JP4678911B2 - Dental pretreatment composition and kit - Google Patents

Description

【００２９】
実施例１
本発明の前処理材組成物として、１０重量部の尿素（Ａ）、７７重量部の水（Ｂ）、１０重量部のクエン酸（Ｃ）および３重量部の塩化第二鉄（Ｄ）からなる歯科用前処理材組成物を調製した。本組成物は透明な均一溶液であった。
【００３０】
露出させた象牙質に対して、本発明の歯科用前処理材組成物を用いて１０秒間塗布して１０秒間水洗後、乾かさないようキムワイプで軽く表面の水を拭う程度の湿潤状態を保ち、直ちにＥＧボンド（サンメディカル（株）製）のボンディングエージェントを２回続けて塗布した。軽くエアブローした後、クイックライト（ＶＬ−１、クラレ製（株））を用いて３０秒間可視光を照射した。さらに、コンポジットレジンとしてメタフィルＣ（サンメディカル製）を築盛して硬化させた後、作製した試料を２４時間水中浸漬した。例えば、日本歯科保存学雑誌、４２巻３号、５２９−５３５頁（１９９９）に記載されている微小引張り試験を行って接着強度を測定した。その結果、微小引張り接着強さは１５ＭＰａと良好な接着強度であった。
辺縁封鎖率は約８０％と良好であった。
【００３１】
比較例１
実施例１で本発明の前処理材組成物を適用しなかった場合、引張り試験のためのサンプルが作成できないほど接着強さは低かった。
【００３２】
比較例２
実施例１の本発明の前処理材組成物の代わりに、上述した雑誌に記載された３％の塩化第二鉄を含む１０％クエン酸水溶液の前処理材を用いた場合は１０ＭＰａであり、辺縁封鎖率は約７０％であった。
【００３３】
実施例２
実施例１に記載した本発明の歯科用前処理材組成物を用いて、露出させた象牙質に対して１０秒間塗布して１０秒間水洗後、エアブローによって乾燥した。直ちにスーパーボンドＣ＆Ｂ（サンメディカル（株）製）を用いて１ｃｍ×１ｃｍ×１ｃｍのアクリル立方体を接着した。室温に約３０分間静置後に２４時間水中浸漬した。
微小引張り試験を行って接着強度を測定した結果、微小引張り接着強さは２８ＭＰａと良好な接着強度であり、辺縁封鎖率は１００％であった。
【００３４】
比較例３
実施例２の本発明の前処理材組成物の代わりに、上述した雑誌に記載された３％の塩化第二鉄を含む１０％クエン酸水溶液の前処理材を用いた場合は１７ＭＰａであったが、辺縁封鎖率は１００％であった。
【００３５】
【発明の効果】
本発明によれば、ウ蝕歯質（虫歯）および／または、ウ蝕によって変質した歯質、すなわち、ウ蝕をもたらす細菌の存在する歯質に対して適用できそして歯質と修復材料を接着させる接着材の接着強さや辺縁封鎖性を高める効果を有する前処理材組成物並びにこの前処理材組成物を含むキットが提供される。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pretreatment material composition that can be applied to caries tooth (caries portion) and / or a tooth that has been altered by caries present around the carious tooth to improve adhesion. More specifically, an adhesive that can be applied to carious tooth (cavities) and / or tooth modified by caries, that is, a tooth in which bacteria that cause caries are present, and adheres the tooth to the restorative material. The present invention relates to a pretreatment material composition having an effect of increasing the adhesive strength and marginal sealing property of the present invention and a kit containing this pretreatment material composition.
[0002]
[Prior art]
In general, caries are histologically classified into enamel caries, dentin caries, and cementitious caries, and dentin caries progress faster than enamel caries. Many caries lead to dentin, and caries that recur after treatment (secondary caries) also arise from the dentin part exposed during the treatment.
[0003]
Dentin carious lesions are generally classified histologically from the surface layer to the deep layer into a softening layer, a decalcification layer, a precursor layer, a turbid layer, a transparent layer, and a living reaction layer (new dental hygienist textbook disease) Science, edited by National Dental Hygienist Education Council, see Medical and Dental Publishing Co., Ltd.).
To repair carious teeth (single teeth), remove the part infected with bacteria (existing bacteria), the precursor layer in the above classification, and use artificial restoration materials to make up the lost tooth substance. It is said that it is ideal to fill the hole and prevent bacterial infection again.
