JP2013142068A - Dental agar impression material composition having alkali treatment step - Google Patents

Dental agar impression material composition having alkali treatment step Download PDF

Info

Publication number
JP2013142068A
JP2013142068A JP2012002797A JP2012002797A JP2013142068A JP 2013142068 A JP2013142068 A JP 2013142068A JP 2012002797 A JP2012002797 A JP 2012002797A JP 2012002797 A JP2012002797 A JP 2012002797A JP 2013142068 A JP2013142068 A JP 2013142068A
Authority
JP
Japan
Prior art keywords
agar
impression material
dental
treatment step
alkali metal
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP2012002797A
Other languages
Japanese (ja)
Other versions
JP5921202B2 (en
Inventor
Rieko Aiba
理恵子 饗場
Toshio Kitamura
敏夫 北村
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shofu Inc
Original Assignee
Shofu Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shofu Inc filed Critical Shofu Inc
Priority to JP2012002797A priority Critical patent/JP5921202B2/en
Publication of JP2013142068A publication Critical patent/JP2013142068A/en
Application granted granted Critical
Publication of JP5921202B2 publication Critical patent/JP5921202B2/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Dental Preparations (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain highly-accurate impression gypsum by controlling surface roughness of gypsum when gypsum is poured into a dental agar impression material, in regard to an agar impression material to be used in a dental cavity which is used for acquisition of impression in the dental cavity.SOLUTION: An agar impression material to be used in a dental cavity is used, which is produced via an alkali treatment step for adjusting an agar impression material to be used in a dental cavity containing agar and water so as to have pH in the range of 9-11 by a hydroxide of an alkali metal, and a neutralization treatment step for adjusting pH to be in the range of 5-8 by an acidic neutralizer.

Description

本発明は、歯科口腔内の印象採得の際に使用する歯科口腔内用寒天印象材に関する。 The present invention relates to an agar impression material for use in a dental oral cavity used for taking an impression in a dental oral cavity.

歯科口腔内用寒天印象材は、熱によりゾル‐ゲル反応を繰り返す可逆性のコロイドであり、歯科治療において、補綴物を作製するために行う口腔内形状の印象採得に用いられている。 The dental agar impression material is a reversible colloid that repeats a sol-gel reaction by heat, and is used for taking an impression of the intraoral shape in order to produce a prosthesis in dental treatment.

歯科口腔内用寒天印象材は主にアルギン酸塩印象材と共に連合印象に用いられることが多く、口腔内で窩洞形成をした部分に、溶かした寒天印象材を注入し、前もってアルギン酸塩印象材を盛ったトレーを圧接し、印象を採得する。寒天印象材は、親水性であるため、細部にまできれいに流れ、正確な印象が採得できる。 Dental agar impression materials are often used together with alginate impression materials in combination impressions, and a melted agar impression material is injected into the cavity where the cavity is formed, and the alginate impression material is pre-loaded. Press the tray to make an impression. Since the agar impression material is hydrophilic, it flows cleanly to the details, and an accurate impression can be obtained.

歯科用で用いる原料寒天には、テングサやオゴノリが用いられており、口腔内でのゲル化温度の問題からテングサが主に用いられてきた。しかし、テングサは高価であることが多く、オゴノリを用いることで安価な印象材を提供できる。 Common agar and ogonyori are used as the raw material agar used for dentistry, and a common tengu has been used mainly because of the problem of gelation temperature in the oral cavity. However, Tengusa is often expensive, and it is possible to provide an inexpensive impression material by using ogonori.

