阅读说明：本技术 一种新型α-氰基丙烯酸酯类医用粘合剂及其制备方法 (Novel alpha-cyanoacrylate medical adhesive and preparation method thereof ) 是由 张晓东 刘棣阳 鲁鸽 张佳坤 陈照军 夏凯 于 2021-08-19 设计创作，主要内容包括：本发明公开了一种新型α-氰基丙烯酸酯类医用粘合剂及其制备方法,其特征在于该α-氰基丙烯酸酯类医用粘合剂是由α-氰基丙烯酸酯和醋酸酯化植物油增塑剂组成,其中醋酸酯化植物油增塑剂质量用量占α-氰基丙烯酸酯质量百分比为5%-15%。性能测试结果表明,在α-氰基丙烯酸酯粘合剂中加入适量醋酸酯化植物油增塑剂,可以明显提高α-氰基丙烯酸酯粘合剂的拉伸剪切强度、剥离强度和抗弯曲性能,同时具有生产操作简便、成本较低、易于生物降解的优点。(The invention discloses a novel alpha-cyanoacrylate medical adhesive and a preparation method thereof, and is characterized in that the alpha-cyanoacrylate medical adhesive is composed of alpha-cyanoacrylate and an acetic acid esterification vegetable oil plasticizer, wherein the mass usage of the acetic acid esterification vegetable oil plasticizer accounts for 5% -15% of the mass of the alpha-cyanoacrylate. The performance test result shows that the tensile shear strength, the peel strength and the bending resistance of the alpha-cyanoacrylate adhesive can be obviously improved by adding a proper amount of acetic acid esterification vegetable oil plasticizer into the alpha-cyanoacrylate adhesive, and the alpha-cyanoacrylate adhesive has the advantages of simple and convenient production operation, lower cost and easy biodegradation.)

1. A novel alpha-cyanoacrylate medical adhesive is characterized in that the alpha-cyanoacrylate medical adhesive is composed of alpha-cyanoacrylate and an acetic acid esterified vegetable oil plasticizer, wherein the mass of the acetic acid esterified vegetable oil plasticizer accounts for 5% -15% of the mass of the alpha-cyanoacrylate; the alpha-cyanoacrylate is one of alpha-cyanoacrylate, alpha-cyanoacrylate ethyl, alpha-cyanoacrylate and alpha-cyanoacrylate or their mixture; the acetic acid esterification vegetable oil plasticizer is one of acetic acid esterification soybean oil, acetic acid esterification peanut oil, acetic acid esterification rapeseed oil and acetic acid esterification palm oil, or a mixture of the two, wherein the acid value of the acetic acid esterification vegetable oil plasticizer is less than 0.001, and the hydroxyl content of the acetic acid esterification soybean oil plasticizer is less than 0.001.

2. The preparation method of the novel alpha-cyanoacrylate medical adhesive comprises the following steps: and adding an acetic acid esterified vegetable oil plasticizer into the alpha-cyanoacrylate, and fully and uniformly stirring to obtain the novel alpha-cyanoacrylate medical adhesive.

Technical Field

The invention belongs to the field of medical adhesives, and particularly relates to a novel alpha-cyanoacrylate medical adhesive and a preparation method thereof.

Background

At present, thousands of surgical operations are performed worldwide every year, and in the traditional surgical operation, wounds are sutured by manual needles and threads to achieve the purposes of closing and stopping bleeding. However, needle and thread sewing has been associated with the following drawbacks: (1) the wound is exposed for a long time, and the surrounding tissues can be damaged; (2) the sealing effect is not ideal, so that body fluid or air leaks; (3) most of needle and thread suturing needs a secondary operation to remove a suture line, wound bleeding can be caused, great pain is brought to a patient, secondary infection is easy to cause, large-area inflammation and a series of complications are often brought to the secondary infection, and the life of the patient is further threatened in serious cases. Therefore, there is a need for a wound treatment that can replace traditional suture to reduce unnecessary trauma, reduce mortality, and relieve patient pain. The application of the medical adhesive can make up the defects of the traditional suture, and has the advantages of simple operation, convenient application, rapid wound closure, effective prevention of blood seepage, no scars and the like.

