WO2017025997A1 - Two-paste type dental tray resin - Google Patents

Abstract

[Problem] To provide a two-paste type dental tray resin that is useful both for a patient and an operator (such as a dentist or a dental technician). [Solution] A two-paste type dental tray resin characterized by consisting of: "a first agent containing a polymerization initiator" which comprises a first composition (C1) in a paste form containing, as essential components, a monofunctional or polyfunctional (meth)acrylate-based monomer (m), a polymer (p), a filler (f) and the polymerization initiator (i); and "a second agent containing a polymerization accelerator" which comprises a second composition (C2) in a paste form containing, as essential components, a monofunctional or polyfunctional (meth)acrylate-based monomer (m), a polymer (p), a filler (f) and the polymerization accelerator (a).

Description

Two-paste type dental tray resin

-1-
The present invention relates to a two-paste type dental tray resin for the production of dental personal trays or foundation floors.
More specifically, the present invention relates to a two-paste type dental tray resin composed of “a paste-like first agent containing a polymerization initiator” and “a paste-like second agent containing a polymerization accelerator”.
-2-
The “pasty” in the present invention means having the following properties.
-When force is applied, it is easily deformed so that it can be mixed and formed into any shape.
・ As long as no force is applied, even if the plate is placed on a flat plate and tilted, for example, about 15 °, it does not flow naturally.
-3-
As is well known, in dentistry, “polymer powder” and “monomer liquid” are mixed to form a “saddle-like material”, and a personal tray and a foundation floor are produced using the “saddle-like material”. .
Here, when the “paste-like first agent and second agent” in the present invention is compared with the above-mentioned conventional “saddle-like material”, there is no substantial difference in fluidity and hardness in the normal state. There is no clear difference in the following points.
In other words, the conventional “cage-like material” prepared by mixing powder and liquid in dentistry changes in fluidity and hardness over time, whereas the “paste-like first agent and “Part 2” has almost no change in fluidity and hardness over time.

[Impression tray]
Dental impression trays can be broadly divided into “ready-made trays” and “individual trays” and “individual tooth trays” that are individually manufactured according to the patient's dentition and abutment teeth. is there.

(Off-the-shelf tray)
The former ready-made trays are as follows.
・ From the application site: Tray for all jaws, Tray for partial teeth (for single jaw, for front teeth, for molars)
・ From the viewpoint of material: Metal, plastic ・ From the viewpoint of shape: Perforated tray, net tray, rim lock tray ・ From the viewpoint of functionality: Water-cooled tray for agar impression, tray for occlusal impression

(Personal tray)
The personal tray is a tray that is specially manufactured according to the dentition form for each case so that the thickness of the impression material is constant in order to improve the dimensional accuracy of the impression.
The personal tray is manufactured using an immediate polymerization resin for the tray using a paraffin wax having a thickness of 1.4 to 2.0 mm as a spacer on the dentition model obtained from the outline impression.
For holding the impression material, an adhesive suitable for each impression material is used, but a holding hole is provided if necessary.

(Individual tooth tray)
It is a small tray manufactured according to each abutment tooth, and is also called "individual tooth tray" or "abutment tooth impression tray".
The individual tooth tray includes “resin individual tooth tray” made of immediate polymerization resin and “copper band individual tooth tray” manufactured by processing a copper plate.
As the individual tooth tray, the former “resin individual tooth tray” is mainly used. Since the resin individual tooth tray does not adhere to the impression material, an adhesive suitable for each type of impression material to be used is necessary. However, the resin individual tooth tray can be applied to any abutment crown.

(Foundation floor)
The foundation floor is a temporary denture base that forms the base of the occlusal floor and supports the occlusal levee, and is made along the outline of the final denture.

[Patent Literature]
The present invention relates to a technique using “two types of tray resins made of a paste-like composition”. Therefore, a search was conducted using the “patent information platform”, which is a database for searching patent documents, and the following documents with “paste” were found for dental impression trays (personal trays, etc.). did.

