RU58024U1 - DEVICE FOR MEASURING BENDING OF THE SPINE (POSITION) - Google Patents

Abstract

The utility model relates to medicine, namely to anthropometry, and can be used for complex anthropometric measurements of the spine. The objective of the utility model is to create a device that allows you to measure the linear and angular dimensions of the spinal column in people of different height and age, and with pronounced lordotic changes in the spine. The task is achieved due to the fact that a measuring ruler with millimeter division is installed between the legs of the rod compass, and the legs and the ruler of the rod compass are made elongated: legs - by 100 mm, ruler - up to 700 mm. A vertebrometer allows you to:

1) to examine population groups of various growths without carrying out an x-ray examination;

2) take measurements of both angular and linear dimensions of the spine;

3) to increase the accuracy of measuring the angular dimensions of the bends of the spine, both in the sagittal and in the frontal plane;

4) measure the depth of the bends of the spine in millimeters, followed by drawing the contours of the spinal column to determine the type of posture.

Description

The utility model relates to medicine, namely to anthropometry, and can be used for complex anthropometric measurements of the spine.

The well-known Mollison goniometer, consisting of an arched graduated metal plate connected to a flat transverse plate, in the center of which is an arrow with a plumb line. The arrow rotates on the screw and, thanks to the plumb line, the axis maintains a vertical position. On the back side of the main plate there is a ferrule with a screw, into which a leg of a sliding or thick compass is threaded. When the main plate is brought out of the horizontal position, the arrow deviates by a certain angle, showing the deviation of the measured line from the horizontal and vertical plane (V.V. Bunak "Anthropometry", Moscow: State educational-pedagogical publishing house of the People's Commissariat of Education, RSFSR, 1941, S. 34-35).

The disadvantage of this device is that it is a stationary device and does not allow serial measurements. In addition, the determination of the angle of inclination by a plumb line reduces the accuracy of the measurements.

Known protractor to determine the amplitude of motion in the cervical spine. The device is two

transparent plexiglass disc, equipped with a scale and movably mounted on a vertical bar in the vertical and horizontal planes, respectively. A vertically located disk has a cavity where a metal ball is placed, and a horizontal disk is equipped with an arrow - pointer, rigidly fixed to the upper end of the bar. The lower end of the strap is movably connected with a lightweight helmet, providing rotation of the device around a vertical axis (A.E. Vershinin, G.F. Nazarenko, Goniometer to determine the amplitude of movements in the cervical spine // Orthopedics. - 1985, - No. 9. - S. 49-50).

The disadvantage of this device is that it cannot be used to measure the physiological bends of the spine. Closest to the proposed one is a scolimeter consisting of a barbell compass and a gravimetric sensor - a goniometer. The barbell compass and the gravimetric sensor - the protractor are functionally connected to each other, and the latter are movably connected to the graduated bar and the device can fix the bends of the spine in three mutually perpendicular planes. Millimeter divisions from 0 to 430 mm are plotted on the bar compass line, and a scale from -40 ° to + 40 ° is set on the head of the scolimeter for measuring angular dimensions.

To measure the linear dimensions of the legs of the compass set on the measured points and conduct measurements on a linear scale in the range from 0 to 430 mm. To measure the angular dimensions of the legs of the compass are also installed on the measured points and measure on the scale of the head,

determining the angle of deviation in degrees from the vertical axis in the sagittal or in the frontal planes. For this, the head of the device can rotate around its axis by 180 °, and in the plane of the linear scale by 90 ° (certificate of the Russian Federation for utility model No. 23371, A 61 V 17/00, BIMP No. 21, 2002).

The disadvantage of this device is:

1) the inability to use a scolimeter in the examination of persons of high growth;

2) the device cannot be used to measure the depth of the bends of the spine in linear dimensions with the subsequent use of the results for drawing contours of posture;

3) the insufficient length of the legs of the device does not allow its use in the examination of persons with pronounced lordotic changes in the spine.

The objective of the utility model is to create a device that allows you to measure the linear and angular dimensions of the spinal column in people of different height and age, and with pronounced lordotic changes in the spine.

The task is achieved due to the fact that a measuring ruler with millimeter division is installed between the legs of the rod compass, and the legs and the ruler of the rod compass are made elongated: legs - by 100 mm, ruler - up to 700 mm.

The device includes (Fig. 1) - a barbell compass (1), a gravimetric sensor - a goniometer (2), a movable measuring ruler (3), legs of the barbell compass: fixed (4), mobile (5).