寒天は均一な多糖類ではなく、少なくとも2種の多糖類の混合物であり、それらはアガロースおよびアガロペクチンと名づけられている。アガロースは中性の多糖類で、ゲル化力は強く、1,3-位で結合するα-D-ガラクトース残基と1,4-位で結合する3,6-アンヒドロ-α-L-ガラクトース残基とより成り、これらの2種の残基が交互に反復して直鎖構造をつくっている。一方、アガロペクチンは酸性多糖類で、ゲル化力は弱く、アガロース構造にさらに酸性基として硫酸基、D-グルクロン酸およびピルビン酸基が結合したものと考えられている。 Agar is not a homogeneous polysaccharide, but a mixture of at least two polysaccharides, which are named agarose and agaropectin. Agarose is a neutral polysaccharide with strong gelling power, 3,6-anhydro-α-L-galactose bound at 1,4-position and α-D-galactose residue bound at 1,3-position It consists of residues, and these two types of residues are alternately repeated to form a linear structure. On the other hand, agaropectin is an acidic polysaccharide and has a weak gelling power. It is thought that sulfate groups, D-glucuronic acid and pyruvate groups are further bound to the agarose structure as acidic groups.

オゴノリはテングサよりもアガロースの割合が少なくアガロペクチンの割合が多いため、ゲル化力が弱く、寒天として使用することは難しいとされてきた。しかし、アルカリ処理を行うことで、酸性多糖類であるアガロペクチンが除去され、アガロースの割合が増加することにより、ゲル化力が強くなり、一般に使用されるようになった。 Ogonori has a lower agarose content and higher agaropectin content than Tengusa, and thus has a weak gelling power and is difficult to use as agar. However, by performing the alkali treatment, the agaropectin, which is an acidic polysaccharide, is removed, and the ratio of agarose is increased, so that the gelling power is increased and it is generally used.

寒天には、アガロース、アガロペクチンの他にも、非凝固性糊分を含み、この成分は寒天印象材としての用途において、石こうの硬化遅延成分となり、石こうの硬化が遅れ、石こうの面あれを引き起こすという問題があった。 In addition to agarose and agaropectin, agar contains non-coagulant glue, and this component becomes a gypsum retarding component for use as an agar impression material, delays gypsum curing and causes gypsum surface roughness. There was a problem.

この問題を解決するべく、印象採得後の寒天印象材に硫酸カリウム及び硫酸亜鉛の水溶液(固定液と呼ばれる)に浸漬し、その後石こうを注入するなどの方法が提案されてきた。しかし、この方法は操作が煩雑になる上に採得した寒天印象材が水を吸水することにより、印象精度が低減するという問題があった。 In order to solve this problem, a method has been proposed in which an agar impression material after taking an impression is immersed in an aqueous solution of potassium sulfate and zinc sulfate (referred to as a fixing solution) and then gypsum is injected. However, this method has a problem that the operation is complicated and the agar impression material obtained absorbs water, thereby reducing the accuracy of the impression.

引用文献1にはタンニンを低濃度添加することでゲル強度を増加させることができると記載されているが、石こうの面性状を向上させる発明は記載されていない。 Reference 1 describes that the gel strength can be increased by adding tannin at a low concentration, but does not describe an invention for improving the surface properties of gypsum.

引用文献2にはテングサから抽出した寒天を主成分とすることで55℃以下に設定できると記載されているが、口腔内での凝固が遅くなる問題があり、石こうの面性状を向上させる発明は記載されていない。 Cited Document 2 describes that it can be set to 55 ° C. or less by using agar extracted from a common agar as a main component, but there is a problem that coagulation in the oral cavity is slow, and the invention improves the surface properties of gypsum. Is not listed.

特開平2−200625JP-A-2-200265 特開2006−182922JP 2006-182922 A

本発明は、歯科用の口腔内用寒天印象材であって、口腔内での凝固性が良く、弾力性が良く、ちぎれ難い印象材を提供でき、更に印象採得後に固定液を使用することなく、石こうの面あれを抑制し、精度の高い印象石こうを得ることである。 The present invention is a dental agar impression material for oral cavity, which can provide an impression material that is solidified in the oral cavity, has good elasticity, is difficult to tear, and uses a fixative after taking an impression. It is to suppress the gypsum surface and obtain a highly accurate impression gypsum.