(Patent Document 1)
The invention of JP-A-2015-48328 (Patent Document 1) relates to a “powder-type” dental curable material. In paragraph 0057, the use of the powder-type dental curable material of the present invention is described. Regarding the method, there is a description that “weigh out a desired amount of powder material and liquid into a rubber cup and knead until a uniform paste is obtained using a kneading stick or spatula”.
However, the mixing operation is performed by measuring a powder material and a liquid agent and kneading them using a kneading stick or a spatula.

(Patent Document 2)
The invention of Japanese Patent Application Laid-Open No. 2011-17449 (Patent Document 2) is used for trays (personal trays, etc.) used for taking impressions of teeth and other types using impression materials in the field of dentistry, especially for resin trays. In paragraph 0024, “a paste / paste type using a mixture of a basic paste containing alginate as a main component and a hardener paste containing calcium sulfate as a main component, or It is effective for any type such as a type in which a powder mainly composed of alginate and calcium sulfate is mixed with water. "

(Patent Document 3)
In claim 1 and other parts of JP-T 2010-525067 (Patent Document 3), “1: 1 (volume) paste / paste self-adhesive dental cement, 1 to 50% by weight of polymerizable acidity” A dental cement characterized in that it comprises: 1 to 50% by weight of polymerizable non-acidic monomer; and 0.1 to 2% by weight of benzoylthiourea reducing agent.
In the paragraph 0019, there is a description that “it is more difficult to store as a paste / paste having a storage stability rather than a powder / liquid system”.

(Patent Document 4)
The invention of JP-A-2009-189447 (Patent Document 4) relates to a method for producing a tooth mold / gingival model, but in paragraph 0027, “resin powder and liquid are accurately measured.・ The state of taking out the resin that has been mixed and pasted is shown in Fig. 10. Next, the mixed resin is filled into the space created by the wax wax of the upper and lower basins. ”)”.

(Patent Document 5)
The invention disclosed in Japanese Patent Application Laid-Open No. 2005-66166 (Patent Document 5) relates to a method for forming an artificial tooth. There is a description of “filling resin”, and paragraphs 0007, 0008, 0010, 0020, and 0024 also have a description of “resin-like resin and paste-like resin”.

JP2015-48328A JP2011-17449 Special table 2010-525067 JP 2009-189447 A JP-A-2005-66166

-0-
Patent Documents 1 to 5 described above describe a powder-liquid type “paste” -like dental curable material composed of a mixture of “powder” and “liquid”.
-1-
Here, the “powder material” is a polymer powder such as a (meth) acrylate polymer, and the “liquid agent” is a monomer liquid such as a (meth) acrylate monomer.
(In the following, “methyl methacrylate” may be abbreviated as “MMA”.)
-2-
Such powder-liquid type (powder-liquid type) curable materials are not limited to literature proposals, but are used by surgeons (dentists and dental technicians) in almost all dental clinics and laboratories. (Prepared).
-3-
However, the above-mentioned powder-liquid type curable materials, when actually used, are related to the items of “measurement”, “kneading”, “operability”, “physical properties”, “safety”, and “transportation”. Various problems as listed below are included.

-1- (Weighing)
-In the case of the conventional powder-liquid type, it is difficult to measure the optimum ratio of the powder material to the liquid agent, and it is difficult to determine the target amount.
-Also, it takes time to take the liquid with a dropper and put it in a measuring cup.
・ At the technical site, the powder material is put into a plastic container, and the liquid agent is sprinkled with a dropper several times from above. At that time, the ratio of powder to liquid is not constant, and after curing, Variations in physical properties are likely to occur.

-2- (Kazuwa)
-In the case of the conventional powder-liquid type, since the powder and liquid are mixed using a plastic container and a spatula, it is difficult to knead uniformly, and there is a large difference between operators.
・ Further, powder and liquid may be scattered during kneading.
Furthermore, it is necessary to clean the plastic container and spatula after kneading, which is time consuming and laborious and uneconomical.

