RU2223787C1 - Electrode contact composition - Google Patents

Abstract

FIELD: therapeutic cosmetology. SUBSTANCE: invention provides electrode contact media in the form of gel, paste, or creams for performing electrodiagnostics and electrotherapy as well as electromyostimulation, defibrillation, and electrosurgery. Water-based composition contains, wt %: water-soluble ionic polymeric thickener 0.5-2.5, polyatomic alcohol mixture 0.5-9.0, alkali metal chloride 0.1-3.0, and may further contain emulsion wax 0.1-6.0, monoatomic alcohol 0.1-7.0, polyvinylpyrrolidone 0.1-0.7, preservative 0.02-2.0. EFFECT: improved electric conduction in combination with low resistivity (impedance) and minimal polarization effect, avoided dryness and irritation of skin, and achieved easiness of removal from skin and electrodes. 8 cl, 2 tbl, 7 ex

Description

 The invention relates to materials for medicine and medical cosmetics, namely to an electrode contact conductive composition for functional diagnostics and physiotherapy, as well as electrosurgery and electrical stimulation.

 When conducting research using electrical signals, as well as various electrical procedures, electrode contact media in the form of pastes, creams and gels are widely used. The contact medium allows you to transmit an electrical signal from the patient’s body to the sensor, as in the case of electrocardiography, electroencephalography, etc., or to transmit a signal from the sensor to the body during physiotherapy, electromio- and neurostimulation, electrosurgery through various electrodes (metal, silver chloride, carbon etc.). The contact medium must ensure good conductivity of the electrical signal, help reduce skin resistance (impedance), and not cause polarization effects on the surface of the electrode and contact medium, especially in the case of functional diagnostics, in addition, the contact medium must not significantly change its viscosity during electrical procedures and not leak out from under the electrode.

 It should be noted that for functional diagnostics contact media with higher electrical conductivity and lower impedance are required in order to capture the body’s biopotentials, while for therapeutic and cosmetic procedures such as electromyostimulation, good cosmetic properties are important factors, along with good conductivity, and namely, the ability not to cause dryness and irritation of the skin during a long procedure, a pleasant consistency, as well as resistance to sweating.

 Unfortunately, often in patents and applications it was possible to create either only an environment for electrodiagnostics, or only for rehabilitation or cosmetology procedures.

 Gels and pastes based on natural polymers such as cellulose ethers (ed. St. USSR 510246, A 61 N 1/44, 1976; US patent 3048549, NKI 252-518, 1962, are widely used as a contact medium for electrodiagnostics) .), various polysaccharides (US patent 4406827, NKI 252-518, 1983), etc. with the addition of high concentrations of alkali metal salts.

 However, for the consistency of gels and pastes to be optimal for applying and retaining on the skin surface, high concentrations of natural polymers (up to 50%) are required, and high concentrations of salts (up to 20%) are used to ensure high electrical conductivity and low impedance. As a result of this, such gel-like pastes are quite dense, it is difficult to remove from the surface of the skin and electrode, and high concentrations of salts can cause skin irritation.

 Electrically conductive contact media based on synthetic polymers are also known, which contain a large amount of water, do not cause skin irritation, and are easily washed off the patient's body. It is proposed to use polyethylene glycol (ed. St. USSR 546351, A 61 K 49/02, 1977), polyvinyl alcohol (US patent 3265638, NKI 252-518, 1966), polyoxyethylene block copolymer as such synthetic thickening polymers. polyoxybutylene (patent 4473492, NKI 252-518, 1984) and others.

 A combination of natural (guar and xanthan gum) and synthetic (polyacrylamide) polymers is known (US patent 4692273, NKI 252-518, 1987).

 Of particular interest among synthetic thickening polymers is polyacrylic acid, which is a polyelectrolyte, and itself has electrical conductivity. This caused the use of polyacrylic acid as a dry form for biomedical electrodes (US patent 4273135, NCI 128-640, 1981).

 The closest composition to the proposed technical solution is a gel composition for electrical stimulation containing, as the main thickening agent, 1-10 wt.% A water-soluble ionic polymer, mainly Carbopol (a trademark of crosslinked polyacrylic acid manufactured by B. F. Goodrich). The composition also includes an additional thickener - hydroxyethyl cellulose in an amount of 1-3 wt.% And a humectant - polyol in an amount of 10.5 - 25 wt.%. It contains no metal salts. The gel is used for long-term electrical stimulation and monitoring, as it is highly resistant to perspiration due to the introduction of a second cellulose thickener, which prevents the degradation of the gel with salts released from sweat.

 However, the use of said gel containing two thickening agents and not including metal salts is limited. Having a low impedance, it also has low electrical conductivity, which does not allow it to be used for diagnostics.

 In addition, the introduction of a second thickening agent increases the cost of the gel. The technology of its manufacture is becoming more complex and lengthy.

 The use of high concentration (16-18 wt.%) Propylene glycol in the composition, especially with prolonged stimulation and monitoring (up to a day or more), can cause a violation of the skin's water balance, as propylene glycol with prolonged contact leaches water from the skin and dehydrates it.