Alpha-cyanoacrylate adhesives were pioneered by Harry cover from Kodak, USA, and were marketed in 1958. Also in accordance with this invention, Harry Coover acquired the 2010 national science and technology innovation medal. Because the alpha-cyanoacrylate adhesive contains two strong electron-withdrawing groups of cyano and carbonyl on alpha-carbon atom, hydrogen atom on beta-carbon atom is easy to ionize to generate hydrogen ion under the condition of existence of trace amount of anion, thereby initiating anion polymerization reaction. Biological tissues contain a large amount of proteins, which contain a large amount of free amino groups that are catalysts for the polymerization of alpha-cyanoacrylate monomers. Therefore, the alpha-cyanoacrylate substance can rapidly react with biological tissues at normal temperature to form covalent bonds, thereby achieving the purpose of bonding soft tissues. Meanwhile, the alpha-cyanoacrylate adhesive has the properties of low viscosity and good flow property, so that the adhesive is convenient to coat in the application process, is convenient to wet and permeate an adhered object, and can exert the adhesion effect without additional operations such as external force application or local heating. The alpha-cyanoacrylate compound is used as medical adhesive in clinical application owing to its fast reaction and convenient application.

Cyanoacrylate adhesives with different properties developed by several companies have been commercialized. For example Histoacryl in Germany and Glubran in Italy, both of which were developed based on cyanoacrylate and have been widely used in Europe. Dermabond @, also from the United states company, has also been approved by the FDA for use in medical products for topical application, the main component of Dermabond @being2-octyl cyanoacrylate. The bonding strength and flexibility of the alpha-cyanoacrylate adhesive are closely related to the length of the alkyl chain thereof, and generally, the bonding strength is reduced as the length of the alkyl chain thereof is increased, but the flexibility is improved, the anionic polymerization reaction rate is reduced, the biocompatibility is better, and the irritation to organisms is reduced. In addition, α -cyanoacrylate has disadvantages in that it is highly brittle and easily cracked, and the adhesive strength is not high enough, for example, when ethyl cyanoacrylate and butyl cyanoacrylate are used for a long wound or a wrinkle part, they may be broken to cause secondary wound cracking. If the problems mentioned above can be solved, the medical adhesives of the alpha-cyanoacrylate class will be used more and may completely replace the traditional suture method, which will benefit the patients.

Disclosure of Invention

The invention aims to provide the alpha-cyanoacrylate medical adhesive with relatively high tensile shear strength and relatively good flexibility, aiming at the defects that the existing alpha-cyanoacrylate medical adhesive has relatively low bonding strength and relatively poor flexibility in clinical application to cause easy cracking of wounds.

The invention discloses a novel alpha-cyanoacrylate medical adhesive which is characterized by comprising alpha-cyanoacrylate and an acetic acid esterification vegetable oil plasticizer, wherein the mass usage of the acetic acid esterification vegetable oil plasticizer accounts for 5-15% of the mass percent of the alpha-cyanoacrylate; the alpha-cyanoacrylate is one of alpha-cyanoacrylate, alpha-cyanoacrylate ethyl, alpha-cyanoacrylate and alpha-cyanoacrylate or their mixture; the acetic acid esterification vegetable oil plasticizer is one of acetic acid esterification soybean oil, acetic acid esterification peanut oil, acetic acid esterification rapeseed oil and acetic acid esterification palm oil, or a mixture of the two, wherein the acid value of the acetic acid esterification vegetable oil plasticizer is less than 0.001, and the hydroxyl content of the acetic acid esterification soybean oil plasticizer is less than 0.001.

The preparation method of the novel alpha-cyanoacrylate medical adhesive comprises the following steps: and adding an acetic acid esterified vegetable oil plasticizer into the alpha-cyanoacrylate, and fully and uniformly stirring to obtain the novel alpha-cyanoacrylate medical adhesive.

The performance test results of the novel alpha-cyanoacrylate medical adhesive prepared by the invention show that the tensile shear strength, peel strength and bending resistance of the alpha-cyanoacrylate adhesive can be obviously improved by adding a proper amount of acetic acid esterified vegetable oil plasticizer into the alpha-cyanoacrylate adhesive. In addition, the invention adopts acetic acid esterification natural vegetable oil as the plasticizer to improve the flexibility of the alpha-cyanoacrylate adhesive, and simultaneously can avoid the toxicity to human bodies caused by the currently used synthetic plasticizer, and has the advantages of simple and convenient production operation, lower cost and easy biodegradation.

