RU2471419C2 - Device for diagnostics of functional states of vertebral-motor segment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to vertebrology, manual medicine, neurology and can be used in determination of various functional states of vertebral-motor segment of spine: normal, state of functional or organic block or presence of hypermobility in cervical, thoracic or lumbar parts of spine. Device for diagnostics of functional states of vertebral-motor segment of spine by measurement of difference of distances between spinous processes of adjacent vertebra with change of patient's body position contains two connected to each other with possibility of travel in plane rods, which have elastic supports on their ends, and measuring device in form of ruler and indicator of measured distance. Elastic supports are fixed on free ends of rods by means of hinges. Ruler is fixed on free end of one of rods above elastic support in such a way that the perpendicular, drawn from its zero mark passes through the middle of elastic support of connected to it rod, and indicator of measured distance is fixed on the middle of elastic support of the second rod with possibility of forming right angle with measuring scale of ruler.

EFFECT: invention makes it possible to increase self-descriptiveness of manual examination and increase its efficiency with considerable reduction of time consumption and physical effort on carrying out manual diagnostics.

3 cl, 1 dwg

Description

The invention relates to medicine, namely to vertebrology, manual medicine, neurology, and can be used to determine various functional conditions of the vertebral-motor segment of the spine: normal, state of a functional or organic block or the presence of hypermobility in the cervical, thoracic or lumbar spine.

Pain in the back and limbs is one of the most common disorders. It is the second most frequent cause of seeking medical attention after respiratory illness. About half of people of working age during their lives suffer episodes of back pain that are not associated with inflammatory, systemic, oncological, metabolic disorders. The economic losses of society and patients due to frequent hospitalization and long-term temporary disability are also great (V.V. Alekseev, breast cancer, Volume 10 No. 12-13, 2002; O.V. Vorobyova, breast cancer, Volume 11 No. 10, 2003; Neck and back pain: the scientific evidence of causes, diagnosis and treatment. // Ed .: Nachemson A., Jonsson E., Philadelphia: Lippincott Williams and Wilkins; 2000.).

A known method for the diagnosis of functional blocks of the cervical spine, carried out by palpation of the transverse processes during direct posture, rotation of the head with identification of muscle resistance, pain points between the transverse processes, reduction of movements during lateral bending towards the functional block, displacement of the transverse processes (patent RU 2086224, А61Н 23/00, publ. 1997.08.10).

However, when conducting such an examination, adopted in manual medicine, the data obtained are extremely subjective and do not allow an objective assessment of the scope of movement restrictions.

Numerous methods are known for diagnosing various functional conditions of the vertebral-motor segment of the spine, based on complex hardware studies.

For example, we measured the electrical skin conductivity at 24 representative acupuncture points of 12 symmetric meridians, calculated its arithmetic mean value, presented the measurement results in relative units by dividing each measured value by the arithmetic mean value, and then assessed the state (patent RU 2156107, АВВ 5/053, publ. 2003.10.27).

X-ray diagnostics of pathobiomechanical changes in the spine is known, in which the position and movement of two adjacent vertebrae having the greatest projection deformation in two projections are determined by x-ray. Then a graphical analysis is carried out, the presence of angular (lateroflexion, rotation, flexion-extension) and linear (lateral, ventral, dorsal) movements of the upper vertebra relative to the lower in the frontal and sagittal planes is compared and the mismatch of their position is judged on the presence of developmental anomalies, by their coincidence confirm the asymmetry of the position of the vertebra in the statics in the corresponding direction, associated with the presence of a lateral, anterior or posterior hernia of the intervertebral disc; to identify the asymmetry of the upper vertebra relative to the lower in three directions (flexion-extensia, lateroflexia, rotation), one judges the presence of functional pathobiomechanical changes in the statics of the examined vertebral motor segment in the form of a functional unit (Patent RU 96112570, А61В 6/00. publ. 1998.09.27)

However, this diagnosis is quite long, laborious, requires special sophisticated equipment, additional time and material costs for personnel, electricity, and laboratory equipment for its implementation.

To date, a sufficiently simple and informative device is not known that allows with high reliability to determine such functional conditions of the spinal motor segment of the spine in the cervical, thoracic or lumbar regions, such as the state of a functional or organic block or the presence of hypermobility.