The measurement is carried out as follows:

- prepare the vertebrometer for operation (Fig. 1) - the arrow of the gravimetric sensor - the goniometer (2) must be in a strictly vertical position and coincide with the zero scale division, the caliper line (1) is installed in the sagittal plane;

- a sheet of Whatman paper is fixed on the wall, with the middle line drawn on it, the subject is set in a freely straightened position (the head is in the ear-orbit horizontal, the supra-alkal notch coincides with the outer edge of the orbit), facing the wall. To standardize the posture, the subject touches the tip of the nose of the midline on the sheet and with the thumbs of the foot - the wall;

- points on the spinous processes of the vertebrae, to which the legs of the vertebrometer are attached during measurement, are marked with a solution of iodine or brilliant green;

- to measure the angular dimensions of the spine on the back wall of the vertebrometer head (2), it is necessary to turn the bar fixing the arrow by 180 °. The legs of the vertebrometer are set to the following points (Fig. 2): the most protruding point of the occipital protuberance (3), the spinous process of the 5th cervical vertebra (C ₅ ), the spinous process of the 7th thoracic vertebra (Th ₇ ), the spinous process of the 5th

lumbar vertebra (L ₅ ), spinous process of the 4th sacral vertebra (S ₄ ) and tailbone (Co). Points C ₅ , Th ₇ , L ₅ , S ₄ are the vertices of the physiological bends of the spine. When measuring the bends of the spinal column in the sagittal plane, measure the angle of its inclination to the vertical line, connecting the following points (Fig. 2):

Zt - C ₅ - angle “a”

C ₅ - Th ₇ - angle "in"

Th ₇ - L ₅ - angle "c"

L ₅ - S ₄ - angle "d"

S ₄ - Co - angle "e"

The values of the angles are taken on a scale of the head of the protractor.

Knowing the angles of inclination to the vertical of the spinal column (a, b, c, d, e), we can characterize the sagittal bends and calculate (Fig. 2) the angles of the cervical lordosis (1), chest kyphosis (2), lumbar lordosis (3) and sacral kyphosis (4). The bend angle of the spinal column will be 180 ° minus the sum of the angles of deviation from the vertical line. So the angle of cervical lordosis is 180 ° - (b + a), chest kyphosis 180 ° - (c + b), lumbar lordosis 180 ° - (d + c), sacral kyphosis 180 ° - (e + d).

The angles of scoliotic deformation are measured as follows (Fig. 1): the vertebrometer head (2) is transferred to the frontal plane. The legs of the rod compass (4, 5) are installed on the spinous process of the first vertebra located on top of the normally located vertebra and the spinous process of the vertebra, which is the apex of curvature. Angle calculation

scoliotic deformity is carried out similarly as in the sagittal plane. After carrying out all the measurements, it is necessary to fix the arrow on the sensor head - the goniometer (2), by turning the bar located on the rear wall of the head, by 180 °.

To measure the linear dimensions in the sagittal plane, the legs of the rod compass (4, 5) are installed on the measured points and measurements are taken on the linear scale of the mobile measuring ruler (3). To do this, the legs of the rod compass (4, 5) are installed on the points Zt and C ₀ (Fig. 2), the vertebrometer is kept strictly in the vertical position. The mobile measuring ruler (3) is displaced along the bar compass ruler (1) from top to bottom and fixed to the spinous process of the vertebrae, which are the vertices of the bends of the spine (C ₅ , Th ₇ , L ₅ , S ₄ ). Readings in millimeters are taken from a mobile measuring ruler (3).

A vertebrometer allows you to obtain digital data for drawing contours of posture. To do this, the legs of the rod compass are installed at points Zt and C ₀ , the vertebrometer is kept strictly in the vertical position. The movable measuring ruler (3) is displaced along the bar compass ruler (1) from top to bottom with a standard step through one vertebra: C ₂ , C ₄ , C ₆ , Th ₁ , Th ₃ , Th ₅ , Th ₇ , Th ₉ , Th ₁₁ , L ₁ , L ₃ , L ₅ , S ₂ , S ₄ , C ₀ and the measuring ruler (3) is led to the spinous processes of the vertebrae. Readings are taken on a scale of a mobile measuring ruler in millimeters.

The details of the vertebrometer are made of D16T grade aluminum alloys followed by chemical nickel plating and polishing, which provides reliable protection against corrosion and mechanical strength during operation.

The device allows you to:

1) to examine population groups of various growths without carrying out an x-ray examination;

2) take measurements of both angular and linear dimensions of the spine;

3) to increase the accuracy of measuring the angular dimensions of the bends of the spine, both in the sagittal and in the frontal plane;

4) measure the depth of the bends of the spine in millimeters, followed by drawing the contours of the spinal column to determine the type of posture.

Claims (1)

A vertebrometer, including a gravimetric sensor — a goniometer, movably connected to a graduated bar, a caliper, characterized in that a movable measuring ruler with millimeter division is installed between the legs of the bar compass, and the legs and the bar compass are elongated: the legs are 100 mm long, the ruler is up to 700 mm.