本発明は、寒天、水、アルカリ金属の水酸化物を含む歯科口腔内用寒天印象材において、水で膨潤させた寒天に、アルカリ金属の水酸化物にてpH9〜11の範囲に調整するアルカリ処理工程を行い、その後、酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を経た寒天を用いることを特徴とする歯科口腔内用寒天印象材である。また、酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を行なう歯科口腔内用寒天印象材の処理方法が有益な処理工程であることを見出した。 The present invention relates to an dental agar impression material containing agar, water, and alkali metal hydroxide. The alkali is adjusted to a pH of 9 to 11 with alkali metal hydroxide on agar swollen with water. A dental agar impression material characterized by using agar that has been subjected to a treatment step and then passed through a neutralization treatment step of adjusting to a pH of 5 to 8 with an acidic neutralizer. Moreover, it discovered that the processing method of the dental agar impression material for oral cavity which performs the neutralization process process adjusted to the range of pH 5-8 with an acidic neutralizer is a useful process process.

水酸化カリウムまたは水酸化ナトリウムを少なくとも1つ以上含むアルカリ金属の水酸化物で処理することが好ましい。酸性中和剤には酸性化合物を含むが、硫酸基を有する酸性化合物を含む酸性中和剤で処理することが好ましい。 It is preferable to treat with an alkali metal hydroxide containing at least one of potassium hydroxide or sodium hydroxide. The acidic neutralizer contains an acidic compound, but it is preferable to treat with an acidic neutralizer containing an acidic compound having a sulfate group.

本発明は寒天、水を含む歯科口腔内用寒天印象材に用いる寒天の調整方法であって、水で膨潤させた寒天に、アルカリ金属の水酸化物にてpH9〜11の範囲に調整するアルカリ処理工程後に、酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を行なう歯科口腔内用寒天印象材に用いる寒天の処理方法に関する。
本発明は、寒天、水、アルカリ金属の水酸化物を含む歯科口腔内用寒天印象材に用いる寒天の調整方法であって、寒天と水を混合する膨潤工程、アルカリ金属の水酸化物にてpH9〜11の範囲に調整するアルカリ処理工程、酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を経ることにより作製される歯科口腔内用寒天印象材に用いる寒天の調整方法である。
The present invention relates to a method for adjusting agar used for an agar impression material for dental and oral cavity containing agar and water, wherein the alkali is adjusted to a pH of 9 to 11 with alkali metal hydroxide on agar swollen with water. It is related with the processing method of the agar used for the dental agar impression material which performs the neutralization process process adjusted to the range of pH 5-8 with an acidic neutralizer after a process process.
The present invention relates to a method for preparing agar used for dental agar impression material containing agar, water, and alkali metal hydroxide, comprising a swelling step of mixing agar and water, and an alkali metal hydroxide. Preparation method of agar used for dental agar impression material prepared by passing through alkali treatment step adjusted to pH 9-11 and neutralization treatment step adjusted to pH 5-8 with acidic neutralizer It is.

本発明は、寒天がオゴノリであることが好ましい。 In the present invention, the agar is preferably ogonoori.

具体的な本発明の処理方法は、寒天を15〜30℃の水中に投入し、15〜30℃の内温でpH9〜11の範囲になる様にアルカリ処理工程を行い、その後、中和処理工程にて15〜30℃の内温でpH5〜8に調整することが好ましい。 A specific treatment method of the present invention is to put agar into water at 15 to 30 ° C., perform an alkali treatment step so as to be within a pH range of 9 to 11 at an internal temperature of 15 to 30 ° C., and then perform neutralization treatment. It is preferable to adjust to pH 5 to 8 at an internal temperature of 15 to 30 ° C. in the process.

印象採得後に固定液(印象採得後の寒天印象材に硫酸カリウム及び硫酸亜鉛の水溶液)を使用することなく、石こうの面あれを抑制し、精度の高い印象石こうを得ることである。
固定液を使用することで、作業が煩雑になる上、寒天印象材が吸水し、印象精度が低減する恐れがある。しかし、印象採得後、すぐに石こうを注入できれば、印象精度の高い石こう模型を作製できる。
It is to obtain a highly accurate impression gypsum without using a fixing solution (an aqueous solution of potassium sulfate and zinc sulfate in the agar impression material after the impression is taken) after the impression is taken.
By using the fixative, the work becomes complicated, and the agar impression material absorbs water, which may reduce the impression accuracy. However, if gypsum can be injected immediately after taking an impression, a gypsum model with high impression accuracy can be produced.