-3- (operability)
・ In the case of powder-liquid type, it takes time to measure and knead the powder and liquid, resulting in poor operability.
・ Because it is necessary to handle bottles containing liquid during use, operability is reduced, and it is necessary to be careful of bottle breakage and fire.

-4- (Physical properties)
-In the case of powder-liquid type, the operator can use the powder and liquid only in a short time, so only liquid (MMA) with high powder solubility can be used.
-Therefore, the combination of powder and liquid is limited, and physical properties may be difficult to control.
-Also, since the curing accompanied by polymerization starts before the powder is completely dissolved in the liquid, the variation in physical properties becomes large.

-5 (Safety)
・ In the case of powder-liquid type, even if care is taken, the amount of the operator's inhalation of MMA vapor increases when measuring the liquid (MMA) and at the time of powder-liquid kneading.

-6- (Transport)
・ In the case of powder-liquid type, sufficient caution is required for spillage of liquid (MMA) due to breakage of the bottle during transportation and fire accompanying it.

The “two-paste type dental tray resin” of the present invention is
From the paste-like 1st composition (C1) which has a monofunctional or polyfunctional (meth) acrylate type monomer (m), a polymer (p), a filler (f), and a polymerization initiator (i) as an essential component. And “first agent containing a polymerization initiator”,
From the paste-like second composition (C2) containing the monofunctional or polyfunctional (meth) acrylate monomer (m), the polymer (p), the filler (f) and the polymerization accelerator (a) as essential constituent components "Second agent with polymerization accelerator"
Consisting of
It is characterized by.

-1- (Weighing)
In the two-paste type (paste-paste type) dental tray resin combination of the present invention, each paste can be easily measured with a measuring spoon. Moreover, it is easy to measure a certain amount of each paste, and a target amount can be measured.

-2- (Kazuwa)
In the combination of the two paste agent types (paste-paste type) of the present invention, a kneaded state is obtained by coloring one paste or coloring one paste and the other in different colors. Is easily visible.
The kneading time can be shortened compared to the powder-liquid type.
Furthermore, if a kneader is used, automatic kneading is possible.

-3- (operability)
As described above, the combination of the two paste types (paste-paste type) of the present invention is easy to measure, easy to knead, can be automatically kneaded, and has excellent operability.
These points are also a great advantage of the two-paste agent type (paste-paste type) combination, which cannot be achieved with the conventional “powder-liquid type” combination.

-4- (Physical properties)
In the case of a combination of two paste types (paste-paste type), it is easy to take an equal amount of each paste and it is easy to determine the kneading state, so that stable physical properties are easily obtained.
Moreover, since it is paste-form which mixed powder and a liquid beforehand, since the raw material of a liquid and a powder can be selected irrespective of the solubility of a powder and a liquid, the product which controlled the physical property previously can be provided.

-5 (Safety)
-In the case of a combination of two paste types (paste-paste type), even if the product uses MMA, the amount of MMA vapor sucked by the operator is reduced. Furthermore, products using liquids that are less likely to evaporate than MMA are even safer.

-6- (Transport)
-In the case of a combination of two paste types (paste-paste type), it is easy to transport because it does not use a highly flammable liquid (MMA) as it is when transported domestically or overseas.
・ It also improves safety against fire.

-7- (Summary)
The effect of the present invention described above is compared with the conventional “powder-liquid (powder-liquid) type curable material” described in the section “Problems to be solved by the invention”. It becomes like this.
The evaluation was made by five dentists and five dental technicians in five stages of “５>○>□>Δ> ×”.
In the past, only the “powder-liquid” type was used, and that was the standard for each item. However, in contrast to the present invention, the conventional “powder-liquid” type is You can see if it was inconvenient and inefficient.

