KR20190049117A - Mirror movement evaluation device and method of evaluating a patient`s disability using the same - Google Patents

Abstract

The present application relates to a minor movement evaluation device and a method for evaluating a disability of a patient using the same. According to an aspect of the present application, a minor movement evaluation device comprises: first and second reference portions for guiding an initial position of both hands; and first and second measuring portions for measuring a moving distance of voluntary and involuntary movements by the hands located in the first and second reference portions. Accordingly, minor movements can be objectively and quantitatively measured so that an initial response to post-stroke sequelae can be flexible.

Description

TECHNICAL FIELD [0001] The present invention relates to a motion measurement apparatus and a method for evaluating a disorder of a patient using the motion measurement apparatus.

The present invention relates to an apparatus for measuring motion and a method for evaluating a disorder of a patient using the same.

In general, mirror movement is a sequela of a stroke patient. When one hand is moved in a certain situation, the independent movement control of the opposite hand is reduced and symmetrical and involuntary movements appear in the same muscle. It is called an ordinary movement.

The current motion can be used as an index of stroke sequelae, for example, when the movement is large, it means that the stroke sufferers suffer from a severe aftereffect.

In the past, specialists (physicians) compared hand motion and involuntary movements in both hands with eyes. From this, the hand motion was assessed under subjective judgment. Therefore, in the case of fine motion motion that is difficult to distinguish by eyes, Problems that can not be found can occur.

Particularly, the after-stroke of stroke is important in early rehabilitation treatment, which may cause delayed response to initial rehabilitation treatment due to subjective judgment error of experts.

Therefore, it is necessary to study a device that can measure minute motion in an objectively and quantitatively manner, and flexibly initial coping with aftereffects.

The present application is intended to provide a motion estimation device for evaluating a disturbance class by objectively and quantitatively measuring a minute motion, and a method for evaluating the degree of a disorder of a patient using the same.

According to an aspect of the present invention, there is provided an apparatus for evaluating a mirror movement of a hand caused by sequelae of a stroke patient, the apparatus comprising: A first measuring unit for measuring a moving distance of the hand movement generated in the hand located at the first reference unit and a second measuring unit for measuring the moving distance of the involuntary movement occurring in the hand located at the second reference unit, And a second measuring unit for measuring a distance between the first measuring unit and the second measuring unit.

The motion estimation device according to one embodiment of the present application is characterized in that the motion distance between the first and second reference portions for guiding the initial positions of both hands and the movement of the hand and involuntary movements occurring in the hand located at the reference portion By including the first and second measurement units for measuring the motion, it is possible to measure the motion motion objectively and quantitatively, thereby making it possible to flex the initial motion for the stroke after-stroke.

Figures 1 and 2 are views showing an exemplary current evaluation apparatus according to the present application.

The present application relates to a device for evaluating mirror movements. For example, the present invention relates to a device for evaluating motion of a hand caused by sequelae of a stroke patient. Exemplary motion estimation devices include first and second reference portions for guiding the initial positions of both hands, and movement distances of the hand and involuntary movements occurring in the hands located at the first and second reference portions It is possible to objectively and quantitatively measure the minute motion that is hard to be recognized by the eye, so that it is possible to flex the early coping with the after-stroke of the stroke patient, And can contribute to determining the system.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present application may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Figs. 1 and 2 are conceptual diagrams showing an example motion estimation device according to the present application. Fig.

Referring to FIG. 1, the motion estimation device includes a reference portion and a measurement portion.

Specifically, the motion estimation device according to an embodiment of the present invention includes first and second reference portions 10 and 20 which are spaced apart from each other by a predetermined distance and guide the initial positions of both hands, A first measuring unit 30 for measuring the moving distance of the hand movement generated in the hand located at the reference unit 10 and a moving distance measuring unit 40 for measuring the moving distance of the involuntary movement occurring in the hand located at the second reference unit 20 And a second measuring unit 40 for measuring the temperature. The motion estimation device includes first and second reference portions (10, 20) for guiding the initial positions of both hands and first and second reference portions (10, 20) for measuring the moving distance of the hand and involuntary movement of both hands By providing the portions 30 and 40, it is possible to accurately and quantitatively measure even if microscopic motion occurs.

The term " voluntary movement " refers to movement that occurs symmetrically in the same muscle depending on the patient's will, for example, the movement of the muscles capable of independent exercise control according to the patient's will. In addition, the term " involuntary movement " refers to a motion that is symmetrical in the same muscle as the voluntary movement and in which independent exercise control is reduced independently of the patient's will.

In one example, the first and second reference portions 10 and 20 are provided with first and second support plates, respectively, on one side of the first and second support plates, Can be displayed.