また、寒天をアルカリ処理することでゲル化力が強くなり、歯科口腔内用寒天印象材を口腔内から撤去する際に、引裂強度を増すことができる。特に、寒天がオゴノリであることで口腔内での凝固性が良くなり、さらに、弾力性が良くなるため、よりちぎれ難くする効果がある。 Moreover, the gelling power is increased by treating the agar with alkali, and the tear strength can be increased when the dental agar impression material is removed from the oral cavity. In particular, since the agar is ugly, the coagulability in the oral cavity is improved, and further, the elasticity is improved, so that there is an effect of making it difficult to tear off.

本発明に用いる寒天であるが、具体的にはテングサ、オバクサ、ユイキリ、シマテングサ、ムカデノリ、オゴノリ、オゴモドキ、キリンサイ、イバラノリ、サイミ、スギノリ、イギス及びエゴノリ属から選ばれた1種以上の原藻寒天粉末であり、好ましくはオゴノリの原藻寒天粉末である。更に好ましくはゲル強度については寒天濃度1.5%で100〜10000g/cm2であるものが好ましい。融点については80〜98℃が好ましい。本発明に用いる寒天の形状は粉末であることが好ましい。粒度は100メッシュの篩下であることが好ましい。 Agar used in the present invention, specifically, one or more kinds of algae agar selected from the genus Tengusa, Obakusa, Yuikiri, Shimatengusa, Mucadenori, Ogonori, Ogomodoki, Giraffe, Ibaranori, Saimi, Suginori, Igis and Egonori It is a powder, and is preferably a primordial algae agar powder. More preferably, the gel strength is preferably 100 to 10,000 g / cm 2 at an agar concentration of 1.5%. About melting | fusing point, 80-98 degreeC is preferable. The shape of the agar used in the present invention is preferably a powder. The particle size is preferably a 100 mesh sieve.

本発明でいうアルカリ処理とは寒天を水中に投入し、アルカリ金属の水酸化物を投入することで処理することをいう。アルカリ金属の水酸化物を投入する代わりに、アルカリ金属の水酸化物を水に溶解したアルカリ水溶液を投入することは好ましい。アルカリ処理を行なう場合の寒天は粉末であることが好ましく、粒度は100メッシュの篩下であることが好ましい。寒天の水中への投入濃度は5〜10%であることが好ましい。
用いるアルカリ金属の水酸化物は水酸化リチウム、水酸化ナトリウム、水酸化カリウム、水酸化ルビジウム、水酸化セシウム、水酸化フランシウム等であり、水酸化ナトリウム、水酸化カリウムが特に好ましい。
The alkali treatment in the present invention refers to treatment by putting agar into water and adding an alkali metal hydroxide. Instead of adding an alkali metal hydroxide, it is preferable to add an aqueous alkali solution in which an alkali metal hydroxide is dissolved in water. The agar for the alkali treatment is preferably a powder, and the particle size is preferably 100-mesh screen. The concentration of agar in water is preferably 5 to 10%.
The alkali metal hydroxide used is lithium hydroxide, sodium hydroxide, potassium hydroxide, rubidium hydroxide, cesium hydroxide, francium hydroxide or the like, and sodium hydroxide and potassium hydroxide are particularly preferred.

