RU2157169C2 - Process and gear to restore flexibility and to stretch spinal column - Google Patents

Abstract

FIELD: medical equipment, unloading and stretching of spinal column for prophylactic purposes. SUBSTANCE: body is lifted on special supporting platform equipped with neck-and-head, under-shoulder and waist rests which is forced to deviate from vertical position on horizontal axis through angle up to 60 degrees in order to enhance efficiency of action and smoothness of growth of stretching effort. Horizontal axis is located at level of boundary of neck and chest sections of spinal column or below. Lower edge of supporting platform is positioned in region of upper part of waist section of spinal column. Decrease of radius of turn of lower edge of platform leads to deceleration of lift and as consequence to smoother redistribution of load from flour ( feet ) to under-shoulder rests ( shoulder belt ). Force stretching waist and chest sections of patient's spinal column changes accordingly. Smaller radii of turn of platform make it feasible to restore and to develop flexibility of spinal column under sparing condition of " unloading ". EFFECT: creation of action on spinal column with due account of natural bending of it in waist area. 2 cl, 4 dwg

Description

 The product relates to medical equipment and can be used to restore flexibility, unloading and stretching the spine for preventive and therapeutic purposes in medical and sports facilities, in enterprises for people with a static type of activity, as well as at home.

 Numerous devices are known for unloading and stretching the spine, in which the patient is in standing (SU 1764650, RU 2014042, RU 2063204), sitting (RU 2020903) or lying (ed. St. USSR N 944572, SU 1653771, RU 2014042) positions, on land or in water (RU 2040230). In this case, the patient is rigidly fixed on the device in the area of the feet, pelvic, shoulder girdle or head. The tensile spine created by the physical effort of the patient himself, his body weight and / or third force (electric motors, winches, etc.) is transmitted to the patient's spine through block systems and is directed along the spinal column. Most of these devices, because of their complexity, can only be used in medical hospitals.

 Also known devices that use only the patient’s body weight to create a tensile force. In this case, the patient lies on an inclined plane with his head up (ed. St. USSR N 891091) or down, either directly on the plane (RU 2061453, GB 2152381), or on special carts (under the pelvic region, shoulder region and head) located on this plane (RU 2092148). A change in the tensile spine is achieved by changing the angle of inclination of the plane.

The disadvantages of these devices that are close in type of exposure include the following:
1. The tensile spine is directed along the spinal column without taking into account the natural bends of the spine, in particular lumbar lordosis. The energy costs of straightening these bends reduce the effectiveness of the procedure.

 2. Dosing of tensile force is difficult, a smooth transition from the mode of "unloading the spine" to the mode of "stretching the spine" is excluded.

 A device (SU 1132937) is also known that uses ellipsoid rollers for the local treatment of injuries and diseases of individual vertebrae when stretching the patient’s thoracic spine on a radially curved surface formed by transversely located rollers under the influence of his body weight. An increase in tensile force is achieved by a discrete change in the position of the base of the device relative to the horizontal surface: while the bending radius of the supporting surface (device profile) remains unchanged.

The aim of the present invention is to remedy the above disadvantages and create a device that provides:
1. Impact on the patient in conditions of natural relaxation of the spine.

 2. The direction of the tensile force along the spinal column, taking into account the natural bending of the spine in the lumbar region (lumbar lordosis).

 3. The exact dosage of exposure according to the patient's feelings.

 4. Smooth transfer of the patient from the initial vertical position to the modes of "unloading" and "stretching the spine" and vice versa.

 5. Equivalent tensile force at various bending angles of the spinal column.

 6. The possibility of use by practically healthy people for the purpose of prevention, as well as by persons with pain in the spine (for medical reasons).

 7. Easy to use without assistants in any environment.

 8. The simplicity of the design.

This goal is achieved by the fact that, in contrast to the known methods in which the tensile spine, created by body weight or third force, is directed in a straight line along the spinal column, straightening its natural bends, unloading and stretching of the spine is carried out by hanging the body on a special supporting platform, equipped with cervical-head, subhumeral and lumbar stops, forcibly deviating on a horizontal axis from a vertical position by an angle of up to 60 ^o . The horizontal axis can be set at or below the border of the cervical and thoracic spine. When the support platform is rotated, its lower edge, located in the upper part of the lumbar spine, rises smoothly. The dependence of the lifting height on the angle and radius of rotation is described by the formula
Δ = R • (1-cosα),
where Δ is the height of the lower edge of the support platform,
R is the radius of rotation of the lower edge of the support platform,
α is the angle of rotation.

The lumbar spine normally allows the body to tilt back at an angle of up to 30 ^o , that is, the estimated and provided by the installation working interval in the modes of "unloading" and "stretching the spine" from 0 ^o to 30 ^o is physiologically acceptable and reasonable.

 In FIG. 1 shows a longitudinal section of the described device; in FIG. 2 is a general view of the described device; in FIG. 3 - schematically shows examples of the use of the method and installation; in FIG. 4 - presents a graph for the optimal selection of tensile spinal effort in the modes of "pulling" and "unloading" depending on the position of the support platform relative to the axis of rotation (for R = 40, 30, 20 and 10 cm).

 The supporting platform (1, Fig. 1, 2), equipped with a fixed neck-head stop (2) and individually adjustable sub-shoulder (3) and lumbar (4) stops, is fixed on the swing frame (5) and the horizontal axis (6) with clamps. The rotary frame through the horizontal axis (6) is connected to the frame of the device (7), and through the hinge with a lifting device (8). The frame of the device (7) for the purpose of individual adjustment can be displaced in the vertical direction on the rails (9) attached to the support.

Examples of the use of the method and installation shown in FIG. 3, demonstrate the transition from the initial position (A) to the modes of "pulling" (B) and "unloading" (C) of the spine at an angle of inclination of the support platform of 30 ^o . The displacement of the support platform upward relative to the horizontal axis — a decrease in the turning radius (R) of the lower edge of the platform — slows down the rise and, as a result, smoother redistribution of the load determined from the body mass from the floor (from the legs) to the sub-shoulder rests (on the shoulder girdle). Accordingly, the force stretching the lumbar and thoracic spine of the patient changes. Smaller turning radii of the supporting platform allow to restore and develop the flexibility of the spine in the gentle "unloading" mode.

 The schedule shown in FIG. 4.

Claims (2)

1. A method for restoring flexibility and stretching the spine under the influence of its own body weight, characterized in that the hanging is done by tilting the thoracic spine back to an angle of 0-60 ^o on a support platform equipped with a cervical-head and adjustable shoulder and lumbar stops.  2. A device for restoring flexibility and stretching the spine, consisting of a supporting platform, frame and lifting device, characterized in that the supporting platform is equipped with a fixed neck-head stop and adjustable sub-shoulder and lumbar stops and is fixed to the rotary frame and horizontal axis with the help of clamps, while the rotary frame through the horizontal axis is connected to the frame, and through the hinge with a lifting device.

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