HU196561B - Iontophoresing device - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to an iontophorizing device with positive and negative voltage sources connected to two inputs of two level switching two-position switches connected to the level input and amplitude limiting circuit to which a first bipolar triangle signal generator is connected via one of the switches. The level-shifting and amplitude-limiting circuit is also connected to the output of an RAMP generator with an intensity regulator at its further input, while the output is an alternating current generator with a positive or active negative, periodically alternating polarization, polarity shift zero-crossing, and output current output with zero-span and burst section. is connected to its first input, the first output of which is connected to the RAMp generator via an equilibrium state signaling unit, via a third output monitoring resistor, to the input to the patient and a current monitoring circuit. It is an object of the present invention that the voltage conductor current generator (4) is provided with second and third inputs, which are frequencies of 0.5 to 1200 Hz, 0.2 to 5 mA current amplitude, and the first bipolar triangle signal generator (1) through frequency and amplitude deflection elements. ) is connected to the first and second outputs of the second bipolar triangle signal generator (22) generating a signal as a carrier wave modulating signal. -1-

Description

Iontophoresis is a long-known method in medicine that delivers various active ingredients to the skin layers and allows an electric current to be generated in the body between the two poles, and these ions introduce the molecules of the active ingredients into the skin.

The amount of active ingredient that can be absorbed through the skin is the depth of penetration, the physico-chemical properties of the active ingredients, and the physiological effect of the applied electric current is a measure of the effectiveness of the treatment.

It is known that during iontophoresis, tissue cells become polarized, which results in a decrease in the amount of active ingredient that can be delivered per unit time, which can only be offset by an increase in the treatment time.

It is also known that the galvanic current applied to the treatment releases oxygen or hydrogen to the body-contacting surface of the electrodes, resulting in coagulation or collication. Because the tissue material of the ionic passage body is heterogeneous in terms of electrical resistance, i.e., a contact resistance with variable resistance, the polar effect is also produced legally on these transition surfaces, which can cause cell damage.

Electrophoretic treatment with galvanic current does not allow simultaneous treatment of the treated body part with stimulation currents, so in most cases the duration of therapy is prolonged as treatment with the stimulus current has to be performed in an additional way.

By electrophoretic iontophoresis, the introduction of ions and / or ions adsorbed molecules into the human body by virtue of the constancy of the treatment current parameters can be considered a static process in the sense that the electric pressure acting on the ions and / or molecules is constant. In addition to the above-mentioned efficacy-reducing phenomena, it is also to be noted that, owing to the static nature of the treatment current, the initiation and movement of ions and / or molecules requires relatively high energy, but limited by physiological and individual patient tolerance. EJ.CLAR, CP.HER.CG STURELLE reports on the low-frequency dielectric dispersion of human skin at a seminar organized by UNILEVER Research Laboratory under Unit 37 of INSER, December 7-8, 1972. In the special print of Lyon.

When determining the impedance of the skin in vivo, it sets up three dispersion zones.

Zone I: 10-1000 Hz, II. Zone: 10-100 KHz, III. Zone: 21 GHz, the latter is the bipolar relaxation of free water.

NIGHT. CLAR and VILLARD.X.D. Labor Pharma Probl. Tech ». Feb 1975 No. 240 pp. 154-159. In his article on Cosmetic Application of Skin Impedance Measurements, he provides information on biological tissues, cell suspensions, macromolecular solutions, and, for the skin, the effects of direct current and low frequency AC by electrical and dielectric measurements.

DE 3300947.3 discloses a process and apparatus for performing an iontophoretic process for hair growth and regeneration. The equipment described here includes:

- an oscillator for generating a rectangular wave of 0.5 to 2 Hz having zero and positive voltages,

- another oscillator for generating a biphasic action potential wave, having a pulse time of approx. It ranges from 1 / 200-1 / 600 s and has a period of approx. 1/201/300s,

- an electrode driven by oscillators,

- another electrode, which is kept at the base voltage,

- a circuit for transporting the low frequency rectangular wave with action potential,

and a switch for connecting each oscillator to the battery.

The essence of the process is that iontophoresis of aminovinyl compounds is performed using a low frequency rectangular wave. The prior art processes and equipment used during iontophoresis cannot, in practice, ensure that the amount of active ingredient administered during treatment is approximately constant over a period of time, electrical stimulation therapy can be performed during iontophoresis, and that high molecular weight drug agents are I can get in.