The present invention solves the problem of developing an informative and simple device for diagnosing functional conditions of the spinal-motor segment, which does not require additional power sources for its operation.

Studies conducted by the developer on more than 500 patients established the dependence of the difference in the distances between the spinous processes of adjacent vertebrae when the patient’s body position changes and the functional state of the vertebral-motor segment in the cervical, thoracic and lumbar regions, such as the state of the functional or organic block, the presence of hypermobility or normal mobility . The presence of such a relationship led to the need to create a device that allows you to easily and simply measure the difference in distances between the spinous processes of adjacent vertebrae when the patient's body position changes.

The problem is solved by a device for diagnosing functional conditions of the vertebral-motor segment by measuring the difference in distances between the spinous processes of the adjacent vertebrae when the patient’s body position is changed, containing two connected to each other with the possibility of movement in the plane of the rod, having elastic supports at their free ends, and measuring a device in the form of a ruler and a pointer to the measured distance, and the elastic supports are fixed to the free ends of the rods using hinges, and the ruler is fixed on the free end of one of the rods above the elastic support so that the perpendicular dropped from its zero point passes through the middle of the elastic support of the rod connected to it, and the measured distance indicator is fixed on the middle of the elastic support of the second rod with the possibility of forming a right angle with ruler measuring scale.

The pointer to the measured distance can be made in the form of an arrow or in the form of a rectangle, the right angle of which is in contact with the measuring scale of the ruler.

The technical result obtained by applying the present invention is to evaluate digitally the states of the vertebral-motor segment of the spine.

The drawing shows a General view of the proposed device.

A device for diagnosing the functional conditions of the vertebral-motor segment by measuring the difference in distances between the spinous processes of adjacent vertebrae, depending on the position of the patient’s body, consists of two rods 1 connected to each other with the possibility of movement in the plane, having elastic supports 2 at their free ends, and a measuring a device in the form of a ruler 3 and a pointer to the measured distance 4, and the ruler 3 is fixed on the free end of one of the rods 1 above the elastic support 2 so that the perpendi ulyar dropped from its zero point, passes through the center of the elastic support 2 connected thereto rod 1, and the measured distance pointer 4 is fixed to the middle leg 2 of the second elastic rod 1 to form a right angle with the measuring line 3 scale.

The device operates as follows. An elastic support 2 is mounted on the spinous process of one of the vertebrae and fixed with the help of fingers so that the perpendicular dropped from the zero mark of the ruler passes through its middle. The rods 1 are extended until the second elastic support 2 is mounted on an adjacent spinous process of the overlying vertebra. In this case, the ruler is positioned so that the pointer to the measured distance 4, mounted on the middle of the elastic support 2 of the second rod 1, forms a right angle with the measuring scale of the ruler 3.

The patient tilts forward 40-60 degrees. There is an increase in the distance between the spinous processes and the free ends of the rods 1 connected to the elastic supports 2 also change the distance between themselves, which is likewise fixed using a measuring device: a ruler 3 and a pointer to the measured distance 4.

With a pronounced subcutaneous fat layer, at first, on the palpation (by palpation), the spinous processes of the examined vertebrae are found, the places of their projections on the skin are marked and then elastic supports 2 are installed in these areas and tightly fixed with fingers.

Testing tests performed when measuring the distance between the spinous processes of adjacent vertebrae with the patient standing vertically and tilting it by 40-60 degrees showed that this difference in the cervical, thoracic and lumbar spine with a value of 8 to 12 mm indicates about the normal functioning of the spinal motor segment. If the value of this difference is less than 8 mm, the presence of a functional or organic block of the vertebral-motor segment is judged, and if its value is exceeded more than 12 mm, the presence of hypermobility in the vertebral-motor segment is judged.

