RU2252235C1 - Silicone composition - Google Patents

Abstract

FIELD: organic chemistry, medicine tools.

SUBSTANCE: claimed composition contains siloxane and solvent (toluene and isopropanol). Said siloxane represents product obtained by interaction of liquid organosiloxane resin (80-95 pts mass) with nitrogen-containing compound (5-20 pts mass) of formula

wherein R₁ is H, CH₃, -CH₂CH₂NH , -(CH₂)₆NH₂; R₂ is H or C1-C3-alkyl; n = 1-3. Reaction is carried out at 70-140°C for at least 4 h.

EFFECT: inexpensive silicone composition for disposable injection needle with decreased prick force.

5 ex, 1 tbl

Description

The invention relates to the chemistry of polymers, in particular to organosilicon compounds used as a lubricant for single-use injection medical needles in order to reduce the puncture force.

Single-use needles are manufactured in accordance with the requirements of GOST 25046, TU 9432-041-07610776-00 “Single-use injection needles”, according to which the piercing force should not exceed 0.5-1.5 mm for needle tube diameters: 0, 4-0.6 N (magnetic tape) and 0.6-1.2 N (plastic film). The tube is made of steel. The injection needle is a metal tube, one end of which is sharpened sharply, and the other ends with a head for attachment to a syringe. A tube with a polypropylene needle head is connected by an adhesive composition.

For a long time, a dry needle was used for injection. The disadvantages of using this method include high puncture, slip forces and the presence of a squeak when testing a needle on the skin.

A known method of reducing the puncture and sliding force of a needle on a cylinder coated with polymethylsiloxane liquid ПМС-1000 / GOST 13032-77, TU6-02-737-78 “Polymethylsiloxane liquids” /.

The disadvantage of this method is a slight decrease in the puncture force; when testing for skin, the creak remains.

The Japanese company Kinsho Corporation produces silicone grease for hypodermic needles.

Silicone grease SA-1 for injection needles is produced by the Korean company “Chinhan”.

The technical solution of silicone emulsion / US Patent No. 3574673, 30-32 / for lubricating products (razor blades, scissors, etc.) is made using a solution of copolymers of polydimethylsiloxane and aminoalkylsiloxane in isopropyl alcohol or toluene.

A large number of polyorganosiloxane mixtures of low-temperature polymerization are produced by Dow Corning (USA).

The disadvantage of foreign siloxane compositions is their high cost.

Silicone compositions are used in industry as lubricants or as a base for greases. For this purpose, for example, polydimethylsiloxane liquids having good lubricity are used.

Silicone grease is applied to the forming surfaces of the products in the form of an emulsion / p. 1143-1150. t.1. Encyclopedia of polymers in 3 volumes, M .: Sov. encycl., 1972-1977 /.

The industry produces synthetic dimethylsiloxane rubbers of the grades: SKTN-1, SKTN, etc.

In our country and abroad, based on SKTN-1 rubber, sealants and compounds have been developed (Vixint K-18, Vixint U-1-18 KL-4, KLF-20, KLSC-305, etc.), intended mainly for the needs of the electronic and electrical industries. All operations associated with the use of these sealants boil down to two processes: pouring the compound into the mold where it solidifies; enveloping products with a layer of compound with a brush, spray gun or dipping. Along with valuable qualities, SKTN-1 based sealants also have drawbacks - low adhesion to various materials, low mechanical strength and poor processability / p. 99, Kharitonov NP, Shentenkova IA Heat-resistant organosilicate sealing materials. L., Nauka, 1977, 183 pp. /.

Sealant Vixint PK-68 consists of SKTN and catalyst in the ratio, wt.

SKTN - 100.0 and catalyst No. 68 - 4.0 / s.40-41. Smyslova R.A. and others. A reference book on rubber-based sealing materials. Chemistry, 1976, 72 pp. /.

SKTN low molecular weight rubbers are capable of vulcanizing at ordinary and subzero temperatures without the use of special equipment. The curing time at room temperature is 0.5-6 hours (p. 102, ibid.).

Currently, the Applicant uses a composition of Penta-850 silicone fluid and a solvent (isopropyl alcohol, heptane, hexane) to apply grease to the needle tube of a lubricating coating (see table).

The purpose of the proposed technical solution is the development of a siloxane composition (lubricant) using a condensation product of liquid silicone rubber - SKTN grades A, B, C, D, D and E and a nitrogen-containing compound, which allows to reduce the puncture and sliding forces on the cylinder of a single-use injection needle with at the same time giving thixotropic properties, eliminate creaking when testing for skin and reduce the cost of their production.