SUMMARY OF THE INVENTION The object of the present invention was to provide a safe and economical iontophoresis device which allows the delivery of various general medical, physiotherapeutic and dental materials by iontophoresis.

The present invention is based on the discovery that if the treatment current is not simply supplied to the body as an active positive (+) or active negative (-) with periodic polarity and depolarizing phase, but is used and modulated as a carrier wave, and increase the transport depth.

The apparatus of the present invention thus provides the ions and / or molecules with an optionally active positive (-) or active negative (-) periodically alternating depolarizing phase and, with polarity reversal, a current having zero transient breaks, anthropogenic and anthropogenic phase. which is modulated as a carrier wave having an amplitude of up to 20mA and a period of time of up to 72 s with a frequency of 0.5-1200 Hz and a current of 0.2-5 mA.

The present invention thus relates to an iontophorization apparatus with positive and negative voltage sources connected to an input of a level shift and amplitude limiter via a serially connected two-position switch to which a first bipolar triangular signal generator is connected via one switch and a level shift and amplitude limiter it is connected to a first input of a voltage-controlled current generator via a first input of a voltage-controlled current generator, which is connected to a first input of an additional input, while its output is selectively connected to a first input of a voltage-controlled current generator via an output of generator, the third output of the monitor opposes through the connection to the patient.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a voltage-controlled current generator for second and third inputs for physiotherapeutic treatment, having a first bipolar triangular signal generator having a frequency of 0.51200 Hz and a current amplitude of 0.2-5 mA through frequency and amplitude adjusters. are connected to the first and second outputs of a second bipolar triangular signal generator generating a modulating signal as a carrier wave.

For general iontophoresis, an embodiment is provided wherein the fourth input of the RAMP generator and the fourth intensity controller is connected to a timer unit including a zero position control current connected to the intensity controller, the output of which is connected to an electric clock with a first output digital controller. is connected via a unit to the RAMP generator, a second output is connected to the treatment time signal preferably LED, a third output is connected to a signaling end of the treatment end where a speaker is preferably connected to the output of the sounding circuit, and a voltage controlled current generator There is also a boundary network for connecting current terminals and a switch connected in series with it.

For use as a dental treatment device, an embodiment is provided wherein a dental treatment unit is connected in series between the monitoring resistor and the connection to the patient for dental treatment, the first input of its control unit being connected to the monitoring resistor and the output of the third RAMP generator. connected to its input, a second input is connected to an input of a needle electrode treatment circuit known per se, a dental vitality testing circuit and a dental canal resistance measuring circuit and a dental canal resistance measuring circuit, and their output is connected to a connector to the patient.

The iontophorization apparatus of the present invention will now be described in more detail by means of an exemplary embodiment in the accompanying drawings.

FIG. 1 is a block diagram of an embodiment of a carrier wave having a periodically alternating and depolarizing phase, a pulse signal modulated operating current, and a carrier wave having a maximum burst time. FIG. 2 is a block diagram of an embodiment of the apparatus of the present invention.

The essence of the recognition of the invention is illustrated in Figure 1, which shows Carrier 1, Figure II. an example of a treatment current as well as an example of a III. carrier wave time function.

II. as a function of the operating current time, the individual T times are as follows:

TI active phase start time

T2 is the tripping time of the active phase

T3 depolarization period time to enter

T4 depolarization period rupture time

T5 break time

Lake active time

T7 depolarizing time

T8 full period time

A - amplitude of modulating current f - frequency of modulating current

The operating current can be up to 20 mA, with a maximum total period time of T8 of 72 s, with a T5 pause of up to 30 s when changing polarity.

The main frequency of the modulating current is preferably in the range of 0.5-1200 Hz, and its amplitude is in the range of 0.2-5 mA.

Figure 2 is a block diagram of an apparatus illustrating the process of the present invention.

Figure 2 shows a two-position OFF switch connected to a positive voltage generator G1 or a negative voltage generator G2 for conventional galvanic current management.

The switch KI is connected via an additional two-position switch K2 or to a first bipolar triangle generator 1 and a level shift and amplitude limiting circuit 2. When switch K2 is connected in series with switch K1, conventional galvanic treatment can be performed, i.e. positive or negative current, if switch K2 switches the first bipolar triangle generator 1 to the level shift and amplitude limiter circuits, so that an alternating pole operation can be set.

The level shift and amplitude limiting circuit control input 2 is connected via a RAMP generator 3 to a digital control unit 16 on the one hand and to an amplitude adjusting element 23, for example, to an intensity regulator 23 on the other hand.