Since the first and second reference portions 10 and 20 have the first and second support plates as main components, the first reference portion and the first support plate, and the second reference portion and the second reference plate, 2 Support plates are marked with the same reference numerals.

The separation distance between the first and second support plates provided on the first and second reference portions 10 and 20 is not particularly limited and may be, for example, in the range of 10 cm to 80 cm, Within this range, the spacing can be adjusted.

In one example, the guide line is hand-shaped and may be symmetrically displayed on one side of the first and second support plates 10,20. For example, when a guide line is displayed in the form of a left hand on one surface of the first support plate 10, a guide line may be displayed in the form of a right hand on one surface of the second support plate 20, no.

Referring to FIG. 1, in order to use the current evaluation exercise device of the present invention, a user firstly places his / her left hand in a flat state against the guideline displayed on one side of the first supporting plate 10, It is required to prepare a procedure for bringing the right side of the second supporting plate 20 into contact with the guideline of the right side in a state in which the hand side is in contact with the back side.

In one example, one side of the first and second support plates 10, 20 with the guideline indicated may be in a direction facing each other. The size and shape of the first and second support plates 10 and 20 are not particularly limited as long as the shape and size of the hand guide line can be displayed.

As described above, the first and second reference portions respectively guide the initial positions of both hands of the user, so that the motions occurring in both hands of the first and second measurement portions 30 and 40 are measured at the same reference point a Accordingly, the first or second evaluation means, which will be described later, can accurately compare the moving distance or the moving angle of both hands, and can provide the user with an objective and accurate failure level.

In one embodiment, the guideline having the shape of the hand may be further provided with a reference line b therein. Referring to FIG. 1, the reference line b may be provided in a horizontal direction in the longitudinal direction of the hand. For example, before evaluating the current motion, the user may place the hand and hip joint joint of the back of the hand on the reference line (b). Accordingly, the first and second measuring units can be provided with a more accurate reference point (a) for measuring the movement distance of the motion occurring in both hands.

Referring to FIG. 1, the term " reference point (a) " in the present application means a point where both hands located on the first and second measurement portions are positioned on the guide rail immediately before moving, The movement distance of intentional and involuntary movements is 0, and the movement angle of numerical and involuntary movements described below is 0 degrees.

In one example, the first and second measuring portions 30 and 40 can measure the moving distance of the finger tip when the finger moves toward the palm side. Specifically, the finger may be a stop finger, but is not limited thereto.

1 and 2, the first and second measuring units 30 and 40 are provided with guide rails 31 and 41 having a predetermined length in the moving path direction of the stop finger, and the guide rails 31, 41 which are movably arranged in the operating bar 33, 43. Specifically, the first measuring unit 30 may include a first operating bar 33 movably disposed in the first guide rail 31, and the second measuring unit 40 may include a second operating bar 33, And a second operating bar 43 movably arranged in the rail 41. [

The operating principle of the reclining device of the present application is such that when the hand located at the first reference portion 10 moves the first operating bar 33 manually, The distance that the bar 33 moves within the first guide rail 31 can be measured. The second measuring unit 40 may be configured such that when the hand located at the second reference unit 20 unintentionally moves the second operating bar 43, the second operating bar 43 is moved to the second guide rail 41 ) Can be measured.

Accordingly, the term " moving distance " in the present application means the moving distance of the first and second operating bars 33 and 43. [

In one embodiment, graduations 32 and 42 may be displayed on the guide rails 31 and 41 at regular intervals. The guide lines 31 and 41 of the first and second measuring units may be provided symmetrically with respect to each other, and the scales 32 and 42 may be provided at equal intervals. The shape of the guide rail may be, for example, Shape.

In one example, the scale (32, 42) can be used as a measure to measure the angles of movement of the voluntary and involuntary movements. 1, graduations 32 and 42 are displayed at predetermined intervals on the guide rails 31 and 41 of the first and second measuring units 30 and 40. The first The second scale represents less than 5 °, the third scale represents less than 20 °, the fourth scale represents more than 90 °, and the fifth scale may represent more than 160 °, , And the angle may vary depending on the number and interval of graduations.

The motion estimation device according to the present application may include first evaluation means for evaluating a disturbance grade by comparing movement distances measured by the first and second measurement portions.

The first evaluation means can evaluate the disability grade as the ratio of the movement distance of the voluntary movement to the movement distance of the numerical movement is closer to 1. That is, the first evaluation means can evaluate the disability grade to be higher as the movement distance of the hand movement and the movement distance of the involuntary movement become closer.