[0004]
When the adhesion between the tooth and the restorative material was inadequate, not only the infected tooth part but also other healthy parts should be physically maintained so that the artificial restorative material does not fall off and come off. A lot of teeth have been cut. In some cases, the healthy tooth was cut and removed in excess of the removal amount of the infected tooth part, which was far from the ideal caries repair. Recently, it has been pointed out that such a treatment method may cause a decrease in tooth strength and a decrease in pulp (nerve) activity, which may be caused by excessive tooth removal. In addition, it is extremely difficult to implement the idea of removing the tooth structure until it reaches the healthy tooth structure, and the changes in the tooth structure from the softened carious portion to the healthy tooth structure are diverse. For this reason, it is extremely difficult for the surgeon to determine which depth or which part is removed. This problem is proposed as an extremely effective method for removing a carious portion based on the degree of staining of the carious portion, which is proposed in Japanese Examined Patent Publication No. 56-48490, for example. ing. This was expected to prevent recurrence (secondary caries) from the advantage of not simply repairing carious teeth but leaving behind carious parts infected with bacteria. However, the occurrence of secondary caries was not suppressed even when treatment was performed using the caries detection solution to remove the infected tooth. This can be caused by reducing the activity of the pulp or reducing the physical strength of the tooth even after cutting to a healthy tooth, and creating a gap between the tooth and the restoration, causing bacteria to invade. And so on. On the other hand, it was reported that even if it was not cut to a healthy tooth, it was difficult to become secondary caries if the number of existing bacteria was reduced and new invasion was prevented.
[0005]
In recent years, a large number of materials that firmly bond a tooth and a restorative material without gaps have been proposed and applied to treatment, and the amount of cutting of a healthy tooth has been remarkably reduced. Furthermore, since dental caries is caused by bacterial infection in the tooth tissue, it is essential to remove the infected part by cutting to a healthy tooth, so the infected tooth is not completely removed. New ideas such as “Shield Restoration” have been proposed, in which it is possible to prevent recurrence by suppressing new intrusions and proliferation without it. The idea is that even if there is a slight amount of bacteria in the tooth, it can be tightly bonded without any gaps to contain the bacteria and prevent new invasion and proliferation. In this case, the vitality of the dental pulp is not reduced or removed, and the physical strength of the tooth is not lost.
[0006]
[Problems to be solved by the invention]
The present inventor expects that the amount of cutting of the tooth will be extremely small if it adheres firmly to the tooth with a small number of bacteria without gaps, so that the physical strength of the tooth will not be lost and the life of the tooth will be extended. The inventors have sought for suitable pretreatment materials, treatment methods, and adhesive materials using various adhesive materials for the tooth structure (pioneer fungus layer) that is lightly stained with the caries detection liquid. As a result, it was found that the adhesive strength of the dentin in the precursor layer was remarkably lower than that of the healthy tooth, and the marginal sealing ability was not sufficient.
If high adhesion performance can be imparted even to the precursor fungus layer that is lightly stained with the caries detection solution, the strength of the teeth and the secondary caries are reduced by leaving more teeth without forcibly removing the healthy teeth. The present inventors have conducted research on the idea that it is possible to suppress the occurrence of this, and have reached the present invention. That is, this invention pays attention to solving the problem that adhesive strength will fall remarkably when an adhesive is applied leaving a precursor fungus layer.
[0007]
Studies to solve such problems include, for example, a pretreatment method using urea as a protein solubilizer and an alkali treatment such as hypochlorous acid as "adhesion to carious dentin-self-etching method". Comparison with the wet bonding method ”Dental Diamond, Vol. 24, No. 11, pp. 80-82, August 1999 (Dental Diamond Co., Ltd.) Not obtained.
In addition, the root canal cleaning agent containing EDTA and urea peroxide is sold under the product name “RC prep”, but it is intended for cleaning the root canal. The adhesive performance was not improved.
[0008]
[Means for Solving the Problems]
The reason why the adhesion in the precursor layer is insufficient compared to the healthy tooth to solve the problem that sufficient adhesive force could not be obtained unless it was cut and adhered to the healthy tooth It was investigated. As a result, the diffusion of the adhesive component, which is said to be important for bonding, is reduced, and the mud-like structure with low mechanical strength is present on the outermost surface layer where the precursor fungus layer is exposed. As a result, the present inventors have found that there is a need to improve the surface of the tooth covered with the mud-like structure to an effective state for adhesion.