Detailed Description

The invention discloses a novel alpha-cyanoacrylate medical adhesive and a preparation method thereof, and the invention is further illustrated by the following specific examples.

Example 1 preparation of acetic acid esterified vegetable oil plasticizer

50 g of edible vegetable oil and 100 g of benzene are added into a 500ml four-neck flask which is provided with a stirring device, a water separator, a thermometer and a reflux condenser, stirring is started, the temperature is raised to the reflux temperature, after azeotropic dehydration till no water is evaporated, 0.5 g of pyridine is added, 1.5 g of acetic anhydride is added dropwise by using a constant pressure funnel, the dropping is controlled to be finished within 30 minutes, after the reflux reaction is continued for 2 hours, the reaction liquid is cooled to the room temperature, and the reaction liquid is transferred into a 500ml separating funnel. Adding 100ml of 100 mg/L sodium bicarbonate solution into a separating funnel filled with the reaction solution, fully shaking the mixture evenly, standing the mixture, discharging the lower-layer aqueous solution after 3 hours, repeating the operation for 2 times, and then repeating the operation for 3 times by using equivalent deionized water instead of the 100 mg/L sodium bicarbonate solution so as to completely wash out the free fatty acid in the vegetable oil. Transferring the obtained upper oil layer to a beaker, adding 20 g of anhydrous sodium sulfate, stirring for 2 hours, filtering, evaporating the solvent from the filtrate at normal pressure by using a rotary evaporator, performing vacuum desolventizing, bottling, sealing and storing, performing reaction and purification treatment by using soybean oil, peanut oil, rapeseed oil and palm oil as raw materials instead of the vegetable oil as raw materials to respectively obtain an acetic acid esterified soybean oil plasticizer, an acetic acid esterified peanut oil plasticizer, an acetic acid esterified rapeseed oil plasticizer and an acetic acid esterified palm oil plasticizer, mixing any two vegetable oil plasticizers, and uniformly stirring to obtain the mixed acetic acid esterified vegetable oil plasticizer.

EXAMPLE 2 preparation of novel alpha-cyanoacrylate-based medical Adhesives

Weighing three parts of 100 g of alpha-cyanoacrylate, respectively adding 5 g, 10 g and 15 g of the acetic acid esterified vegetable oil plasticizer prepared in the example 1, and uniformly stirring to obtain the novel alpha-cyanoacrylate medical adhesives with different numbers. The compositions of the novel alpha-cyanoacrylate medical adhesives with different numbers are shown in table 1:

TABLE 1 composition of novel alpha-cyanoacrylate medical adhesives

Example 3 Performance testing of novel alpha-cyanoacrylate medical Adhesives

According to the national standard GB-7124-2008, a 304 steel plate is used as a Test piece material, the thickness of a glue layer is controlled to be 0.2 mm, and the tensile shear strength of each novel alpha-cyanoacrylate medical adhesive in the table 1 is tested by a Smart-Test universal tester (British Enstein company, model 5500R); according to the national standard GB/T2791-1995, pure wool cloth is adopted as a Test material, the painting length of the adhesive is 150 mm, and the peel strength of each novel alpha-cyanoacrylate medical adhesive in the table 1 is tested by a Smart-Test universal tester (England, Inc., model 5500R); testing the 90-degree bending property of each novel alpha-cyanoacrylate medical adhesive film in the table 1 by adopting a fatigue cracking tester (a pure test machinery factory in Jiangdu, model: WPL-100) according to the national standard GB/T9341-2000; weighing 25 g of each prepared novel alpha-cyanoacrylate medical adhesive, putting the weighed novel alpha-cyanoacrylate medical adhesive into a 50ml transparent PVC plastic sample bottle, sealing, placing the bottle in a dark room at the temperature of 25 ℃, and regularly observing the storage stability of each medical adhesive. The test results are shown in table 2:

TABLE 2 Performance test results for novel alpha-cyanoacrylate medical adhesives

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should understand that they can make various changes, additions and substitutions within the spirit and scope of the present invention.