次に、本アルカリ処理工程について更に具体的に説明する。
寒天は常温では水に溶解しないため、15〜30℃の水に精製された寒天を5〜10重量%入れ、攪拌することで寒天液を作製する。次にアルカリ水溶液をpHに注意をしながら投入し、pH9〜11に調整する。pHが11を超えると、寒天の弾力性が損なわれ、pHが9より下ではアルカリ処理の効果がでない。なお、アルカリ水溶液のpHは9〜12に調整することが望ましい。
Next, the present alkali treatment process will be described more specifically.
Since agar does not dissolve in water at room temperature, 5 to 10% by weight of purified agar is added to water at 15 to 30 ° C. and stirred to prepare an agar liquid. Next, the alkaline aqueous solution is added while paying attention to pH, and adjusted to pH 9-11. When the pH exceeds 11, the elasticity of the agar is impaired, and when the pH is lower than 9, there is no effect of alkali treatment. In addition, it is desirable to adjust pH of alkaline aqueous solution to 9-12.

次に、本アルカリ処理工程の後に、酸性中和剤を添加して処理する中和処理工程を行う。
本発明でいう中和処理とはアルカリ処理後の寒天液に、酸性中和剤を投入することで処理することをいう。酸性中和剤のpHは1〜6である。

中和処理工程に用いる酸性中和剤は酸性化合物を含むことが好ましい。酸性化合物はホウ酸、ケイ酸、リン酸、ヒ酸、硫酸、亜硫酸、ペルオキソ一硫酸、塩酸、硝酸が好ましく、特に硫酸基を有するものが好ましい。硫酸基を有する化合物は硫酸、亜硫酸、ペルオキソ一硫酸であり、硫酸が特に好ましい。
酸性中和剤を添加した際にpHが5〜8に調整することが望ましい。pHが5以下では寒天の鎖状構造が崩壊し、凝固しなくなる恐れがある。
本アルカリ処理工程の調整した後に、中和処理工程を経ることで、アルカリ金属の水酸化物と酸性中和剤にてアルカリ金属塩を生成することが好ましい。
Next, after the alkali treatment step, a neutralization treatment step is performed in which an acidic neutralizing agent is added for treatment.
The neutralization treatment as used in the present invention refers to treatment by adding an acidic neutralizer to the agar solution after the alkali treatment. The pH of the acidic neutralizer is 1-6.

The acidic neutralizing agent used in the neutralization treatment step preferably contains an acidic compound. As the acidic compound, boric acid, silicic acid, phosphoric acid, arsenic acid, sulfuric acid, sulfurous acid, peroxomonosulfuric acid, hydrochloric acid, and nitric acid are preferable, and those having a sulfate group are particularly preferable. The compound having a sulfate group is sulfuric acid, sulfurous acid or peroxomonosulfuric acid, and sulfuric acid is particularly preferable.
It is desirable to adjust the pH to 5 to 8 when the acidic neutralizer is added. If the pH is 5 or less, the chain structure of agar may collapse and not solidify.
It is preferable to produce | generate an alkali metal salt with an alkali metal hydroxide and an acidic neutralizer by adjusting through this neutralization process after adjusting this alkali treatment process.

本発明における実施例を以下に示す。本発明はこれら実施例のみに限定されるものではない。表1に示す組成の寒天印象材を以下に示す方法で調整した。
(製造方法)
イオン交換水に粉末寒天を入れ撹拌させ、アルカリ水溶液を添加し、25℃の内温でpH11の範囲に調整し、30分間撹拌した後、酸性中和剤を添加し、pH7に中和の調整をし、30分撹拌する。その後、湯煎にて撹拌しながら90℃まで昇温させ、寒天印象材を得た。ここで、アルカリ水溶液は、アルカリ金属の水酸化物を水に溶解させ1mol/L濃度に調整したものとする。また、酸性中和剤は、酸性化合物を水に溶解させ1mol/L濃度に調整したものとする。
Examples of the present invention are shown below. The present invention is not limited to these examples. An agar impression material having the composition shown in Table 1 was prepared by the following method.
(Production method)
Add powdered agar to ion-exchanged water and stir, add alkaline aqueous solution, adjust to pH 11 range at 25 ° C internal temperature, stir for 30 minutes, then add acidic neutralizer and adjust neutralization to pH 7 And stir for 30 minutes. Then, it heated up to 90 degreeC, stirring with a hot water bath, and obtained the agar impression material. Here, the alkaline aqueous solution is prepared by dissolving an alkali metal hydroxide in water to a concentration of 1 mol / L. In addition, the acidic neutralizer is prepared by dissolving an acidic compound in water and adjusting the concentration to 1 mol / L.