The RAMP generator 3 is further provided with an additional fifth input, which is coupled to an equilibrium status unit 20. The intensity controller 23 is connected to a zero hour control current 24 control current control unit 24 and a switch 25 with a first output to a digital control unit 16, a second output to a treatment status LED 19, and a third output to an audible circuit 18 to speakers 18. is connected.

The equilibrium status unit 20 is also coupled to a suitably LED equilibrium status display 21. The output of the level shifting and amplitude limiting circuit 2 is connected to a first input of a current and voltage limiting voltage-controlled current generator 4, which is connected to one output of a second amplifier element 22 of a second bipolar triangular signal generator and adjust its frequency. The fourth input of the voltage-driven current generator 4 is connected via a switch K3 to a current limiting resistor 5, which is connected to a boundary network 29 on the one hand and the second output of the voltage-controlled current generator 4, on the other.

The third output of the voltage-controlled current generator 4 is connected via a monitoring resistor 6 to the connector 7 leading to the patient and the two terminals of the monitoring resistor 6 are connected to two inputs of the current monitoring circuit 8. The first output of the current monitoring circuit 8 is fed back to the fifth input of the voltage controlled current generator 4, the second output is connected to the polarity indicator 9 and the third output to the rectifier 10, which is connected to the control display unit 11, e.g. and / or 13 LCD displays and / or 14 monitors. The input of the LCD display 13 and the monitor 14 is connected via the interface circuit 12 to the current monitoring circuit 8 and to the rectifier 10 and to the second bipolar hRG signal generator 22.

As an example! In the embodiment, it is also shown that a dental treatment unit 35 can be connected to the current monitoring resistor 6. The dental treatment unit 35 is connected to a needle electrode via a needle electrode management circuit 30 known per se. The needle electrode management circuit 30 is further coupled to the tooth vitality test circuit 31, also known per se, and the tooth channel resistance measurement circuit 32. Each of these is connected to a control unit 34 directly connected to the current monitoring resistor 6.

The zero current control unit 24, the bottom digital control unit, the electronic clock 15, the acoustic circuit 17, the loudspeaker 18 and the LED display unit 19 are configured as a timing unit 28, optionally in a separate smaller box. Similarly, switch K3 and current limiting resistors 5 may form a boundary network 29 as a separate unit.

For physiotherapeutic treatment, the timing unit 28, the boundary network 29 and the dental treatment unit 35 may be omitted. The device can be operated from a network or from a battery.

Operation of the device is as follows:

With the K2 switch, the unit can be set for conventional galvanic operation or alternating pole operation.

The OFF switch adjusts the polarity of the active electrode or the polarity of the active section in reversed polarity mode.

In reversed-pole operation, as in Fig. 1, according to the time function, in FIG. The control current varies according to the curve, the pulses generated by the first bipolar triangle generator 1 are transmitted to the level shift and amplitude limiting circuit 2, controlled by the RAMP generator 3.

The level shifting and amplitude limiting circuits 2 drive the voltage controlled current generator 4. The maximum operating current is preset with K3 switch and 5 current limiting resistors. The control resistor 6 is used for back-regulation.

The treatment time can be set via the built-in electronic clock 15, and the end of the treatment time is indicated by the speaker 18 or other sounding element which can also be displayed on the LED 19. The equilibrium indicator unit 20 is incorporated in the case where, for some reason, the current on the patient circuit cannot be measured due to an open circuit or a faulty contact. The output signal of the voltage controlled current generator 4 is then displayed on the equilibrium status display 21.

The output signal of the voltage-controlled current generator 4 is superimposed on the output signal of the second bipolar triangular signal generator 22 having a frequency adjustable between 0.5 and 1200 Hz and a current between 0.2 and 5 mA. These values can be checked through the control current display unit 11 or the LCD display unit 13 or the monitor 14. The A-23 intensity adjuster adjusts the value of the operator current, i.e. the amplitude of the carrier wave, as shown in curve I in FIG.

The device of the present invention can therefore be used for iontophoresis, balneotherapy and dental treatment, as well as simple electroplating.

Most preferred is an embodiment wherein the timing unit 28 is enclosed within the boundary network 29 and the dental treatment unit 35 and the other units are provided as base units to which each of the additional units can be plugged in.

