RU2519406C1 - Heat massager and heat massaging method - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: device has a self-contained module with a working body made of gadolinium, a superconducting magnet, shimming coils and feedback detectors. The heat massaging method employs a magnetocaloric effect.

EFFECT: wider range of massaging devices with thermal-contrast action and achieving isotropy of thermal action on the entire contact surface.

2 cl, 1 dwg

Description

The invention relates to medical equipment and can be used in physiotherapy, including used in urology, gynecology, proctology, otolaryngology, etc.

Known massager controlled contrast exposure (patent No. 73787 from 06/10/2008), containing working elements made with the possibility of thermal effects and cryotherapy, while the working elements are made in the form of Peltier elements, the massager contains a power source, a controlled switch and a regulator of the current value, controller, skin impedance sensor and temperature sensor of the working surface of Peltier elements.

Also known is a semiconductor thermoelectric massage device (patent No. 2361570 dated 07.20.2009) containing thin switching bimetallic plates and a direct current source connected to the control unit. The direct current source is connected to a thermoelectric module, consisting of p- and n-type semiconductor branches, sequentially soldered butt by patch plates, with the output of hot and cold Peltier junctions on both sides of each plate.

The disadvantage of the above analogues is the complexity of the procedure.

The objective of the invention is the expansion of the arsenal of means for massage thermal contrast action.

The technical result in achieving isotropy of thermal effects over the entire contact surface.

The essence of the invention is that

1. The device for thermal massage, including the working fluid in the module, is characterized in that the device includes an autonomous module with a working fluid, while the working fluid is made of gadolinium and enclosed in a sealed module of thin hygienic latex and the associated system of a superconducting magnet shimming feedback coils and detectors that form a controlled magnetic field.

2. The method of thermal massage using the device according to claim 1, characterized in that they use the magnetocaloric effect, which is created by changing the temperature of the working fluid with an alternating external magnetic field with a peak magnetic induction of 3-8 Tesla.

A schematic diagram of the device is shown in Figure 1. A system that includes a superconducting electromagnet with a peak magnetic field of up to 4 T or more, shimming coils that create gradients that compensate for the technical heterogeneity of the magnet and the effect on the patient’s field, computer control and a set of accessories for comfortable placement of the patient in the working room the volume of the electromagnet is identical to that used in NMR imaging and is although expensive but affordable equipment. The patent can be recommended to manufacturers of modern NMR tomographs with a high field (of the order of 3 T) or superstrong (more than 3 T) main electromagnet to provide the tomograph with an additional option, which may result in increased competitiveness.

Gadolinium, which has the maximum magnetocaloric effect among metals at room temperature, can act as a working fluid of an autonomous module. However, to increase the amplitude of thermal vibrations and the temperature range of the midpoint (the magnetocaloric effect has a temperature dependence with a pronounced peak), as well as reduce the cost of the system, it is of scientific interest to search for new materials with strong electronic correlation, among which manganites of the type Re _1-x A _y MnO ₃ (where Re is a rare-earth ion, A is a doping ion).

The model of the device with a gadolinium working fluid can be easily manufactured and tested in conjunction with NMR tomography systems with the already implemented supply of a controlled strong magnetic field.

The patient is located in the working volume of the electromagnet with an autonomous module, placed and fixed to perform the necessary procedure. Oscillations of the magnetic field create the necessary temperature fluctuations in the working body of the thermal massager. Before placing an autonomous module on the body or inside the natural cavity of the patient's body, it is necessary to bring the module to the desired starting temperature, for which medical thermostats can be additionally used.

A scheme with a sliding bunk with a patient, alternately entering and leaving the area of a strong magnetic field, which is easier and more economical to keep constant, is also possible.

The main advantage of using the magnetocaloric effect in this case is, first of all, the smallness of the relaxation time between the stages of heating and cooling of the working fluid. To an acceptable approximation, the temperature of the working fluid varies in a controlled fashion throughout the entire volume with a variable external magnetic field, both during heating and cooling. Thus, the isotropy of the thermal effect over the entire contact surface is naturally achieved, which is important for the effectiveness of the medical procedure.

Other advantages of the method in comparison with the well-known "Massager of thermocontrast controlled exposure" (patent RU 73787 U1, application 2008104845/22 dated 02/13/2008) and "Semiconductor thermoelectric massage device" (patent RU 2361570 C2, application 2007126170/14 dated 09.07. 2007), with cooling elements based on the Peltier effect, we can attribute the simplicity of the contact module, including its complete autonomy and isolation from power sources, and the associated complete safety for the patient.

An example of a specific implementation of the method

In medical practice, thermal contrast massage is performed to stimulate various organs, as noted in the cited patents, that is, primarily for auricular, rectal and vaginal thermomassages. Depending on the specific procedure, modules of various sizes and shapes should be used. These methods of use include, but are not limited to, possible uses of the invention.

Oscillations of the magnetic field with the peak values available in modern NMR tomographs, when used in a stand-alone massage module of a gadolinium working fluid, should provide temperature fluctuations with an amplitude of the order of 10 ° C, which is sufficient for the implementation of these physiotherapeutic procedures.

Claims (2)

1. The device for thermal massage, comprising a working fluid in the module, characterized in that the device includes an autonomous module with a working fluid, while the working fluid is made of gadolinium and enclosed in a sealed module of thin hygienic latex, and the associated system of a superconducting magnet, shim coils and feedback detectors that form a controlled magnetic field. 2. The method of thermal massage using the device according to claim 1, characterized in that they use the magnetocaloric effect, which is created by changing the temperature of the working fluid with an alternating external magnetic field with a peak magnetic induction of 3-8 Tesla.