JPH0667813B2 - Hardening glue for root canal filling - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention relates to a curable paste material for root canal filling used for dental treatment.

[Conventional technology]

The purpose of the root canal filling operation in dental treatment is to protect and heal root end wounds by applying root canal filling material to the empty root canal system after demyelination or healing of infected root canals. I am trying. Therefore, it can be said that such a treatment as a step before the prosthetic treatment of the tooth is the most frequent treatment method in general dental clinical practice.

Conventionally, various root canal filling materials have been used for such treatment, but these are mainly therapeutic materials such as glue-based materials (for example, calcium hydroxide-based glue material) and physical materials. It can be divided into solid-state products (for example, gutta-perture points) mainly composed of various blockades.

However, even in the case of a solid root canal filling material, it is necessary to perform a combined root canal filling using a kind of a sealing material called a sealer in order to surely seal the root end. Among the sealers, the one that is hardened after a certain period of time after kneading is sometimes referred to as a hardened solid (cement type) root canal filler.

[Problems to be solved by the invention]

Among them, as a cement-type root canal filling material that has been conventionally known, zinc oxide eugenol cement, which mainly contains zinc oxide and is mixed with eugenol, is often used. However, zinc oxide eugenol cement is said to have tissue stimulating properties to the tissues around the root end, and it cannot be said to be satisfactory as a so-called biological root canal filling material.

[Means for solving problems]

In recent years, hydroxyapatite, which is known as an inorganic constituent of hard tissues such as teeth and bones, has been applied to dental implants, artificial bones, etc. due to its excellent biocompatibility. The present inventors have conducted various studies on the effects of such hydroxyapatite and tricalcium phosphate on the living body, especially on the pulp and the composition around the root tip, and as a result, root canal filling containing hydroxyapatite and tricalcium phosphate as the main components. The material was found to have high clinical application value, and magnesium oxide was used as the active ingredient.
Zinc oxide as a hardening material, an X-ray contrast material as the first material, and guaiacol, eucalyptol, and rosin as the main ingredients, and olive oil as a diluent. 2 Root canal filling material will be provided.

[Structure of Invention]

40 to 60% by weight of hydroxyapatite, 10 to 30% by weight of magnesium oxide, 5 to 25% by weight of zinc oxide, based on the total weight of the first material in the curable paste material for root canal filling in the present invention,
Bismuth subcarbonate, barium sulfate, iodoform, and root powder are mixed in appropriate amounts as X-ray contrast media.

It is also possible to use tricalcium phosphate or a complex of hydroxyapatite and tricalcium phosphate instead of hydroxyapatite.

It is also possible to use calcium hydroxide instead of magnesium oxide.

On the other hand, 40 to 60% by weight of guaiacol, which constitutes the second material, 5 to 25% by weight of eucalyptol, 10 to 30% by weight of rosin, and an appropriate amount of olive oil as a diluent.

Such ingredients and blends were found to satisfy the dental physical and engineering properties of the curable adhesive material for root canal filling, that is, the curing time, film thickness, fluidity and disintegration rate, and It was determined from animal experiments that were confirmed to promote biological healing and have excellent hardening as a root canal filling material.

Next, measurement of dental science and engineering data using the adhesive material of the present invention,
Animal experiments on the inner wall of the root canal showed the following.

[Evaluation]

Dental science and engineering data (film thickness, curing time, fluidity, disintegration rate) of the paste material according to the present invention were measured according to ISO standard DIS6876, and the results shown in Table 1 were obtained.

Further, the paste according to the present invention was applied to 150 root canals of the lower anterior molar of 15 adult dogs, sacrificed 3 months later, and histopathologically searched, the results shown in Table 2 were obtained.

As is clear from Tables 1 and 2, these paste materials satisfy the dental science and engineering data, promote the biological healing of root tips, and have excellent effects as root canal filling materials. Met.

Next, examples of the present invention will be specifically described.

Example 1 First material formulation (powdered form) Hydroxyapatite 40% by weight Calcium hydroxide 30% by weight Zinc oxide 5% by weight Iodoform 25% by weight Second material formulation (liquid) guaiacol 40% by weight Eucalyptol 5% by weight Rosin 29 Weight% Olive oil 30% by weight Example 2 First material formulation (powder) 40% by weight calcium triphosphate 40% by weight Magnesium oxide 10% by weight Zinc oxide 25% by weight Bismuth subcarbonate 25% by weight Second material formulation (liquid) Guayacol 40% by weight Eucalyptol 25% by weight Rosin 25% by weight Olive oil 10% by weight Example 3 First material formulation (powder) Hydroxyapatite 45% by weight Magnesium oxide 20% by weight Zinc oxide 10% by weight Bismuth subcarbonate 25% by weight Second material formulation (Liquid) Guayacol 50% by weight Eucalyptus 15% by weight Rosin 20% by weight Olive oil 15% by weight Implemented 4 1st material prescription (powder) 50% by weight hydroxyapatite 50% magnesium oxide 30% by weight zinc oxide 5% by weight barium sulfate 15% by weight 2nd material prescription (liquid) guaiacol 50% by weight eucalyptol 5% by weight rosin 15% by weight Olive oil 30% by weight Example 5 First material formulation (powdered) Tricalcium phosphate 50% by weight Calcium hydroxide 10% by weight Zinc oxide 25% by weight Iodoform 15% by weight Second material formulation (liquid) Guayacol 50% by weight Eucalyptol 25% by weight Rosin 15% by weight Olive oil 10% by weight Example 6 First material formulation (powder) Hydroxyapatite 60% by weight Magnesium oxide 20% by weight Zinc oxide 10% by weight Bismuth subcarbonate 10% by weight Second material formulation (liquid) Guayacol 60 wt% Eucalyptol 10 wt% Rosin 10 wt% Olive oil 20 wt% Example 7 No. 1 Material prescription (powder) 30% by weight hydroxyapatite 30% by weight tribasic calcium phosphate 30% by weight Magnesium oxide 10% by weight Zinc oxide 20% by weight Bismuth subcarbonate 10% by weight Second material formulation (liquid) Guayacol 60% by weight Eucalyptol 20% by weight Rosin 10% by weight Olive oil 10% by weight [Effect of the invention] As described above, the root canal filling material according to the present invention has excellent affinity with living tissues because its main component is hydroxyapatite. Therefore, there is little tissue irritation, and when the root canal is filled, it promotes healing of the tissue around the root end, and finally closure of the root end can be expected. Also, in the case of resorption of alveolar bone, the filling material overflowing out of the root end foramen exerts an excellent effect such as healing of the portion and the role of filling the defect portion by the new bone as a filling material. . The filling material of the present invention is made by kneading the first material consisting of powder and the second material which is a liquid, and is used for root canal filling together with the gutta-perture point because hardening is completed in the oral cavity. It is also extremely useful as a sealer. In addition, by containing iodoform, barium sulfate, etc., it has an appropriate X-ray contrast property, and can provide an excellent root canal filling effect such that the state of root canal filling can be easily confirmed. .

Claims (2)

[Claims] 1. A first material comprising hydroxyapatite, magnesium oxide, zinc oxide and an X-ray contrast material,
A two-part curable paste material for root canal filling consisting of guaiacol, eucalyptol and a second material containing rosin as a main component. 2. The curable paste material for root canal filling according to claim 1, wherein the X-ray contrast material is bismuth subcarbonate, barium sulfate, silver powder, iodoform or the like.