CZ33788U1 - Equipment for monitoring, evaluating and supporting the rehabilitation process, especially for use in the home environment - Google Patents

Description

Equipment for monitoring, evaluation and support of the rehabilitation process, especially for use in the home environment

Field of technology

The technical solution relates to equipment for monitoring, evaluating and supporting the rehabilitation process, especially for use in the home environment.

Prior art

At present, there are technical means for the support and evaluation of the rehabilitation process, which are usually designed as fixed equipment for a rehabilitation surgery. These technical means are used by patients suffering from musculoskeletal disorders, in many cases people with stroke (CMP). The purpose of rehabilitation is the involvement of alternative nerve pathways and subsequent compensation of the disorder.

Rehabilitation procedures, ie exercises, are usually prescribed with repetition several times a week, and a specific procedure usually takes tens of minutes.

The main disadvantage of the current situation is that you do not transfer the inactivity of the system, which results precisely from its fixed installation in the rehabilitation surgery. This current method of implementing technical support means is particularly unsuitable when patient mobility is limited to some extent.

Another disadvantage is the need for the patient to move to the place where the above-mentioned system is installed. Such a shift can lead to increased fatigue or exhaustion of the patient, resulting in lower efficiency of the rehabilitation process. Last but not least, increasing time requirements, especially when traveling, reduces the efficiency of the whole process.

A significant shortcoming of the existing solutions is the low frequency of rehabilitation exercises and the low motivation of the patient in the period between visits to a specialized workplace.

An example of the system described above is the Synapsys Dynamic SPS System, where a floor area of at least 1.3 x 1 m is required to place this system alone and the weight of the system is approx. 22 kg. It is also necessary to connect a personal computer of the PC type with a dedicated graphics card, a Windows operating system and an image data projector with a projection screen to the above-mentioned device.

Another example of a permanently installed system is the NeuroCom SMART Balance Master. It is a device including a motorized tilting balance platform, an illustration of the surrounding environment and a display. The system is controlled by software running on a PC. It is a large device, with a floor plan of approximately 1.4 x 1.6 m and a height of approximately 2.4 m, weighing 352 kg.

Devices suitable for the objective evaluation of the rehabilitation process may include, for example, the MediTutor system, which contains modules for the rehabilitation of the head, torso, upper and lower limbs. It is a portable system enabling remote supervision of the rehabilitation process in the case when the system is used for home treatment and rehabilitation.

However, none of the currently available systems allows the patient to be monitored and evaluated while performing routine daily activities, and all functionalities are only available when the system is used in isolation.

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The essence of the technical solution

The above-mentioned shortcomings and disadvantages can be largely minimized by using the described device for monitoring, evaluating and supporting the rehabilitation process, especially for use in the home environment according to this technical solution. In essence, it comprises a subsystem for telemonitoring the rehabilitation process and a patient subsystem for supporting the rehabilitation of the patient in the home environment, both subsystems being provided with telecommunication means for transmitting the acquired data and the patient subsystem for supporting the patient's rehabilitation being provided with means for monitoring, recording and transmission of the patient's activity rate during normal daily activities.

The individual parts of the patient subsystem for supporting patient rehabilitation are preferably connected by a wireless communication interface, and the patient subsystem for supporting patient rehabilitation is preferably provided with an automatic classification of the type of activity performed.

The rehabilitation telemonitoring subsystem is preferably provided with a device for recording and displaying telemetrically obtained data from the patient subsystem to support the rehabilitation of the patient by telemonitoring the rehabilitation process. therapy.

In a preferred embodiment, the patient subsystem comprises a stabilometric platform and a daily activity monitor. The daily activity monitor may be in the form of a bracelet monitoring physical activity during the day, being equipped with a triaxial accelerometer.

The essence of the system is that it comprises at least the two subsystems described below performing the respective functions.

Patient subsystem.

At least one subsystem provides functionalities supporting the activation and evaluation of patient activities, the subsystem being characterized by the fact that it makes it possible to provide functions for the treatment of imbalance disorders, further characterized by the fact that it includes control based on the principle of visual feedback. Preferably, this subsystem is designed and constructed to ensure easy transportability. This subsystem is typically used by the patient; preferably in an environment of his choice, for example in so-called home rehabilitation, this subsystem is located in the patient's home environment.

The patient subsystem may further include other modularities, for example to support therapy and to refine the methods used to assess the course of rehabilitation. Typically, wearable devices designed to monitor activity and type of activity can be used. Advantageously, this device can be constructed in the form of a bracelet. The data obtained in this case are generally recorded semi-periodically on an embedded and / or removable recording medium and transmitted to other parts of the system typically via a wireless interface, by means of a physical connection, and / or by any other means allowing data exchange, such as using a removable storage medium.

The patient subsystem as a whole is designed in such a way that it can be easily transported and that no significant construction or other modifications are necessary for the installation of this system in the patient's home environment.

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Therapy support subsystem.

Furthermore, the system contains at least one subsystem used for direct support and evaluation of therapy courses used for patient rehabilitation. Typically, it is a system using a personal or any other computer, such as a server, laptop, smartphone, tablet, or computing module, capable of running a program and / or suite of programs.

