KR102416165B1 - Deep vein thrombosis diagnosis device - Google Patents

Abstract

According to an embodiment of the present invention, there is provided an apparatus for diagnosing deep vein thrombosis, comprising: a vibrator for providing vibration to a body part of a user; a measuring unit for measuring a change in elasticity of the body part according to the vibration; a processing unit for calculating a risk of thrombosis based on the amount of change in elasticity of the body part; and a display unit for displaying the thrombosis risk. According to an embodiment, it is possible to diagnose deep vein thrombosis early by providing vibration of a specific frequency using a vibrator attached to the user's body and measuring the reflected vibration and EMG signal of the muscle sensed in response to the vibration.

Description

DEEP VEIN THROMBOSIS DIAGNOSIS DEVICE

The present invention relates to a device for diagnosing deep vein thrombosis, and more particularly, to a device capable of calculating the risk of thrombosis by providing vibration to a user's body part and measuring a change in elasticity of the body part according to the vibration.

This study was made with the support of the KU Medicine-KIST exploratory joint research project.

Deep vein thrombosis (DVT) is a disease that occurs due to blood clots in veins. When you are in an immobile position for a long time or are in various situations where blood clots are likely to occur, venous blood in body parts (mainly in the lower extremities) This is a symptom of stagnant blood clots in the deep veins. It is often called 'economy class syndrome' because it is a disease that occurs in passengers sitting in narrow seats on long-distance flights. If left untreated, deep vein thrombosis can cause limb necrosis, pulmonary embolism, and breathing difficulties, which can lead to death, so it is important to diagnose symptoms early and prevent the condition from worsening.

In the past, deep vein thrombosis was diagnosed mainly by examining the patient's body through ultrasound or through blood tests. Such a diagnosis method may be effective in a situation where a patient can receive periodic ultrasound or blood tests, such as a hospital or clinic, but early diagnosis is difficult due to a long flight or driving. Although advance prevention methods such as mechanical prophylaxis (compression stockings, air compression devices, etc.) or pharmacological prophylaxis (anticoagulant administration, etc.) exist, in many cases, practical application is difficult, resulting in a large number of patients with deep vein thrombosis every year.

Republic of Korea Patent Publication No. 10-2010-0049382

Accordingly, an object of the present invention is to provide a diagnostic apparatus capable of diagnosing a user's deep vein thrombosis (DVT) at an early stage.

According to an embodiment, an apparatus for diagnosing deep vein thrombosis includes: a vibrator for providing vibration to a body part of a user; a measuring unit for measuring a change in elasticity of the body part according to the vibration; a processing unit for calculating a risk of thrombosis based on the amount of change in elasticity of the body part; and a display unit for displaying the thrombosis risk.

According to one embodiment, the control unit for controlling the operation of the vibrator may be further included.

According to an embodiment, the vibrator may receive a control signal from the controller and provide vibration of a specific frequency through a vibrator attached to the body part.

According to one embodiment, it is located between the vibrator and the body part of the user and further comprises a pressure sensor for sensing pressure according to the vibration, the processing unit may be configured to indicate the pressure according to the vibration through the display unit have.

According to an embodiment, the measurement unit may include an accelerometer for detecting a reflected vibration generated in the body part in response to the vibration.

According to an embodiment, the processing unit may calculate the thrombosis risk when a change in a frequency component greater than or equal to a threshold value is detected in the measurement result of the accelerometer.

According to an embodiment, the measuring unit may include an EMG for measuring an EMG signal of the body part.

According to an embodiment, the processing unit may calculate the thrombosis risk when a change in a frequency component greater than or equal to a threshold value is detected in the measurement result of the EMG.

According to an embodiment, the display unit may numerically indicate the thrombosis risk through a display device.

According to an embodiment, the display unit may be configured to turn on the LED element when the thrombosis risk is greater than or equal to a threshold.

According to an embodiment of the present invention, deep vein thrombosis is diagnosed early by providing vibration of a specific frequency using a vibrator attached to the user's body, and measuring the reflected vibration and EMG signal of the muscle sensed in response to the vibration. A diagnostic device capable of doing so is provided.

The diagnostic apparatus according to the embodiment determines that the occurrence of deep vein thrombosis is high when a rapid change appears in the frequency component of the reflected vibration measured by the accelerometer and/or the frequency component of the EMG signal measured by the EMG, and determines that the occurrence of deep vein thrombosis is high. It informs you of the risk level in real time.

The diagnosis apparatus according to the embodiment is composed of a vibrator attached to a body part and a sensor (accelerometer, electromyography, etc.) capable of detecting a change in the body part, so that it is easy to install and use. For example, the thrombosis risk may be measured at regular intervals using a vibrator and a sensor provided under an airplane seat. Therefore, it is possible to diagnose deep vein thrombosis at an earlier stage than the existing ultrasound or blood test methods.