The technical result is achieved in that the siloxane composition comprising siloxane and a solvent, in accordance with the invention, contains toluene and isopropyl alcohol as a solvent, and as a siloxane, a product obtained by the interaction of 80-95 parts by weight liquid silicone rubber SKTN grades A, B, C, G, D and E with 5-20 wt.h. nitrogen-containing compounds of the formula:

R ₁ NH (CH ₂ ) _n Si (OR ₂ ) ₃ , where

R ₁ = H, CH ₃ , —CH ₂ CH ₂ NH ₂ , - (CH ₂ ) ₆ NH ₂ ;

R ₂ = H or an alkyl radical containing not more than 3 carbon atoms;

n = 1-3.

In accordance with the invention, the reaction (synthesis) is carried out at a temperature of 70-140 ° C for at least 4 hours

Synthesis can also be carried out in solution. Aliphatic or aromatic hydrocarbons, aliphatic alcohols, for example, toluene, isopropyl alcohol, are recommended as a solvent.

In the implementation of the proposed technical solution used:

Rubber synthetic heat-resistant low molecular weight SKTN - grades A, B, C and G (GOST 13835-73 includes only four grades, TU2294-002-00152000-96), differing in conditional viscosity, pp .: 90-150 (A), 151- 240 (B), 241-600 (C) and 601-1080 (D). In 1996

These polymers have the following characteristic: density, g / cm ³ : 0.96-1.23; solubility in benzene - complete; the content of cyclosiloxanes,% - 2.5 / s. 8. Dolgov O.N. and other organosilicon liquid rubbers and materials based on them, Chemistry, 1975, 112 S. /.

An expanded list of rubber SKTN grades A, B, C, D, D and E / molecular weight (3-15) · 10 ⁴ , viscosity 1500-300000 MPa · s /, is given in the "Chemical encyclopedia" / p.511. T.2. M .: Sov. encycl., 1990 /; rubbers cure at room temperature.

Toluene (GOST 5789-78).

Isopropyl alcohol (GOST 9805-84; TU 6-09-402-81).

The product AGM-9 (TU 6-02-724-77) of the formula NH ₂ (CH ₂ ) ₃ Si (OS ₂ H ₅ ) ₃ .

Polymethylsiloxane PMS-1000 fluid has a kinematic viscosity at 20 ° C, m ² / s (cSt) - 950-1050; mass fraction of silicon,% - 37.5-38.5; mass fraction of water,%, not more than 0.004.

Penta - 850 (TU 2229-037-4024504202002) is a colorless or slightly yellow silicone fluid and has the characteristic: the content of the main substance is 45-55% (in experiments it was 46); kinematic viscosity at T = 25 ° C, cSt - 4-10 (in the experiments it was 5); the refractive index is 1.4000-1.4100 (in the experiments it was equal to 1.4092).

The siloxane composition is applied to the needle tube by dipping, spraying or automatically on the machine using a tape moistened with siloxane lubricant. Lubricant is applied to the needle tube at 3/4 of its length. The needles are checked for puncture force and slip on the tube 24 hours after the needle is coated with grease on an Instron 1011 device (piercing a magnetic tape) or on a Puncture installation (State Unitary Enterprise VNIPIMI, Kazan).

Comparative evaluation of siloxane composition (types of needle lubrication)

Table NN for measures. Type of grease The average puncture force, N % reduction in puncture force compared to a dry needle Skin testing Average cylinder sliding force % reduction in cylinder sliding force 1 Dry needle 41.8 - Creak 17,2 - 2 PMS-1000 32.1 23,2 Also eleven 36 3 Penta-850 10%, And PS * 90% 30.8 26.3 Also 9.3 46 4 Penta-850 IPS 96% 29.2 30.1 Also nine 47.8 5 Penta-850: IPS = 1: 1 30.3 27.5 Also 10.1 41.3 6 The composition obtained in example 1 25 40,2 does not creak 6 65.1 7 The composition obtained in example 1 and diluted to a toluene content of 90% 23.9 42.8 does not creak 4.4 74,4 8 The composition obtained in example 1 and diluted to a toluene content of 96% 28,2 32,5 does not creak 6 65.1 nine The composition obtained in example 2 21.5 49 does not creak 7 59.3 10 The composition obtained in example 2 and diluted to a toluene content of 90% 22.4 46,4 does not creak 5.1 70.3 eleven The composition obtained in example 2 and diluted to a toluene content of 95% 23.7 43.3 does not creak 5.3 69.2 12 The composition obtained in example 3 24 42.6 does not creak 5,4 68.6 thirteen The composition obtained in example 3 and diluted to a toluene content of 90% 24.4 41.6 does not creak 6.4 62.8 14 The composition obtained in example 3 and diluted to a toluene content of 95% 22.3 46.7 does not creak 5.3 66.9 fifteen The composition obtained in example 4, the content of isopropyl alcohol 50% 21 49.7 does not creak 16 The composition obtained in example 5, the content of isopropyl alcohol 50% 22.2 46.9 does not creak Note: * IPA - isopropyl alcohol

A comparative assessment of the data in the table indicates that the puncture force using PMS - 1000 compared with a dry needle decreases from 41.8 g to 32.1 g or 23.2%, and the sliding force along the cylinder decreases from 17.2 g to 11 , 0 g (reduced by 36.0%), which does not meet modern requirements. Another drawback of PMS-1000 is the creak when testing through the skin.