(物性評価)
印象材の評価は、23℃、相対湿度50%の環境下で、引裂き強さ、弾性ひずみ、細線再現性、石こうとの適合性をJIS
T 6512:2005に準拠して評価した。石こうとの適合性については、細線が再現されていても表面性状に違いがあるため、石こう面の表面粗さを表面粗さ計SURFCOM
1500SD(ACCRETECH)で測定する評価を追加した。歯科用石こう面が、表面粗さRaが3.0μm以下の場合臨床にて使用でき、特に表面粗さRaが2.0μm以下の場合臨床にてより影響が少ないことから、表面粗さRaが2.0μm以下を合否判定に用い、特に表面粗さRaが2.0μm以下ではより効果があると判断した。
表1に各実施例の組成の配合量を示し、表2に結果を示した。
(Evaluation of the physical properties)
The impression material is evaluated according to JIS for tear strength, elastic strain, fine line reproducibility, and gypsum compatibility in an environment of 23 ° C and 50% relative humidity.
Evaluation was made in accordance with T 6512: 2005. As for the compatibility with gypsum, even if fine lines are reproduced, there is a difference in the surface properties, so the surface roughness of the gypsum surface is measured by the surface roughness meter SURFCOM.
An evaluation to measure with 1500 SD (ACCRETECH) was added. Since the dental gypsum surface can be used clinically when the surface roughness Ra is 3.0 μm or less, especially when the surface roughness Ra is 2.0 μm or less, the surface roughness Ra is less affected. 2.0 μm or less was used for pass / fail judgment, and it was judged that the effect was particularly effective when the surface roughness Ra was 2.0 μm or less.
Table 1 shows the blending amounts of the compositions of the respective examples, and Table 2 shows the results.

防腐剤:パラオキシ安息香酸ブチル
顔料:酸化チタン(群青、酸化チタンの1対1(重量%)の混合物)
Antiseptic: Butyl paraoxybenzoate Pigment: Titanium oxide (mixture of ultramarine, 1 to 1 (wt%) of titanium oxide)

アルカリ処理を行うことにより、石こう面の表面粗さRaが3.0μm以下となり面あれを抑制できた。特に、中和に使用する酸性中和剤に硫酸を用いた実施例1〜3では、表面粗さRaが2.0μm以下となり、より面あれを抑制できた。更に、寒天がオゴノリの場合、弾性ひずみが大きくなり弾力性が良くなった。 By performing the alkali treatment, the surface roughness Ra of the gypsum surface was 3.0 μm or less, and surface roughness could be suppressed. In particular, in Examples 1 to 3 in which sulfuric acid was used as the acid neutralizing agent used for neutralization, the surface roughness Ra was 2.0 μm or less, and surface roughness could be further suppressed. Furthermore, when the agar was ogonoori, the elastic strain increased and the elasticity was improved.