The therapy support subsystem typically includes the modularities necessary for retrospective comparative evaluation of completed therapeutic units, and typically has features for semi-automatic or fully automatic evaluation of the course of therapy, such as statokinesiogram display and / or comparison to healthy population standards.

Another functionality of the therapy support subsystem is the possibility of feedback with the patient, either synchronously, i.e. during the course of the therapeutic unit, or asynchronous, i.e. independently of the course of the therapeutic unit. Preferably, this communication is in the form of a video call.

An essential functionality of this subsystem is the implementation of automatic evaluation algorithms based preferably on machine learning methods, artificial neural networks or other methods of automatic data classification. This allows automatic adjustment of the intensity of therapy, especially through individualization, depending on the patient's ongoing results. Another significant advantage is the ability to automatically send information about the deterioration of continuous performance and / or the omission of the home therapy unit. A significant advantage is also the functionality of automated support for the creation of the final report from therapy.

Explanation of drawings

The device for monitoring, evaluating and supporting the rehabilitation process, in particular for use in a home environment, will be described in more detail on a specific exemplary embodiment with the aid of the accompanying drawing, where in FIG. 1 is a schematic representation of the structure and main parts of the described system for telerehabilitation.

Example of implementing a technical solution

As shown in the accompanying system structure diagram in FIG. 1 shows, the implemented system consists of a subsystem 1 for therapy support, in a specific case implemented by a computer type Lenovo M820z All-in-One equipped with a communication data interface for remote data transmission, preferably Ethernet, software for data processing and evaluation and telecommunications and display interface, ie display. A PC / A11 in one personal computer can be replaced by a tablet, laptop, smartphone or similar device that provides equivalent functionality.

Another part of the system is the patient subsystem 2, in a specific case implemented using the Lenovo IdeaTab Miix300 tablet, which communicates with the subsystem 1 to support therapy using a data telecommunication interface.

The implemented patient subsystem 2 makes it possible to provide visual and acoustic biological feedback to the patient, in a specific case the visual biological feedback is preferably realized using a built-in display and acoustic biological feedback using a built-in loudspeaker. The patient subsystem 2 can be extended by any other biological feedback means using a built-in interface, preferably of the USB, Bluetooth or WiFi type. Patient subsystem 2 does not necessarily integrate or use the above biological feedback tools.

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Patient subsystem 2 further communicates with the technical means for monitoring rehabilitation. In a specific example of a technical solution, it is a stabilometric platform 4 of the "Nintendo Wii Balance Board" type, which allows monitoring, recording and evaluating the course of this type of therapy, where the patient's task is to transfer weight while standing on a mat. Another element of the patient subsystem 2 is a daily activity monitor 5, in the implemented example of a technical solution in the form of a bracelet monitoring physical activity during the day using a triaxial accelerometer, preferably of the Xiaomi Mi Band 3 type.

Technical means to support rehabilitation transmit the acquired data using a wired or wireless data communication interface, in a specific implemented example it is a wireless data communication interface using the 2.4 GHz frequency band and the IEEE 802.15.1 transmission standard. However, the system allows the use of other communication standards, or data transfer using storage media.

Industrial applicability

The system for telerehabilitation can be used in medicine, especially in the rehabilitation of patients. The purpose of the system is to increase the effectiveness of therapy, especially in such a way that increases the patient's motivation, as well as in a way that allows the patient to perform rehabilitation exercises at home, especially in such a way that the method of performing the above exercises is monitored and evaluated. remotely, supported by appropriate technical means.

Claims (7)

CLAIMS FOR PROTECTION Device for monitoring, evaluating and supporting the rehabilitation process, in particular for use in the home environment, characterized in that it comprises a subsystem (1) for telemonitoring the rehabilitation process and a patient subsystem (2) for supporting the rehabilitation of the patient in the home environment, both the subsystems (1,2) are provided with telecommunication means for transmitting the acquired data and the patient subsystem (2) for supporting the rehabilitation of the patient is provided with means for monitoring, recording and transmitting the level of the patient's activity during normal daily activities. Device according to claim 1, characterized in that the individual parts of the patient subsystem (2) for supporting the rehabilitation of the patient are connected by a wireless communication interface. Device according to claim 1 or 2, characterized in that the patient subsystem (2) for supporting the rehabilitation of the patient is provided with an automatic classification of the type of activity performed. Device according to any one of the preceding claims 1 to 3, characterized in that the rehabilitation process telemonitoring subsystem (1) is provided with a device for recording and displaying telemetry data obtained from the patient subsystem (2) to support patient rehabilitation by telemonitoring the rehabilitation process. Device according to any one of the preceding claims 1 to 4, characterized in that it comprises the function of an automated evaluation of the regularity of the rehabilitation therapy in the home environment and / or the functionality to support the regular implementation of this therapy. Device according to any one of the preceding claims 1 to 5, characterized in that the patient subsystem (2) comprises a stabilometric platform (4) and a monitor (5) of daily activity. -4 CZ 33788 U1 Device according to claim 6, characterized in that the daily activity monitor (5) is in the form of a bracelet monitoring physical activity during the day, being provided with a triaxial accelerometer.