1 is a block diagram illustrating the concept of a deep vein thrombosis diagnosis apparatus and a diagnosis system using the same according to an exemplary embodiment.
2 illustrates a process of calculating a thrombosis risk level and warning a user in the apparatus for diagnosing deep vein thrombosis according to an embodiment.
3 shows a result of measuring the reflected vibration of a body part using an accelerometer in the apparatus for diagnosing deep vein thrombosis according to an embodiment.
4 shows a result of measuring an EMG signal of a body part using an EMG in the apparatus for diagnosing deep vein thrombosis according to an embodiment.

The terms used in this specification have been selected as currently widely used general terms as possible while considering their functions, but may vary depending on the intention or custom of a person skilled in the art or the emergence of new technology. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in the description of the corresponding specification. Therefore, it is intended to clarify that the terms used in this specification are not simply names of terms, but should be interpreted based on the actual meaning of the terms and the contents of the entire specification.

Hereinafter, an embodiment will be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings, but the scope of the claims is not limited or limited by the embodiments.

1 is a block diagram illustrating the concept of an apparatus for diagnosing deep vein thrombosis and a diagnosis system using the same according to an exemplary embodiment. Referring to FIG. 1 , the apparatus 10 for diagnosing deep vein thrombosis according to an embodiment includes a vibrator 110 , a measurement unit 120 , a processing unit 130 , a display unit 140 , and a control unit 150 . .

Although the above components are shown separately for convenience of conceptual description, they do not necessarily have to be implemented as independent devices or programs. For example, each component may be implemented by one processing unit or program, or may be implemented by organic combination of two or more independent processing units or programs.

The vibrator 110 receives a control signal from the control unit 150 and provides vibration of a specific frequency through the vibrator 111 attached to the body part. The vibrator 110 receives a control signal from the controller 150, for example, an input for the intensity, frequency, and form of vibration to be provided to the user (regular intensity or periodically repeating strength and weakness) to the vibrator 110 . transmitted by wire or wirelessly.

The vibrator 111 is a device having a power device such as a motor to convert electrical energy into physical vibration, and is not limited to a specific shape or size. The vibrator 111 may be connected to the diagnostic apparatus 10 by wire or through a wireless network (Bluetooth, WiFi, infrared communication, etc.). In addition, power may be supplied to the motor by wire or may be operated through a built-in battery. In one embodiment, the vibrator 111 may be attached to the user's body part (arm, leg, etc.) through a fixing part such as a strap or adhesive tape that can be worn on the user's body part.

According to an embodiment, a pressure sensor (not shown) for sensing pressure according to vibration between the vibrator 111 and the user's body part may be further provided. The processing unit 130 to be described later may display a pressure change according to the vibration through the display unit 140 . This allows the user to know in real time whether the vibrator is providing vibration at the appropriate pressure level. Accordingly, when the pressure is too low or too high, the operation of the vibrator 110 and the vibrator 111 may be controlled through the control unit 150 .

The measuring unit 120 may measure a change in elasticity of a body part according to the vibration provided by the vibrating unit 110 . When deep vein thrombosis (DVT) occurs, a thrombus is formed in a vein, which causes a muscle stiffness symptom.

2 illustrates a process of calculating a thrombosis risk in the apparatus for diagnosing deep vein thrombosis according to an exemplary embodiment. Referring to FIG. 2 , a change in elasticity of a body part is detected through an accelerometer 121 and/or an electromyography 122 , and when a change in a frequency component greater than or equal to a threshold value appears, a thrombosis risk is calculated and a warning is issued to the user.

According to an embodiment, the measurement unit 120 may sense the reflected vibration generated in the user's body part through the accelerometer 121 . Reflex vibration refers to the tremor that occurs in the surrounding muscles when an arbitrary vibrational stimulus is applied to the muscle. In a general situation, if the environment, such as muscle tone or blood flow, is the same, when vibration stimulation (strength, frequency, stimulation interval) of the same characteristic is applied, the reflected vibration of the corresponding characteristic appears at a constant level. In contrast, when deep vein thrombosis occurs and the muscle becomes stiff or the blood flow changes, the characteristic of the reflex vibration sensed by the muscle changes rapidly. The accelerometer 121 is a device for converting a minute movement of a muscle into an electrical signal, and detects a change in vibration characteristics due to the occurrence of thrombosis and transmits it to the processing unit 130 .

FIG. 3 shows the results of measuring the reflected vibration of the body part (ie, the vibration of the muscle corresponding to the vibration applied by the vibrator) using the accelerometer in the frequency domain. As shown in FIG. 3 , it can be seen that the frequency characteristic of the measured reflected vibration changes significantly after deep vein thrombosis develops.