The use of Penta-850 silicone in the adhesive composition reduces the puncture force and the sliding force along the cylinder by 29-31% and 41-48%, respectively. This leaves a creak when testing through the skin.

A comparative evaluation of the data in the table indicates that the proposed rubber composition allows to reduce the average puncture force to 49.7%, the average sliding force on the cylinder to 70.3% and to exclude creaking.

The amount of composition used should be minimal so that drops are not visible on the outer surface and in the channel of the needle tube.

The following are examples illustrating the claimed invention.

Example 1 (No. 6). A siloxane composition with a basic substance content of 37.5%, a toluene content of 62.5%, is obtained by the interaction of 80 ml of rubber SKTN grade A with 10 ml of product AGM-9 in a medium of 150 ml of toluene at boiling point (T = 114 ° C) for 4 hours

Example 2 (No. 9). A siloxane composition with a basic substance content of 47.4%, toluene content of 52.6%, is produced by the interaction of 80 ml of rubber A with 10 ml of a compound of the formula NH ₂ (CH ₂ ) ₂ NH (CH ₂ ) ₃ Si (OCH ₃ ) ₃ (product Z-6020) in a medium of 100 ml of toluene at T = 114-117 ° C for 4 hours

Example 3 (No. 12). The siloxane composition obtained according to example 1 in a medium of 100 ml of toluene (T = 115-117 ° C).

Example 4 (No. 15). The siloxane composition was obtained by the interaction of rubber SKTN grade E (160 ml) with 20 ml of NH ₂ (CH ₂ ) ₃ Si (OC ₂ H ₅ ) ₃ at T = 115-136 ° C for 4 hours

After synthesis and cooling, the reaction mixture was diluted with isopropyl alcohol to a basic substance content of 50% by weight.

Example 5 (No. 16). The same as in example 4, but as the amino compound using NH ₂ (CH ₂ ) ₂ NH (CH ₂ ) ₃ Si (OCH ₃ ) ₃ . After synthesis, the product is diluted to 50% of the basic substance with isopropyl alcohol.

Siloxane compositions obtained in examples 1-5, before use, can be diluted with a solvent to a content of the main substance of 2% wt.h.

The above scientific and technical analysis of the prior art has shown that the claimed technical solution does not follow explicitly from the latter, differs from it, while it meets the criteria of the invention — novelty, which is confirmed by the above materials.

To verify the compliance of the claimed invention with the condition “inventive step”, the applicant conducted an additional search for known solutions / Sobolev V.M., Borodina I.V. Industrial synthetic rubbers. M., Chemistry, 1977, 392; Kardashov D.A., Petrova A.P. Polymer adhesives. Creation and application. M., Chemistry, 1983, 256 pp .; Katsnelson M.Yu., Badaev G.A. Polymer materials. Directory. L., Chemistry, 1982, 317 p .; Malyshev A.I., Pomogaybo A.S. Rubber analysis. M., Chemistry, 232 pp., The use of rubber technical products in the national economy. Reference manual. M., Chemistry, 1986, 240 S. /, coinciding with the distinctive features of the prototype of the characteristics of the claimed composition. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed from the prior art determined by the applicant. The composition of the composition (lubricant) ensures the achievement of the goal, which indicates the satisfaction of the criterion of "inventive step".

The claimed technical solution is used, for example, in the medical industry, it is disclosed in the application materials with the completeness sufficient for its implementation. Thus, the proposed technical solution meets the criteria of the invention of "industrial applicability".

Claims (1)

A siloxane composition comprising siloxane and a solvent, characterized in that it contains toluene and isopropyl alcohol as a solvent, and as a siloxane, a product obtained by the interaction of 80-95 wt. liquid silicone rubber SKTN with 5-20 wt.h. nitrogen-containing compounds of the formula R ₁ NH (CH ₂ ) _n Si (OR ₂ ) ₃ , where R ₁ —H, CH ₃ , —CH ₂ CH ₂ NH ₂ , —CH ₂ ) ₆ NH ₂ ; R ₂ -H or an alkyl radical containing not more than 3 carbon atoms; n-1 ÷ 3, moreover, the reaction is carried out at a temperature of 70-140 ° C for at least 4 hours