[0009]
The pretreatment method using urea and the method using a protein solubilizer by alkali treatment such as hypochlorous acid are described in the above-mentioned magazine (Dental Diamond). Is not obtained. In addition, in order to make the tooth surface covered with the mud-like structure suitable for adhesion, the mud-like structure existing on the outermost layer that exposes the precursor layer that is lightly stained with the caries detection liquid is denatured. Since it is a mixture with calcium compounds such as hydroxyapatite as well as dentinal collagen, it has a function for removing and / or modifying dentin collagen and a function for removing and / or modifying hydroxyapatite. At the same time, it has been determined that the combined properties are necessary, and the dental pretreatment material composition of the present invention has been invented. That is, the present invention
(A) a compound capable of dissolving or degrading protein or collagen, and at least one urea compound selected from the group consisting of urea and urea phosphate;
(B) At least one compound selected from the group consisting of an acidic compound (b1) and a chelate compound (b2), which is a compound capable of decalcifying teeth, wherein the acidic compound (b1) is phosphoric acid, hydrochloric acid, nitric acid , Sulfuric acid, formic acid, acetic acid, (mono, di or tri) chloroacetic acid, propionic acid, α-chloropropionic acid, oxalic acid, citric acid, malonic acid, maleic acid, fumaric acid, phenol or poly (meth) acrylic acid And the chelate compound (b2) is ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, or a metal salt, ammonium salt or amine salt of ethylenediaminetetraacetic acid or diethylenetriaminepentaacetic acid,
(C) water and / or water-miscible organic solvent and
(D) A dental pretreatment material composition comprising ferric chloride .
[0010]
Moreover, according to this invention, the kit of the dental pretreatment material composition of this invention is provided similarly.
The dental pretreatment material composition of the present invention is preferably in the form of a liquid or gel that can be easily applied to the tooth structure from the intended purpose and application.
As one of the compounds constituting the composition of the present invention, (A) a compound capable of dissolving or degrading protein or collagen is used. The component (A) has an action capable of dissolving or degrading protein or collagen in the tooth.
As the component (A) in the present invention is a urea compound.
[0011]
The urea compounds, urea and urea phosphate is used. These compounds may be used singly, or two or pair together.
[0013]
In the present invention, the component (B) is a compound that can decalcify the tooth substance. The component (B) is an etching material component, and is an acidic compound (b1) and a chelate compound (b2). Acidic compound (b 1) is phosphoric acid, hydrochloric acid, nitric acid, sulfuric acid, ants acid, acetic acid, (mono, di or tri) chloroacetic acid, propionic acid, alpha-chloropropionic acid, oxalic acid, citric acid, malonic acid, maleic acid, fumaric acid, phenol or poly (meth) acrylic acid (hereinafter, described as a general term for acrylic acid and methacrylic acid) Ru der.
[0014]
Further, a chelate compound (b 2) is d ethylenediamine tetraacetate, metal salts of diethylenetriaminepentaacetic acid and ethylenediaminetetraacetic acid or diethylenetriaminepentaacetic acid, Ru ammonium salts and amine Shiodea. These components (B) can be used alone or in combination of two or more.
[0015]
Component (C) of the present invention is water and / or a water-miscible organic solvent. The component (C) can be preferably used for forming a liquid or gel necessary for application to the tooth. Here, as a component that can be used for forming a liquid or gel, a solvent capable of dissolving or dispersing the component (A) and the component (B) is preferable. Specific examples include water such as distilled water, ion exchange water, purified water, and physiological saline, and particularly, distilled water, purified water, and ion exchange water are preferably used. In addition, redox water prepared by electrolysis, such as strongly acidic water or strong alkaline water, can be used. Further, as the water-miscible organic solvent, a solvent that can dissolve 30% by weight or more of water at 37 ° C., more preferably 50% by weight or more, and particularly preferably a solvent that can be mixed and / or dissolved in an arbitrary ratio with water. . Further, the solvent is a liquid having a boiling point at room temperature of 180 ° C. or lower, preferably 150 ° C. or lower, and most preferably 100 ° C. or lower. Specific examples of the organic solvent include alcohols such as methanol, ethanol and propanol; ethers such as tetrahydrofuran (THF); ketones such as acetone and methyl ethyl ketone; N, N-dimethyl sulfoxide (DMSO) and the like. Sulphoxides; amides such as N, N-dimethylformamide (DMF); higher alcohols such as ethylene glycol, propylene glycol, and glycerol. Of these, alcohols such as ethanol and propanol, acetone, THF, DMSO, and the like are preferable in consideration of safety to the living body. The above water-miscible organic solvents can be used alone or in combination of two or more.