Example 1

Patient D. 53 years old. Diagnosis: chronic lumbar ischialgia due to left-side radicular syndrome L5 on the background of osteochondrosis of the lumbar spine. Complaints of pain in the lumbar region on the left, spreading along the anteroposterior surface of the thigh, lower leg, and foot. On examination: paresis of 1 toe of the left foot 3 points, hypesthesia along the inner edge of the foot. MRI - disc herniation up to 5 mm in the L5-S1 segment along the posterior contour is larger on the left. L4-5 paramedian left-sided hernia of 9 mm with compression of the dural sac, stenosis of the left lateral pocket. Manual examination: S-shaped scoliosis, beveled to the right pelvis, block of the right sacroiliac joint. The range of motion in the L5-S1 segment was 10 mm (in the vertical position, the distance between the spinous processes of 20 mm with an inclination of 30 mm); in the L4-5 segment, as well as overlying vertebral-motor segments, the range of movements is 10 mm (in the vertical position, the distance between the spinous processes is 20 mm, with an inclination of 30 mm), except for the L2-3 segment, in which the range of movements was 5 mm (in the vertical position, the distance between the spinous processes of 20 mm with an inclination of 25 mm).

They position the patient standing and measure the distance between the spinous processes of adjacent vertebrae in the L2-3 segment in the vertical position of the body. Measurement shows that this distance is 20 mm. With the patient tilted 40-60 degrees forward, the distance between the vertebrae increased to 25 mm. Thus, the difference between the digital data of the distance between the spinous processes obtained by measuring in the vertical position and the digital data of the distance between the spinous processes obtained by tilting was 5 mm, which according to the invention corresponds to the presence of a functional or organic block of the vertebral-motor segment. The data obtained coincide with the results of the manual examination described above.

Example 2

Patient K., 43 years old. Diagnosis: acute cervicalgia due to myofascial syndrome m.trapesius of the upper and middle portions, m.skalenius on the right against the background of osteochondrosis of the lumbar spine. Complaints of pain in the cervical spine on the right, spreading along the outer surface of the shoulder. At a neurological examination: tendon reflexes D = S, superficial and deep sensitivity unchanged. R-graphy: flattened lordosis, decreased height of the discs C3-4, C6-7, osteochondrosis, uncovertebral arthrosis. Manual examination: S-shaped scoliosis, beveled to the right pelvis, block of the right sacroiliac joint. Functional block C3-4, C4-5, hypermobility C6-7.

They position the patient standing and measure the distance between the spinous processes of adjacent vertebrae. Then the patient leans forward 40-60 degrees, the distance between the vertebrae increases. The range of motion in the C2-3 segment was 8 mm (in the vertical position, the distance between the spinous processes of 12 mm with an inclination of 20 mm); in the segment C3-4 - 6 mm (in the vertical position, the distance between the spinous processes of 12 mm with an inclination of 18 mm), C5-6 - 9 mm (in the vertical position, the distance between the spinous processes of 12 mm with an inclination of 21 mm), C6- 7 - 13 mm (in the vertical position, the distance between the spinous processes of 12 mm with an inclination of 25 mm). The data obtained coincide with the results of the manual examination described above.

As can be seen from the above examples, the application of the invention allows to increase the information content of manual examinations and increase its effectiveness with a significant reduction in time and physical costs for manual diagnostics. In this case, the degree of mobility of the vertebral-motor segments is objectively assessed digitally, a block or hypermobility in the vertebral-motor segments is detected, and the degree of their severity is assessed. This allows you to increase the time for more necessary medical manipulations during the session, to increase the accuracy of the effect on the blocked spinal motion segment, which can significantly reduce the number of sessions necessary to achieve a therapeutic effect and evaluate its effectiveness with greater accuracy, as well as reduce the risk of choice currently inadequate treatment methods.

Claims (3)

1. A device for diagnosing functional conditions of the vertebral-motor segment of the spine by measuring the difference in distances between the spinous processes of adjacent vertebrae when the patient’s body position is changed, containing two connected to each other with the possibility of movement in the plane of the rod having elastic supports at their free ends, and a measuring a device in the form of a ruler and a pointer to the measured distance, moreover, elastic supports are fixed to the free ends of the rods using hinges, and the ruler is closed Lena on the free end of one of the rods above the elastic support so that the perpendicular dropped from its zero point passes through the middle of the elastic support of the rod connected to it, and the measured distance indicator is fixed on the middle of the elastic support of the second rod with the possibility of forming a right angle with the measuring scale rulers. 2. The device according to claim 1, characterized in that the pointer to the measured distance is made in the form of an arrow. 3. The device according to claim 1, characterized in that the pointer to the measured distance is made in the form of a rectangle, the right angle of which is in contact with the measuring scale of the ruler.