SU1560204A1 - Method of stimulation of blood circulation - Google Patents

Abstract

This invention relates to medicine and can be used in stimulating blood circulation. The goal is to expand the functionality of the method. A disturbing force is applied to adjacent parts of the body periodically with a frequency equivalent to the respiratory movements in a quiescent state. The distance between the points of application of force is equivalent to the pitch of the second valves. The method is applicable in medicine, in the field of labor activity and the social field.

Description

The invention relates to medicine and can be used, for example, to stimulate the blood circulation of patients with bed rest, of various types of operators whose working day is characterized by relative immobility (for example, drivers of automobile and railway transport, machinists of various kinds of technological machines, pilots, astronauts, divers ), knowledge workers, whose working time is mainly at the desk, a wide range of workers during their day and night rest, etc.

The goal is to expand the functionality of the method.

The method is carried out as follows.

The disturbing force is applied to adjacent parts of the body with the alternation of its magnitude in inverse proportion; a disturbing force is applied to adjacent parts of the body with a frequency preferentially equivalent to the respiratory movement in a quiescent state; the point of application of the disturbing force in the adjacent area is moved with each cycle in the direction of the movement of venous blood to the heart; the point of application of the disturbing force in the adjacent area is moved with each cycle in the direction of the movement of arterial blood; the distance between the points of application of the disturbing force along the vessels is predominantly equivalent to the pitch of the venous valves.

The flow of blood in adjacent areas of the venous bed occurs in the direction of the heart. The repetitive effect of the disturbing force F, for example, on the leg muscles, exerts a qualitatively equal effect on the pressure of the blood in the veins and on the blood flow in them (the transmural pressure in the veins decreases, the blood flow increases) regardless of whether the venous valves function normally or if their inferiority, or they are completely absent.

Example. Incentive of circulatory qi of a patient lying on a stretch with a closed fracture. On the hospital bed is placed a device made in the form of a mattress, provided with a working surface.

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with work elements connected via collectors with elastic chambers. In this case, the chambers with working elements attached to them by means of collectors are made of equal volume. The work elements are divided in terms of, for example, two sections with the possibility of movement of air in them, which coincides with the direction of movement of venous blood.

An equal amount of air is supplied to the chambers through the valve. The pressure in each chamber is brought to a level that ensures, with a decrease in the chamber volume (working stroke), the total disturbing force F, for example, at 0.4 J (the load is determined by the doctor).

Turn on the drive device. The motor-reducer rotates the oil pump. The oil pump delivers oil to the hydraulic cylinder. The force from the rod of the hydraulic cylinder is transmitted to the lever and through the pressure rod to the camera disk. There is a decrease in the volume of the camera. The air in the chamber is compressed and flows through the manifold into the working elements placed, for example, in adjacent areas. The air, which flows through the working elements, acts through the flexible wall on the skin and the patient's vessels, which are in contact with the working surface of the device, in a double way. There is an increase in the area of the living section of the work item due to an increase in the amount of air (liquid) in it. At the same time, the working element presses on the patient's tissue with a given force F. In addition, this increase in the area of the living section of the working element occurs sequentially from the beginning of the working element to its end, i.e. the point of application of the disturbing force F moves along the working element, which provides a consistent transmission of force through the flexible wall of the working element on the patient's tissue in a given direction. Thus, the movement of air (liquid) during the filling of the working element affects the movement of blood in the vessels by squeezing the body with a given force F while simultaneously moving the point where the force F is applied along the vessel in the adjacent area.

At the same time, an increase in the volume of the adjacent chamber occurs. The air from the work elements in the adjacent area is sucked into the chamber, and the elastic stenchs that are in contact with the patient's body fall down. In another area, the vessels are filled with blood.

Changing the amount of air (liquid) in the working elements with a drive, acts in the areas of contact with a device with a given force F on the patient’s body with a frequency of mainly respiratory movement and stimulates blood circulation in compressed areas of the body (support area).

The height of displacement of adjacent work items in adjacent areas is made taking into account the muscle mass and the fatness of the patient. For this purpose, for example, several sizes of the device can be manufactured, differing in the diameter of the working elements and the degree of elasticity of their walls in contact with the patient's body.

The proposed method allows in the field of medical practice to reduce economic losses due to disability.

in connection with the optimization of cure time and the use of prevention of stagnation in the circulatory system, associated with the tendency of hypodynamia to increase, in the field of labor activity, to reduce the fatigue of various operators whose work during the working day is characterized by certain hypodynamia, and to improve operator’s work; in the field of social, to make a certain contribution to the system of measures to improve the health of workers, increase life expectancy and increase labor activity.

Claims (1)

Invention Formula A method of stimulating blood circulation by applying force on a body, characterized in that, in order to expand the functionality of the method, a force is applied to the body periodically with a frequency equivalent to the respiratory movements in a state of rest, with a distance between the points of application equivalent to the second valves.