[0016]
The compounding amount of the components (A) to (C) in the pretreatment material composition of the present invention can be arbitrarily selected. The component (A) is usually 0.01 to 99.9 parts by weight, preferably 0.05 to 90 parts by weight, more preferably 100 parts by weight in total of the components (A), (B) and (C). Is used in the range of 0.1 to 70 parts by weight. (B) A component is 0.01-70 weight part on the same reference | standard, More preferably, it is 0.05-50 weight part, More preferably, it is the range of 0.1-30 weight part. The component (C) is similarly in the range of 0.09 to 99.98 parts by weight, preferably 0.5 to 99.9 parts by weight, and more preferably 1 to 99.8 parts by weight on the same basis.
[0017]
The need for Te present invention odor component (D) is ferric chloride. Although the role and function of component (D) have not yet been clarified, it is assumed that the role of component (A) or component (B) balances the functions of component (A) and component (B) and is advantageous for adhesion. Tei Ru.
[0018]
The iron ion concentration in the tooth surface treatment material is usually in the range of 1 ppm to 50% by weight. Ferric chloride (D) is usually 0.0001 to 50 parts by weight, preferably 0.0005 to 40 parts by weight based on 100 parts by weight of the total of component (A), component (B) and component (C). It is blended in the range of parts by weight, more preferably 0.001 to 30 parts by weight.
[0019]
The pretreatment material composition of the present invention can further contain a dye (E). Here, examples of the component (E) include dyes or pigments that selectively stain the softening layer, the decalcification layer, and the precursor layer. The component (E) is preferably one that does not lose color even after being washed with water for a short time, for example, within about 1 minute, after the composition containing it is applied to the dentin. The hue of the component (E) is preferably a hue that can be clearly distinguished from the tooth substance, for example, red, blue, black, dark blue, purple, and green. Specifically, Phloxine BK, Acid Red, Fast Acid Magenta, Phloxine B, Fast Green FCF, Rhodamine B, Basic Fuchsin, Acid Fuchsin, Eosin, Ethysine, Safranine, Rose Bengal, Bemel, Gentian Purple, Copper Chlorophyll Soda, Examples include lacaic acid, cochineal, and perilla. These dyes can be used alone or in combination of two or more.
[0020]
The component (E) is usually from 0.001 to 10 parts by weight, preferably 0 with respect to 100 parts by weight of the pretreatment material composition comprising the components (A) , (B), (C) and (D). 0.005 to 5 parts by weight, more preferably 0.01 to 3 parts by weight is added and used.
[0021]
The pretreatment material composition of the present invention can be further blended with a viscosity modifier for mainly adjusting the viscosity. The viscosity modifier is usually called a thickener because it is used to increase the viscosity. It is preferable that the viscosity modifier is usually used simultaneously with the component (C). Examples of the organic thickener include water-soluble polymer compounds such as polyvinyl pyrrolidone, carboxymethyl cellulose, polyvinyl alcohol, polyethylene glycol, and propylene glycol. Examples of the inorganic thickener include fine powder silica and fine powder alumina. And fine powder inorganic compounds such as fine powder zirconia. Any of these viscosity modifier compounds can be used alone or in combination of two or more.
[0022]
The viscosity modifier is usually blended in the range of 0.1 to 100 parts by weight, preferably 0.5 to 80 parts by weight, and more preferably 1 to 60 parts by weight with respect to 100 parts by weight of the pretreatment material composition. .
[0023]
The pretreatment material composition of the present invention can be stored by mixing the components into one or by dividing them depending on applications and purposes, and can also be used as a kit. As a method of dividing, each component can be divided into 2 to 3 containers in any combination. An example of a kit composed of divided or divided containers is as follows. The division method of the present invention is not limited by these examples.