In addition, the first evaluating means can evaluate the fault grade to be lower as the ratio of the moving distance of the involuntary movement to the moving distance of the numerical motion is closer to zero.

As described above, the first evaluation means can contribute to the user to determine a personalized treatment system for treating the disorder by evaluating the disorder class through the moving distance ratios of the voluntary and involuntary movements.

In one example, the physical rating apparatus according to the present application may further include a display device for displaying a failure rating evaluated by the evaluation means on a screen. The degree of disability displayed on the screen can be used as a measure of the degree of sequelae of a stroke patient. For example, a high disability rating indicates a large after-stroke in a stroke patient, and a lower disability rating indicates a low sequel to a stroke patient. The display device displays the fault class on the screen, so that the user can easily recognize the class of fault.

In one embodiment, the first and second measurement units may measure the movement angle of the finger tip when the finger moves toward the palm side. The movement angle can be measured by various methods. For example, an accurate angle can be measured through an angle sensor, and the movement angle can be roughly measured using a scale indicated on a guide rail as described above But is not limited thereto.

The motion estimation device of the present application may include second evaluation means for evaluating a disturbance grade by comparing movement angles measured by the first and second measurement portions.

In one example, the second evaluation means can evaluate the disability grade as the ratio of the movement angle of the numerical movement to the movement angle of the involuntary movement approaches 1. That is, the second evaluation means can evaluate the degree of disability to be higher as the movement angle of the hand movement and the movement angle of the involuntary movement become closer.

In another example, the first and second measuring units may further include a pressure sensor for measuring a force of the finger tip when the finger moves toward the palm side. In particular, the pressure sensor may be electrically connected to the first and second measurement bars, so that both hands can measure the force of moving the first and second measurement bars, both voluntarily and involuntarily.

The present application relates to a method for evaluating a patient's disorder. An exemplary method of evaluating a patient's impairment is a method of evaluating a disorder caused by sequelae of a stroke patient, and a method of evaluating the disorder using the motion exercise evaluating apparatus described above. Therefore, the description of the above-described recumbent motion evaluating apparatus and the duplicated description will be omitted below.

As described above, although the present application has been described with reference to the limited embodiments and drawings, the present application is not limited thereto, and various modifications and variations may be possible.

a: Reference point
b: Baseline
10: first reference part
20: second reference portion
30: first measuring unit
40: second measuring unit
31, 41: guide rail
32, 42: scale
33, 43: Measuring bar

Claims (13)

1. An apparatus for evaluating hand motion of a hand caused by sequelae of a stroke patient,
First and second reference portions spaced apart from each other by a predetermined distance and guiding an initial position of both hands;
A first measuring unit for measuring a moving distance of the hand movement generated in a hand located at the first reference unit; And
And a second measuring unit for measuring a moving distance of an involuntary movement occurring in a hand located at the second reference unit. [2] The apparatus of claim 1, wherein the first and second reference portions are provided with first and second support plates, respectively, and guide lines for guiding the initial positions of both hands are displayed on one surface of the first and second support plates Current motion evaluation device. 2. The motion estimation device according to claim 1, wherein the first and second measurement units measure the movement distance of the finger tip when the finger moves toward the palm side. 4. The motion estimation device according to claim 3, wherein the first and second measuring units include guide bars provided with guide rails having a predetermined length in the direction of movement of the fingers, and operation bars movably arranged in the guide rails. 4. The motion estimation device according to claim 3, wherein the guide rail is scaled at a predetermined interval. 2. The motion estimation device according to claim 1, further comprising first evaluation means for evaluating a disturbance grade by comparing movement distances measured by the first and second measurement portions. 7. The motion estimation device according to claim 6, wherein the first evaluation means evaluates the disturbance grade to be higher as the ratio of the moving distance of the involuntary movement to the moving distance of the numerical motion is closer to 1. 7. The motion estimation device according to claim 6, further comprising a display device for displaying a disturbance class evaluated by the first evaluation means on a screen. 2. The motion estimation device according to claim 1, wherein the first and second measurement units measure a movement angle of the stop finger end when the finger moves toward the palm side. The current motion estimation device according to claim 9, further comprising second evaluation means for evaluating a disturbance grade by comparing the movement angles measured by the first and second measurement portions. 9. The motion estimation device according to claim 8, wherein the second evaluation means evaluates the degree of the disability to a higher value as the ratio of the moving angle of the involuntary movement to the moving angle of the numerical motion is closer to 1. 2. The motion estimation device according to claim 1, wherein the first and second measurement units are further provided with a pressure sensor for measuring a force of the fingertip when the finger moves toward the palm side. A method for evaluating a patient's disorder using the motion estimation apparatus according to claim 1.

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