According to an embodiment, the measurement unit 120 may measure an EMG signal of a body part of the user through the EMG 122 . An electromyograph is a device that records electrical activity according to muscle contraction using electrodes attached to or inserted into body parts. As with the above-mentioned reflex vibration, when deep vein thrombosis occurs and muscle is stiff or there is a change in blood flow, the EMG signal also changes. .

4 shows a result of measuring an EMG signal of a body part using an EMG in the apparatus for diagnosing deep vein thrombosis according to an embodiment. As shown in FIG. 4 , it can be seen that the frequency characteristic of the measured EMG signal changes significantly after deep vein thrombosis is expressed.

The processing unit 130 calculates the risk of thrombosis when a change in a frequency component greater than or equal to a threshold value appears in the measurement results of the accelerometer 121 and the electromyography 122 . For example, if a rapid frequency component change (eg, 2-3 Hz) is detected as a result of analyzing each signal by Fast Fourier Transform (FFT), it is determined that the muscle is stiff due to thrombosis and the risk of thrombosis is calculated. The thrombosis risk calculation method may vary according to user information input in advance or according to the amount of change in frequency component versus time. For example, when a larger change in frequency component is sensed for a shorter period of time, or when the age of the user is high even with the same amount of change, it can be determined that the risk of thrombosis is higher.

The processing unit 130 fuses and simultaneously uses the reflected vibration measurement result of the body part and the EMG signal measurement result (in this case, each measurement result may be given a weight), or uses each result independently to increase the risk of thrombosis can be calculated.

The display unit 140 displays the thrombosis risk calculated by the processing unit 130 to the user through an external device. According to an embodiment, the display unit 140 may display the calculation result as a numerical value on the display device 141 (see FIGS. 1 and 2 ). According to another embodiment, the display unit 140 may warn the user by illuminating an LED element (not shown) when the thrombosis risk is greater than or equal to a threshold (eg, a red light if the risk of deep vein thrombosis is high) lights up, and if the level is low, a green light is turned on).

According to the device for diagnosing deep vein thrombosis described above, a vibration of a specific frequency is provided using a vibrator attached to the user's body, and a reflection vibration of a muscle and an EMG signal sensed in response to the vibration are measured to diagnose deep vein thrombosis. can do. The diagnosis apparatus according to the embodiment includes a vibrator attached to a body part and a sensor capable of detecting a change in the body part, so that it is easy to install and use. For example, using a vibrator and a sensor provided under an airplane seat, a traveler's risk of thrombosis can be automatically measured and warned. According to this, it is possible to diagnose deep vein thrombosis at an earlier stage than the conventional ultrasound examination method or blood test method.

Although the above has been described with reference to the embodiments, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention described in the claims below You will understand.

10: Deep vein thrombosis diagnostic device
110: vibration unit
111: vibrator
120: measurement unit
121: accelerometer
122: electromyography
130: processing unit
140: display unit
141: display device
150: control unit

Claims (10)

a vibrating unit for providing vibration to the user's body part;
a measuring unit for measuring a change in elasticity of the body part according to the vibration in order to detect a change in vibration characteristics due to the occurrence of thrombosis;
a processing unit for calculating a risk of thrombosis based on the amount of change in elasticity of the body part; and
and a display unit for displaying the thrombosis risk.
According to claim 1,
Deep vein thrombosis diagnosis apparatus, characterized in that it further comprises a control unit for controlling the operation of the vibrator.
3. The method of claim 2,
The vibrating unit receives a control signal from the control unit and provides vibration of a specific frequency through a vibrator attached to the body part, the deep vein thrombosis diagnosis apparatus.
4. The method of claim 3,
It is located between the vibrator and the user's body part, further comprising a pressure sensor for detecting the pressure according to the vibration,
Deep vein thrombosis diagnosis apparatus, characterized in that the processing unit is configured to display the pressure according to the vibration through the display unit.
According to claim 1,
The measurement unit, Deep vein thrombosis diagnosis apparatus, characterized in that provided with an accelerometer for detecting the reflected vibration generated in the body part in response to the vibration.
6. The method of claim 5,
The apparatus for diagnosing deep vein thrombosis, characterized in that the processing unit calculates the thrombosis risk when a change in a frequency component greater than or equal to a threshold is detected in the measurement result of the accelerometer.
According to claim 1,
The measurement unit, Deep vein thrombosis diagnosis apparatus, characterized in that it comprises an electromyography for measuring the EMG signal of the body part.
8. The method of claim 7,
The apparatus for diagnosing deep vein thrombosis, characterized in that the processing unit calculates the thrombosis risk when a frequency component change greater than or equal to a threshold value appears in the measurement result of the electromyography.
According to claim 1,
The display unit, the deep vein thrombosis diagnosis apparatus, characterized in that the numerical value of the thrombosis risk through a display device.
According to claim 1,
The display unit, the deep vein thrombosis diagnosis device, characterized in that configured to light the LED element when the thrombosis risk is greater than or equal to a threshold.

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