to identify the moment of battery disconnection, and thus to stop the operation of the device in a safe and stable condition before the power supply fails.

Exemplary embodiments of the invention are shown in the drawing, in which Fig. 1 is a front view of the data analysis and control module, Fig. 2 is a front view of the power module, Fig. 3 is a front view of the combination of data analysis and control and power modules, Fig. Fig. 4 is a front view of the combined data analysis and control module with the power module, Fig. 5 is a top view of the data analysis and control module, Fig. 6 is a bottom view of the power module, Fig. 7 is a side view of the connection of data analysis modules and control and power supply, Fig. 8 is a view of a locking mechanism with a switch.

PL 229 747 B1

P r z k ł a d

Figures 1 and 5 are front and top plan views, respectively, of the data analysis and control module. Additionally, Fig. 1 shows a view of the covering panel of the data communication socket 6 and charging 4 socket 2, there are also visible sockets 1 to which additional accessories are connected, e.g. ECG signal detection modules. Fig. 2 and Fig. 6 show the power module in front and bottom views. Additionally, Fig. 2 shows the location of the charging sockets 4 and the USB communication socket 6, and Fig. 6 the position of the bolt system 5 for connecting the modules. Fig. 3 and Fig. 7 also show the way of connecting modules in the side views. When assembled, both modules (data and control analysis as well as power and data) form a closed waterproof body shown in the front view in Fig. 4, provided that the sockets are fitted with an accessory plug 7 or a plug 8. Folding the modules together causes the power 4 and data 6 sockets are covered by a panel 1 and it is not possible to physically connect a power supply and / or data cable to the device without physically disconnecting the modules. The method of closing (connecting and blocking) the modules is based on two catches 3 and a bolt 5 rotating within the angle of 90 ° as shown in Figs. 2, 6, 7 and 8. In addition, correct locking of the bolt is indicated by a limit switch 9, which in the case of disconnection signaling, it may initiate an appropriate program serving e.g. to stop the entire telemedicine device in a stable state, and in the case of signaling a connection, it may initiate a suitable program e.g. to resume a previously interrupted examination. Fig. 8 is a cross-sectional drawing showing the surroundings of the locking mechanism together with a switch 9. The end of the bolt 5 has a wedge profile which, in the final phase of closure, provides a stronger clamping of the two housing halves as shown in Fig. 7. A secure closure is not only a condition. waterproof design, but also a secure electrical connection between the power and data module and the data analysis and control module. The modular telemedicine device presented in the exemplary embodiment, thanks to its structure, in particular the covering panel 2 of the data communication socket 6 and charging 4, prevents the device from being charged when it is on a patient. Charging the device is possible only after removing the telemedicine device, disconnecting the data analysis and control module and the power module, which will reveal the charging socket 4. Thanks to this, the risk of electrocution of patients during the necessity to charge the telemedical device has been eliminated. This design of the device also reduced the requirements for chargers in terms of galvanic isolation due to the need to remove the device from the patient during charging. Similarly, by having to pull the device off the patient and disconnect it to discover the data socket 6, in this example the USB communication socket, it was possible to use an interface with a data transfer speed of up to 480 Mbps, which is not possible with galvanically isolated interfaces. The battery module is replaced by means of the bolt 5 on the rear wall of the power module and consists in turning the bolt by 90 ° to the open position. The bolt 5 also has in its structure a switch 9 identifying the moment of disconnection and connection of the device in order to stop the operation of the telemedical device in a safe and stable state or to resume the examination, thanks to which the module replacement is easy to perform and safe for patients and does not require the employment of specialized personnel.

Claims (2)

1. Modular telemedicine device containing: battery power source, data carrier and battery protection, USB interface system and data analysis and control module, where the battery power source, data carrier, USB interface system are connected with each other and constitute a separate power and data module exchanged simultaneously when the battery is discharged and / or the data carrier is overfilled, the locking of the power and data module is performed by a bolt, characterized in that the bolt (5) includes a switch system (9) identifying the moment of disconnection / switching of the power and data module 2. A modular telemedicine device according to claim 1, The device of claim 1, characterized in that it has a panel (2) for powering the data communication sockets (6) and battery charging (4) while the module is connected.