 The objective of this technical solution is to create an electrode contact composition for electrodiagnostics, as well as lengthy electrical procedures in physiotherapy, rehabilitation and cosmetology, which has high electrical conductivity combined with low resistance (impedance), minimal polarization effect, and also retaining its good cosmetic properties (no irritation and dry skin, ease of removal from the surface of the skin and electrodes, pleasant texture).

This is achieved by the fact that a mixture of polyhydric alcohols is introduced as a polyol humidifier into a composition containing a water-soluble ionic polymer thickener, and alkali metal chloride is added in the following ratio, wt.%:
Water-soluble ionic polymer thickener - 0.5 - 2.5
A mixture of polyols - 0.5 - 9.0
Alkali metal chloride - 0.1 - 3.0
Water - Up to 100
In the inventive electrode contact composition, a rare cross-linked polyacrylic acid is used as a water-soluble ionic polymer thickener, for example, Carbopol (BF Goodrich, USA), Sakap (Russia), Mars (Russia), Arespol (Russia) and others or sodium carboxymethyl cellulose.

 Depending on the thickener used, as well as the ratio of the components, the electrode contact medium can be obtained in the form of a gel, paste or cream.

 A mixture of polyhydric alcohols is introduced into the electrode composition: propylene glycol, polyethylene glycol (molecular weight 400-1500), glycerol and sorbitol.

 As the alkali metal chloride, sodium, potassium or lithium chloride can be used.

 The use of a mixture of polyhydric alcohols - up to 10 wt.% And low concentration - up to 3 wt.% Alkali metal chloride in combination with the proposed thickeners allows to obtain an electrode contact composition with high electrical conductivity, low resistance (impedance), good cosmetic properties and minimal polarization effect. However, this composition does not cause dryness and irritation of the skin with prolonged use.

It is advisable to introduce the following additives into the proposed electrode composition for obtaining specific properties and for regulating the relations between the main properties:
1. For better thickening in the proposed composition, you can add emulsion wax in an amount of 0.1-6.0 wt.%.

 2. To improve the cosmetic properties of the medium, to give a better consistency, primary alcohols can be introduced: cetyl, stearic or cetyl stearyl in the amount of 0.1-7.0 wt.%.

 3. To eliminate irritating factors, especially for hypersensitive skin, polyvinylpyrrolidone in an amount of 0.1-0.7 wt. %

 Preservatives, such as esters of p-hydroxybenzoic acid and / or 2-bromo-2-nitro-propanediol-1,3 and others in an amount of 0.02-2.0 wt. %, which allow to increase the shelf life of the electrode contact medium up to 5 years.

 The combination of all the features leads to the creation of an electrode composition with improved electrical conductivity, lower resistance, minimal polarization effect and good cosmetic properties, which can be successfully used both for electrodiagnostics and electrosurgery, and for long-term electromyostimulation in cosmetology and rehabilitation. In addition, this electrode contact medium does not cause dryness and irritation of the skin, does not cause allergies, is easily removed, has a pleasant consistency, does not leave stains on clothes, does not spoil sensors, and does not dry for a long time.

 The advantage of the composition is the possibility of introducing various medicinal substances, herbs, and other components into it for electrophonophoresis, microcurrent therapy, and other physiotherapeutic and cosmetic procedures.

 Example 1

 12 g of crosslinked polyacrylic acid (Carbopol) are dispersed in 500 ml of distilled water. A mixture of 10 g of propylene glycol, 2 g of preservative and 100 g of water is poured into a dispersed polymer solution, 100 g of polyethylene glycol per mol. mass of 400 (PEG-400). Everything is stirred at room temperature, neutralized with a solution of potassium hydroxide (KOH) to a pH of about 7.0, and water is added with 6 g of potassium chloride (KCl) introduced into it, up to 100 wt.%. Get a clear gel.

 Example 2

 25 g of the sodium salt of carboxymethyl cellulose (NaCMC) are dissolved with stirring in 600 g of distilled water, then 10 g of propylene glycol, 60 g of glycerol and 20 g of PEG-1000 are added. Next, a solution is introduced into the solution, consisting of 30 g of KCl, 1.5 g of preservative and 250 g of water, adjusted with water to 100 wt. % The solution was stirred at room temperature until a clear, viscous gel was obtained.

 Example 3

 60 g of cetyl stearyl alcohol, 70 g of emulsion wax and 15 g of PEG-1500 are placed in a container and the resulting mixture is heated until melting. To the resulting mass, 5 g of NaKMC, previously swollen in 100 g of water, a solution of 1.5 g of preservative in 10 g of propylene glycol and 100 g of water, and then a solution of 15 g of sodium chloride (NaCl) in 200 g of water are added successively with rapid stirring, add water to 100 wt.% and mix. The resulting cream paste is cooled and packaged in a container.

 Example 4

 Analogously to example 3, instead of NaKMC, a rare-crosslinked Arespol polyacrylic acid in the amount of 5 g is used as a thickener, which is preliminarily neutralized with a KOH solution, and instead of sodium chloride, 1 g of lithium chloride (LiCl) is used. Get the cream.

