AT9896U1 - ELECTROMEDICAL DEVICE FOR PRODUCING ELECTROMAGNETIC CHANGE FIELDS - Google Patents

Description

2 AT 009 896 U1

The invention relates to an electromedical device for generating electromagnetic alternating fields with a controllable via a control device oscillator and with a program memory connected to the control device for control programs for driving the oscillator.

In order to achieve certain therapeutic effects, it is known (AT 409 823 B) to expose the human body in a series of treatments to the influence of alternating electromagnetic fields, the field strength and frequency of vibration depending on the respective treatment sequence are given, for example, the field strength during a Initially increase the treatment sequence from treatment to treatment and then reduce it again towards the end of the course of treatment. In order to be able to ensure simple handling without special prior knowledge, despite the necessary adaptation of these parameters dependent on the treatment sequence, a control device connected to a counter for the number of treatments in a treatment sequence is provided, which is provided with a program memory for control programs for presetting the frequency F-eldstärke and / or the duration in dependence on the count of the counter is in communication, so that the parameters required for each treatment in a treatment sequence with respect to the frequency, the field strength and / or the duration are set in advance by the control programs. The therapeutic effect of these devices, however, depends on the tuning of the control program for the oscillator to the particular needs of the person to be treated. Although it has already been proposed to control the field parameters of the electromagnetic alternating field as a function of the skin moisture and the pulse rate of the treated, but there is a risk depending on body parameters dependent on body parameters controlling the alternating electromagnetic fields that due to an unconscious reaction behavior of the human monitored body parameters can not be evaluated as a measure of optimization of the desired therapeutic effect of electromagnetic alternating fields.

The invention is therefore based on the object, an electromedical device for generating alternating electromagnetic fields of the type described in such a way that the control programs for controlling the oscillator can be advantageously selected depending on body parameters that allow optimization of the therapeutic effect of treatment with electromagnetic alternating fields ,

The invention solves this problem by the fact that the control device is connected to a measuring and evaluation device for the heart rate variability and the oscillator via a from the program memory in response to the proportionate spectral power of at least one determined from the measured heart variability by the measuring and evaluation frequency range the control program read.

The invention is based on the finding that the quantities of the alternating electromagnetic field to be used for a good therapeutic effect depend in a significant way on the heart rate variability (HRV) of the person to be treated and are therefore advantageously adjusted by means of certain characteristics of heart rate variability (HRV) can be. For this reason, prior to treatment, heart rate variability (HRV) is determined in a manner known per se with the aid of a measuring and evaluation device under standardized conditions, preferably in the form of a spectral analysis in which all data of a test series are assigned to specific frequency ranges. The result is a temporal function of the spectral density, wherein the spectral total power is represented as a function of the frequency. The total spectral power is divided essentially into three frequency ranges, namely a high frequency range (HF) with a frequency greater than 0.15 Hz, a low frequency range (LF) with a frequency between 0.04 and 0.15 Hz and a very low frequency range (VLF) with a frequency below 0.04 Hz. The proportional spectral powers of these frequency ranges can be determined over the area below the corresponding spectral density function, so that

Claims (2)

On the basis of the proportional spectral power of at least one of these frequency ranges derived from the measured cardiac variability (HRV) those of the control programs stored in a program memory can be selected which ensure an advantageously coordinated alternating electromagnetic field for the respective treatment. It therefore only needs to be read from the program memory in the control device for controlling the oscillator based on the evaluation results of the measuring and evaluation device for -the Herzfrequenzvariab.ilität (HRV) determinable by these evaluation control program to a corresponding with the help of the oscillator adapted electromagnetic alternating field for treatment to be able to provide. Since the proportionate spectral power of the very-low frequency range (VLF) has proven to be particularly meaningful with regard to the therapeutic effect of certain electromagnetic alternating fields, the control device can control the control program for the oscillator as a function of the proportionate spectral power of the very-low frequency range (FIG. VLF) read from the program memory. A comparatively high proportion of the spectral power of the very-low frequency range (VLF) causes a lower amplitude of the electromagnetic alternating field, while higher amplitudes of the electromagnetic alternating field at lower spectral powers in the very low frequency range (VLF) lead to comparably good therapeutic effects. In the drawing, the subject invention-for example, is shown, and that an inventive electromedical device for generating alternating electromagnetic fields is shown in a simplified block diagram. The illustrated electromedical device for generating alternating electromagnetic fields has an oscillator 1 for exciting an electromagnetic alternating field via connected to the oscillator 1 electrical coils, which are not shown for reasons of clarity. This oscillator 1 is controlled by a control device 2, with the help of which the frequency and the field strength of the electromagnetic field and the run time per treatment is controlled. The parameters provided for the individual treatments, for example in a treatment sequence, with regard to the frequency, the field strength and the transit time are predefined via control programs, which are read out from a program memory 3 by the control device 2. The selection of each applicable control program is carried out in dependence on the evaluation of a measuring and Auswer-teeinrichtung 4 for the heart rate variability (HRV) of the person to be treated. This measuring and evaluation device 4 comprises in a conventional manner a measuring stage 5 for the continuous measurement of the instantaneous heart rate over a predetermined period of time under standardized conditions and a preferably connected to the measuring stage 5 via a wireless connection 6 evaluation 7. In this evaluation stage 7 is from the measured values determines the variance of the heart rate, preferably in the very low frequency range (VLF) below 0.04 Hz, in order to select the control program that determines the parameters for a magnetic field on the basis of the proportional spectral power of this frequency range of heart rate variability (HRV) of the person to be treated Alternating field with a predicted for the human to be treated, advantageous therapeutic effect pretends. The control program associated with the evaluation data of the evaluation stage 7 is read out of the program memory 3 via the control device 2 and used to control the oscillator 1 for the excitation of a corresponding electromagnetic alternating field. Claims: 1. Electromedical device for generating electromagnetic alternating fields with a controllable by a control device oscillator and with a programmer connected to the program memory for control programs for driving the oscillator, -dadurch in that the control device (2) to a measuring and evaluation device (4 ) for the heart rate variability and the oscillator (1) 4 AT 009 896 U1 via a control program read from the program memory (3) as a function of the proportionate spectral power of at least one frequency range determined by the measured cardiac variability by the measuring and evaluation device (4) controls. 2. Electromedical device according to claim 1, characterized in that the Steuerein direction (2) the control program for the oscillator (1) in response to the proportionate spectral power of the very low frequency range from the program memory ^ 3) reads out. 10 For 1 sheet of drawings 15 20 25 30 35 40 45 50 55