(1) Number of containers 1: containers (V1) containing components (A) to (D),
(2) Number of containers 2: container (V21) of composition containing component (D) and container (V22) of composition containing components (A) to (C),
(3) Number of containers 2: container (V23) of composition containing component (A) and container (V24) of composition containing components (B) to (D),
(4) Number of containers 2: container (V25) of composition containing components (A) and (B) and container (V26) of composition of components (C) and (D),
(5) Number of containers 2: container (V27) of composition containing components (A) to (C) and container (V28) containing component (D),
(6) Number of containers 3: container (V31) containing component (A), container (V32) of composition containing components (B) and (C), and container (V33) of composition containing component (D),
The method of use of the present invention is to apply directly to the carious portion to facilitate the removal of the tooth structure affected by carious bacteria, and to apply a softening layer and a demineralized layer with a cutting tool such as a dental knife or a rotating turbine. Examples thereof include a method of removing, or a method of applying the pretreatment material of the present invention by previously removing the softening layer and the decalcification layer by using a cutting tool such as a dental knife or a rotating turbine to expose the precursor layer. In the latter case, the excess liquid can be blown off by air blow as it is after application, or it can be washed off with water. Further, a method of adhering an artificial repair material by applying a primer or an adhesive can be mentioned. Since there are many variations in the presence of bacteria in the precursor fungus layer, it is preferable to remove part or most of the precursor fungus layer. It is preferable to make a judgment in consideration of the force, the distance to the pulp cavity and the physical strength of the tooth.
[0024]
At that time, the pretreatment material composition of the present invention is mechanically or chemically removed while staining the tooth substance in which carious bacteria are present with the composition containing the component (D), and immediately before applying the adhesive. By applying sequentially or simultaneously with the composition containing the components (A) to (D), which may be divided, they can be prepared in situ and used for pretreatment.
In addition, the pretreatment material composition of the present invention is prepared on the spot by directly or sequentially contacting the components (A) to (E) with the carious portion, and is mechanically or chemically prepared for caries or dentin. It can be used to remove tooth tissue in which carious bacteria are present. Thereafter, a method of applying an adhesive to the removed portion or a kit suitable for the method is provided by the present invention.
[0025]
The jig | tool used when apply | coating the component which contains at least 1 type of (A)-(E) component which comprises the pretreatment material composition of this invention, for example, a sponge pellet, a cotton ball, It can also be contained in advance in brushes, felts, and the like. By dividing the components by this method, labor and time for mixing the divided components can be shortened, and long-term storage can be performed without impairing the function and purpose of the pretreatment material composition. Although there is no restriction | limiting in particular in the component contained in the jig | tool used when apply | coating, For example, in the means of (2)-(6) illustrated by the division | segmentation method of this invention mentioned above, at least 1 divided | segmented into the container The composition can be contained in a jig.
[0026]
ADVANTAGE OF THE INVENTION According to this invention, not only the adhesive force to healthy dentin but the adhesive force to a precursor microbe layer can be strengthened more, Therefore, the pretreatment material composition of this invention is provided.
Although there is no restriction | limiting in particular in the curable composition (adhesive material) used in combination with the dental pretreatment material composition of this invention, For example, visible light sensitizers, such as camphorquinone and acylphosphine oxide, and a styryl group ( Visible light curable composition comprising a radical polymerizable monomer such as (meth) acrylate, organic boron compound containing boron in the molecule, organic peroxide radical polymerization initiator such as benzoyl peroxide, inorganic such as potassium persulfate Examples thereof include a curable composition containing a redox polymerization initiator using an inorganic or organic sulfur compound such as peroxide, sodium sulfite or sodium sulfinate, and a radical polymerization monomer. The curable composition may contain a volatile organic solvent such as acetone or ethanol, or a filler such as silica, zirconia, or an aluminosilicate glass organic composite filler.
EXAMPLES The dental pretreatment material composition and kit thereof according to the present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples.
[0027]
【Example】
(Preparation of adhesion surface of natural carious dentin)
Immediately after removal of human molars with moderate occlusal surface dentin caries until dentin is stained with caries detection solution (Kuraray Co., Ltd.) corresponding to the pink to light pink color corresponding to the precursor layer After removing with a dental diamond point, the surface was polished under water injection using a rotary polishing device (Ecomet 3, manufactured by Buehler Co., Ltd.) and water-resistant emery paper # 600.
(Evaluation of marginal sealability to carious dentin)
A specimen that has been immersed in water for 24 hours is bonded perpendicularly to the bonding interface with a low-speed diamond cutter (Isomet, manufactured by Buehler Co., Ltd.) to produce a test piece with a thickness of about 1 mm. did. The cut surface was carefully polished to water-resistant abrasive paper # 2000 under water injection, dried at room temperature for 1 day, and the bonding state of the adhesive interface was observed with a stereomicroscope, an optical microscope or a scanning electron microscope (SEM). Of the interface bonded to pink to light pink dentin, except for the length determined to be crack or peeling, the ratio of the bonded without gap was calculated by the following formula.