 

-1-
As described above, the “two-paste type dental tray resin” of the present invention is
From the paste-like 1st composition (C1) which has a monofunctional or polyfunctional (meth) acrylate type monomer (m), a polymer (p), a filler (f), and a polymerization initiator (i) as an essential component. And “first agent containing a polymerization initiator”,
From the paste-like second composition (C2) containing the monofunctional or polyfunctional (meth) acrylate monomer (m), the polymer (p), the filler (f) and the polymerization accelerator (a) as essential constituent components "Second agent with polymerization accelerator"
It is characterized by the following.
-2-
In addition, for example, the first agent is divided into two parts or the second agent is divided into two parts, so that “3 agents” or “4 agents” are nominally outside the technical scope of the present invention. is not.

(Example of monofunctional or polyfunctional (meth) acrylate monomer (m))
-Methyl (meth) acrylate, ethyl (meth) acrylate, isopropyl (meth) acrylate, n-hexyl (meth) acrylate, n-octadecyl (meth) acrylate, n-dodecyl (meth) acrylate, cyclohexyl (meth) acrylate, and the like.
-2-hydroxyethyl (meth) acrylate, 2-hydroxyoctyl (meth) acrylate, etc.
-Ethylene glycol di (meth) acrylate, diethylene glycol di (meth) acrylate, triethylene glycol di (meth) acrylate and the like.
-Trimethylolpropane tri (meth) acrylate, pentaerythritol tri (meth) acrylate, etc.
-Urethane di (meth) acrylate.

(Example of polymer (p))
・ Polymethylmethacrylate (PMMA)
・ Methyl methacrylate-ethyl methacrylate copolymer ・ Polyvinyl chloride, vinyl chloride-vinyl acetate copolymer ・ Polystyrene,
・ Acrylonitrile-styrene copolymer (AS resin)
・ Acrylonitrile-butadiene-styrene copolymer (ABS resin)
・ Ethylene-vinyl acetate copolymer (EVA)

(Example of filler (f))
・ Inorganic filler such as calcium sulfate dihydrate (dihydrate gypsum), calcium carbonate, alumina, silica, titanium oxide, cristobalite, glass beads, zinc stearate ・ Organic filler ・ Organic-inorganic composite filler

(Example of polymerization initiator (i))
・ Peroxide initiators such as benzoyl peroxide ・ Azo initiators such as azobisisobutyronitrile

(Example of polymerization accelerator (a))
Taking the case where the polymerization initiator is a peroxide-based initiator such as benzoyl peroxide as an example, N, N-dimethyl-p-toluidine, dihydroxyethyl-p-toluidine, or the like is used as the polymerization accelerator. .

(Example of viscosity modifier)
Examples include liquid paraffin, paraffin and alcohol.

The following examples further illustrate the invention. “%” Means wt%.
In Examples 1 to 4 below, the first agent and the second agent were different in color.

Example 1
-1- (Composition of the first agent)
・ Vinyl chloride-vinyl acetate copolymer 12%
・ Polymethyl methacrylate (PMMA) 8%
・ Methyl methacrylate (MMA) 25%
・ Calcium sulfate dihydrate (dihydrate gypsum) 35.5%
・ Stearic acid 7%
・ Glass beads 8%
・ Liquid paraffin 3%
・ Benzoyl peroxide (polymerization initiator) 1.5%

-2- (Composition of the second agent)
・ Vinyl chloride-vinyl acetate copolymer 12%
・ Polymethyl methacrylate (PMMA) 8%
・ Methyl methacrylate (MMA) 25%
・ Calcium sulfate dihydrate (dihydrate gypsum) 36%
・ Stearic acid 7%
・ Glass beads 8.5%
・ Liquid paraffin 3%
・ N, N-dimethyl-p-toluidine (polymerization accelerator) 0.5%

-3- (effect)
Since methyl methacrylate (MMA), which is also used in the powder-liquid type, is used, an “irritating odor” was clearly felt. (However, if a part of MMA is replaced with the monomer used in Examples 2 to 4 described later, the irritating odor is surely reduced.)
However, the evaluations related to “weighing, kneading, operability, physical properties, safety, transportation” in Table 1 above are as follows, clearly compared with the conventional “powder-liquid” type. It was excellent.
Irritating odor (△ ～ ×)
Measurement (◎), kneading (◎), operability (◎), physical properties (◎), safety (◎), transportation (◎)