The following surface electrodes are recommended for iontophoresis:

5 mA maximum current handling terminal transmitter least 50 cm ² up to 10 mA control current terminal transmitter least 100 ^cm2 up to 20 mA control current transmitter connector 200 Minimum cm ^2nd

Thus, the base unit comprises the following units:

Voltage generators G1 and G2, OFF switch, 2 level shift and amplitude limiting circuits, first bipolar triangle generator 1, switch K2, 3 RAMP generator, second bipolar triangle generator 22 with variable amplitude and frequency, voltage control current 6, current monitoring circuit, 20 equilibrium indicator, 21 equilibrium indicator, 9 polarity indicator, 10 rectifier.

As a portable medical iontophorizer for general use, the base unit is supplemented with a timing unit 28 and a boundary network 29 with a switch K3.

In this case, the apparatus can be used for conventional galvanic treatment, for polarized treatment, and for adjusting both the amplitude and frequency of the carrier wave as well as the dip and drop times, and the frequency and amplitude of the modulating signal. The equilibrium status indicator 21 will also alert you if there is any fault in the circuit that prevents full operation. Such errors may include improper contact with the patient, open circuit, etc.

The duration of the treatment can also be set in the device, which is counted by the electronic clock 15, and the end of the treatment is indicated by the LED display 19 and possibly by the loudspeaker 18. -The unit is started with 25 switches.

In the case of dental treatment, the timing unit 28 and the boundary network 29 are not required to perform the treatment.

For physiotherapeutic treatment, it is expediently operated from a battery source with a maximum voltage of 27 V. The current of the treatment current is not variable, preferably a current of 0.5 mA current of 100 Hz is superimposed on the treatment current of the alternating pole depolarizing phase. Neither the timing unit 28, the boundary network 29, nor the operating current signaling unit 11 is required to perform the treatment.

The devices of the present invention are advantageously applicable in the field of a portable stationary embodiment for general medical practice, as well as in dental and physiotherapeutic treatments.

The transport depths are greater than any device used to date and the effect of the treatments is-41

The stamina of 196,561 is also better.

Claims (3)

Claims An iontophorization device with positive and negative voltage braids (G1, G2) connected to an '0' input of two serially coupled two-position switches (K1, K2) and a first bipolar through one of the switches (K2). triangular signal generator (1) has been inserted and it is also the level shift and amplitude limiter circuit RAMP generator (3) the output of a (2) intensity controller (23) CAP csolva a further input connected while the other terminal választ- ⁰ are active positive or active negative , a voltage-controlled current generator (4) having an output signal having a periodically alternating polarization depolarizing phase, a zero-change interruption, a polarity reversal, and an in-and-out phase, connected to a first in-line 2 of its first output via a steady-state indicator unit the third output is led through a resistor (6) via a resistor (6) to the connector (7) leading to the patient and to an input of a current monitoring circuit (8), characterized in that the voltage-controlled current generator (4) is also provided with inputs which, through frequency and amplitude adjusters, have a frequency of 0.5-1200 Hz and a current amplitude of 0.2-5 mA for the first bipolar triangular signal gene. is connected to the first and second outputs of a second bipolar triangle generator (22) for generating a signal (1) as a carrier wave, modulating signal, (Priority; 8.8.1986) The iontophorization device according to claim 1, characterized in that, for general iontophoresis, the RAMP generator (3) is even provided with a fourth input, which is connected to the intensity regulator (23) to a timing unit (28). a zero current control unit (24) coupled to an intensity regulator (23), the output of which is connected via a start switch (25) to the start input of an electronic clock (15), the first output of which is connected to the RAMP generator (3) the second output of the treatment time is preferably connected to an LED display (19), the third output is connected to the end of the treatment signaling circuit (17), whereby the audio signal is preferably connected to a speaker (18) and the voltage controlled current generator (4) and connector (7) to the patient A boundary network (29) adapted for adjusting the current limits and a switch (K3) connected in series thereto are provided. (Priority: 8/8/1986) The iontophorization device according to claim 1, characterized in that, for dental treatment, a further dental treatment unit is connected in series between the monitoring resistor (6) and the connector (7) leading to the patient, which is provided with a control unit having a first input connected to a monitoring resistor (6) and an output connected to a third input of the RAMP generator (3), a second input to a known needle electrode treatment circuit (3), a dental vitality testing circuit (31), and a dental canal resistance measuring circuit (32). ) and their output forms the output of the dental unit (35) and is connected to the connector (7) leading to the patient. (Priority: X 26, 1987)