[0028]
[Expression 1]

[0029]
Example 1
As a pretreatment material composition of the present invention, 10 parts by weight of urea (A), 77 parts by weight of water (B), 10 parts by weight of citric acid (C) and 3 parts by weight of ferric chloride (D). The following dental pretreatment material composition was prepared. The composition was a clear homogeneous solution.
[0030]
For the exposed dentin, apply the dental pretreatment material composition of the present invention for 10 seconds, wash with water for 10 seconds, and then keep the wet state so that the surface water is gently wiped with Kimwipe so as not to dry, Immediately thereafter, a bonding agent of EG Bond (manufactured by Sun Medical Co., Ltd.) was applied twice in succession. After lightly air blowing, visible light was irradiated for 30 seconds using a quick light (VL-1, manufactured by Kuraray Co., Ltd.). Further, after metafil C (manufactured by Sun Medical) was built and cured as a composite resin, the prepared sample was immersed in water for 24 hours. For example, the adhesion strength was measured by performing a micro-tension test described in Japanese Dental Preservation Journal, Vol. 42, No. 3, pp. 529-535 (1999). As a result, the fine tensile bond strength was 15 MPa, which was a good bond strength.
The marginal blockage was as good as about 80%.
[0031]
Comparative Example 1
When the pretreatment material composition of the present invention was not applied in Example 1, the adhesive strength was so low that a sample for a tensile test could not be prepared.
[0032]
Comparative Example 2
In place of the pretreatment material composition of the present invention of Example 1, the pretreatment material of 10% aqueous citric acid solution containing 3% ferric chloride described in the above-mentioned magazine is 10 MPa, The marginal blockage was about 70%.
[0033]
Example 2
Using the dental pretreatment material composition of the present invention described in Example 1, it was applied to the exposed dentin for 10 seconds, washed with water for 10 seconds, and then dried by air blow. Immediately, an acrylic cube of 1 cm × 1 cm × 1 cm was bonded using Super Bond C & B (manufactured by Sun Medical Co., Ltd.). After standing at room temperature for about 30 minutes, it was immersed in water for 24 hours.
As a result of measuring the adhesive strength by performing a micro tensile test, the micro tensile adhesive strength was 28 MPa, which was a good adhesive strength, and the marginal blocking rate was 100%.
[0034]
Comparative Example 3
When the pretreatment material of 10% citric acid aqueous solution containing 3% ferric chloride described in the above-mentioned magazine was used instead of the pretreatment material composition of the present invention of Example 2, it was 17 MPa. However, the marginal blockage was 100%.
[0035]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, it can apply to a caries tooth (caries) and / or a tooth quality modified by caries, that is, a tooth in which bacteria causing caries are present, and bonds the tooth and the restoration material. Provided are a pretreatment material composition having an effect of increasing the adhesive strength and edge sealing property of an adhesive material, and a kit containing the pretreatment material composition.

Claims (4)

(A) a compound capable of dissolving or degrading protein or collagen, and at least one urea compound selected from the group consisting of urea and urea phosphate;
(B) At least one compound selected from the group consisting of an acidic compound (b1) and a chelate compound (b2), which is a compound capable of decalcifying teeth, wherein the acidic compound (b1) is phosphoric acid, hydrochloric acid, nitric acid , Sulfuric acid, formic acid, acetic acid, (mono, di or tri) chloroacetic acid, propionic acid, α-chloropropionic acid, oxalic acid, citric acid, malonic acid, maleic acid, fumaric acid, phenol or poly (meth) acrylic acid And the chelate compound (b2) is ethylenediaminetetraacetic acid, diethylenetriaminepentaacetic acid, or a metal salt, ammonium salt or amine salt of ethylenediaminetetraacetic acid or diethylenetriaminepentaacetic acid,
(C) water and / or water-miscible organic solvent and
(D) A dental pretreatment material composition comprising ferric chloride . (B) component, dental pretreatment material composition according to claim 1 is citric acid. (E) Any of the dental pretreatment material composition according to claim 1-2, further comprising a dye. The dental pretreatment material composition according to any one of claims 1 to 3 , wherein all components of the composition are contained in one container.