Example 2
-1- (Composition)
The same formulation as “Composition of the first agent” and “Composition of the second agent” in Example 1 except that 8% of low-volatility ethylene glycol dimethacrylate (EGDMA) was used instead of methyl methacrylate (MMA) A composition was prepared.
-2- (effect)
The evaluations related to “weighing, kneading, operability, physical properties, safety, transportation” in Table 1 above are as follows, which are clearly superior to those of the conventional “powder-liquid” type. It was. At this time, the irritating odor was clearly less than that in Example 1.
Irritant odor (◎)
Measurement (◎), kneading (◎), operability (◎), physical properties (◎), safety (◎), transportation (◎)

Example 3
-1- (Composition)
Instead of methyl methacrylate (MMA), 8% of diethylene glycol dimethacrylate (DEGDMA), which is less volatile than ethylene glycol dimethacrylate (EGDMA) used in Example 2, was used. The composition was prepared in the same formulation as the “Composition of Agent” and “Composition of Second Agent”.
-2- (effect)
The evaluations related to “weighing, kneading, operability, physical properties, safety, transportation” in Table 1 above are as follows, which are clearly superior to those of the conventional “powder-liquid” type. It was. At this time, the irritating odor was very small compared to Example 1.
Irritant odor (◎)
Measurement (◎), kneading (◎), operability (◎), physical properties (◎), safety (◎), transportation (◎)

Example 4
-1- (Composition)
The same as “Composition of the first agent” and “Composition of the second agent” in Example 1, except that 8% of 2-hydroxyethyl methacrylate (HEMA) with low volatility was used instead of methyl methacrylate (MMA). A composition was prepared according to the recipe.
-2- (effect)
The evaluations related to “weighing, kneading, operability, physical properties, safety, transportation” in Table 1 above are as follows, which are clearly superior to those of the conventional “powder-liquid” type. It was. At this time, the irritating odor was clearly less than that in Example 1.
The evaluations related to “weighing, kneading, operability, physical properties, safety, transportation” in Table 1 above are as follows, which are clearly superior to those of the conventional “powder-liquid” type. It was. At this time, the irritating odor was very small compared to Example 1.
Irritant odor (◎)
Measurement (◎), kneading (◎), operability (◎), physical properties (◎), safety (◎), transportation (◎)
At this time, the irritating odor was clearly less than that in Example 1.

The “two-paste type dental tray resin” of the present invention is extremely useful for both patients receiving dental treatment and surgeons involved in dental treatment (dentist, dental technician).

Claims (5)

1. From the paste-like 1st composition (C1) which has a monofunctional or polyfunctional (meth) acrylate type monomer (m), a polymer (p), a filler (f), and a polymerization initiator (i) as an essential component. And “first agent containing a polymerization initiator”,
   From the paste-like second composition (C2) containing the monofunctional or polyfunctional (meth) acrylate monomer (m), the polymer (p), the filler (f) and the polymerization accelerator (a) as essential constituent components "Second agent with polymerization accelerator"
   Consisting of
   A two-paste type dental tray resin characterized by
2. The two-paste type dental tray according to claim 1, wherein the "first agent containing a polymerization initiator" and the "second agent containing a polymerization accelerator" are mixed in substantially equal amounts. Resin.
3. The types and proportions of the “monofunctional or polyfunctional (meth) acrylate monomer (m), polymer (p), filler (f)” in the first agent and the second agent are substantially the same, And the difference between the constituent components of the first agent and the second agent is a difference between “whether it is a polymerization initiator (i) or a polymerization accelerator (a)”,
   The two-paste type dental tray resin according to claim 1 or 2.
4. 2. A method of performing automatic kneading of the “first agent with a polymerization initiator” and the “second agent with a polymerization accelerator” using a kneading machine. Or a 2-paste type dental tray resin according to 3.
5. The two-paste type dental tray resin according to claim 1, 2, 3 or 4, wherein the first agent and the second agent are different in color.