 Example 5

 Analogously to example 1, 8 g of Mars rare cross-linked polyacrylic acid, 10 g of propylene glycol, 100 g of water, 50 g of PEG-400 polyethylene glycol and 3 g of sodium chloride are loaded into the reactor. After stirring and neutralizing, 7 g of polyvinylpyrrolidone are further added. Get the gel.

 Example 6

 Analogously to example 2, 15 g of NaCMC, 10 g of propylene glycol, 50 g of glycerol and 15 g of sorbitol, 30 g of KCl, 1 g of preservative, 1 g of polyvinylpyrrolidone and water are loaded into the reactor to 100 wt.%. All mixed until a clear gel was obtained.

 Example 7 (for comparison, according to US patent 3989050).

 The gel composition is prepared as follows: 10 g of Carbopol 934 (B.F. Goodrich) are dispersed in 200 g of water, simultaneously with 1.6 g of hydroxyethyl cellulose (Aqualon QP 100 M). The mixture was neutralized with 0.5 g of potassium hydroxide, and then 180 g of propylene glycol was added, the mixture was adjusted with water to 100 wt.%, Stirred. A viscous gel is obtained.

 Compositions of all examples, differing in composition, combination and ratio of components, are given in table. 1.

 Going beyond the specified mass ratios leads to deterioration of the properties of the electrode medium.

 The properties of the obtained electrode contact materials are presented in table. 2.

Methods for assessing the physicochemical and cosmetic properties of the resulting composition
1. Dynamic viscosity was determined using a rotational viscometer at a shear rate (16 ± 4) s ^-1 at 25 ^o C.

 2. The pH of the finished contact medium was determined using a laboratory pH meter.

 3. The electrical conductivity of the contact medium was determined using a laboratory conductivity meter.

 4. Registration of the impedance of the cells (at a frequency of 75 Hz) filled with contact material and the polarization voltage of the electrodes was carried out according to the methods of GOST 25995-83 "Electrodes for the removal of bioelectric potentials. General technical requirements and test methods". Silver chloride electrodes from a cardiograph kit were used as electrodes.

 5. Resistance to perspiration was monitored by the example of the electromyostimulation procedure using the EMC-4 Galatea electromyostimulator (Russia) on volunteers for 2 hours, as well as when conducting electrocardiography in Holter monitoring mode for 24 hours. The absence of leakage of the gel (cream) from under the electrode was considered a positive result.

 6. Cosmetic properties (dryness and skin irritation) were evaluated visually after electrocardiography (Holter monitoring) for 24 hours. The absence of irritation and dryness of the skin was considered a positive result.

 Electrode contact media according to the described technical solution have high electrical conductivity, low impedance and low polarization voltage. In addition, all of them do not cause changes in physicochemical properties during prolonged use, do not leak from the electrodes and do not cause dryness and irritation of the skin.

 As the table shows. 2, in contrast to the inventive electrode contact media, the gel composition of US Pat. No. 3,989,050 has lower electrical conductivity, and higher impedance and polarization voltage, which makes it difficult to use it for functional diagnostics. In addition, although this medium remains resistant to perspiration, it causes dry skin after prolonged monitoring.

 The proposed composition can be used for the production of electrode contact media in the form of a gel, paste and cream for conducting electrodiagnosis and electrotherapy, including: electrocardiography, electroencephalography, electromyography, rheoencephalography, microcurrent therapy, electrophoresis, electrical stimulation, as well as defibrillation, electrosurgery and other electrically conductive procedures in medicine and cosmetology.

Claims (8)

1. The electrode contact composition based on a water-soluble ionic polymer thickener and a polyol as one moisturizer, characterized in that it contains a mixture of polyhydric alcohols as a moisturizer and alkali metal chloride is introduced in the following ratio, wt.%: Water soluble ionic polymer thickener 0.5-2.5 Mixture of polyhydric alcohols 0.5-9.0 Alkali metal chloride 0.1-3.0 Water Up to 100 2. The electrode contact composition according to claim 1, characterized in that, as a water-soluble ionic polymer thickener, it contains a rare crosslinked polyacrylic acid or sodium salt of carboxymethyl cellulose. 3. The electrode contact composition according to claim 1, characterized in that as polyhydric alcohols it contains propylene glycol and / or glycerin and / or polyethylene glycol and / or sorbitol. 4. The electrode contact composition according to claim 1, characterized in that as the alkali metal chloride contains sodium, potassium or lithium chloride. 5. The electrode contact composition according to claims 1 to 4, characterized in that it further comprises emulsion wax in an amount of 0.1-6.0 wt.%. 6. The electrode contact composition according to claims 1 to 4, characterized in that it further comprises a monohydric alcohol: cetyl, stearyl or cetyl stearyl in an amount of 0.1-7.0 wt.%. 7. The electrode contact composition according to claims 1 to 4, characterized in that it further comprises polyvinylpyrrolidone in an amount of 0.1-0.7 wt.%. 8. The electrode contact composition according to claims 1 to 4, characterized in that it further comprises a preservative in an amount of 0.02-2.0 wt.%.

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