次に、本発明に対する比較例を以下に示す。
イオン交換水に寒天を入れ撹拌させ、アルカリ水溶液を添加し、25℃の内温でpHを調整し、30分間撹拌した後、酸性中和剤を添加し、pHを調整し、30分撹拌し、その後、湯煎にて撹拌しながら90℃まで昇温させ、寒天印象材を得た。
比較例1はアルカリ処理は行わず、比較例2はアルカリ水溶液でpH8に調整し、酸性中和剤でpH7に調整するものとし、比較例3はアルカリ水溶液でpH11に調整し、酸性中和剤でpH4.5に調整するものとする。ここで、アルカリ水溶液は、アルカリ金属の水酸化物を水に溶解させ1mol/L濃度に調整したものとする。また、酸性中和剤は、酸性化合物を水に溶解させ1mol/L濃度に調整したものとする。表3に各比較例の組成の配合量を示し、表4に結果を示した。
Next, comparative examples for the present invention are shown below.
Add agar to ion-exchanged water, stir, add alkaline aqueous solution, adjust pH at 25 ° C internal temperature, stir for 30 minutes, add acidic neutralizer, adjust pH, stir for 30 minutes. Thereafter, the temperature was raised to 90 ° C. while stirring in a hot water bath to obtain an agar impression material.
Comparative Example 1 is not subjected to alkali treatment, Comparative Example 2 is adjusted to pH 8 with an aqueous alkaline solution and adjusted to pH 7 with an acidic neutralizer, and Comparative Example 3 is adjusted to pH 11 with an aqueous alkaline solution. The pH is adjusted to 4.5. Here, the alkaline aqueous solution is prepared by dissolving an alkali metal hydroxide in water to a concentration of 1 mol / L. In addition, the acidic neutralizer is prepared by dissolving an acidic compound in water and adjusting the concentration to 1 mol / L. Table 3 shows the blending amounts of the compositions of the comparative examples, and Table 4 shows the results.

アルカリ処理を行わない場合では、表面粗さRaが大きくなり、寒天印象材面に石こうの付着が多く見られた。アルカリ処理後のpHが8以下では、表面粗さRaが3.0μm以上となり十分な効果が得られなかった。中和処理後のpHが5以下では、寒天が酸の影響を受け、引裂き強さが低下し、表面粗さRaも3.0μm以上となり十分な効果が得られなかった。 In the case where the alkali treatment was not performed, the surface roughness Ra was increased, and a large amount of gypsum adhered to the surface of the agar impression material. When the pH after alkali treatment was 8 or less, the surface roughness Ra was 3.0 μm or more, and a sufficient effect was not obtained. When the pH after the neutralization treatment was 5 or less, the agar was affected by the acid, the tear strength was lowered, and the surface roughness Ra was 3.0 μm or more, so that a sufficient effect was not obtained.

本発明は、歯科口腔内の印象採得の際に使用する歯科口腔内用寒天印象材に関するものであり、産業上利用しうるものである。

The present invention relates to an agar impression material for use in a dental oral cavity that is used when taking an impression in a dental oral cavity, and can be used industrially.

Claims (5)

寒天、水、アルカリ金属塩を含む歯科口腔内用寒天印象材において、
水で膨潤させた寒天に、アルカリ金属の水酸化物にてpH9〜11の範囲に調整するアルカリ処理工程を行い、
その後、酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を経た寒天を用いることを特徴とする歯科口腔内用寒天印象材。
In dental agar impression material containing agar, water, alkali metal salt,
An agar swollen with water is subjected to an alkali treatment step of adjusting to a pH of 9 to 11 with an alkali metal hydroxide,
Then, an agar impression material for dental oral cavity characterized by using agar that has undergone a neutralization treatment step of adjusting the pH to a range of 5 to 8 with an acidic neutralizer.
請求項1記載の寒天がオゴノリであることを特徴とする歯科口腔内用寒天印象材。 2. An agar impression material for a dental oral cavity, wherein the agar according to claim 1 is ogonoori. 請求項1記載のアルカリ金属の水酸化物が水酸化カリウム及びまたは水酸化ナトリウムを少なくとも1つ以上含むことを特徴とする歯科口腔内用寒天印象材。 2. An agar impression material for dental use, wherein the alkali metal hydroxide according to claim 1 contains at least one of potassium hydroxide and / or sodium hydroxide. 請求項1記載の酸性中和剤には酸性化合物を含み、酸性化合物は硫酸基を含むことを特徴とする歯科口腔内用寒天印象材。 2. The dental agar impression material according to claim 1, wherein the acidic neutralizer contains an acidic compound, and the acidic compound contains a sulfate group. 寒天、水、アルカリ金属塩を含む歯科口腔内用寒天印象材に用いる寒天の調整方法であって、
水で膨潤させた寒天に、アルカリ金属の水酸化物にてpH9〜11の範囲に調整するアルカリ処理工程後に、
酸性中和剤にてpH5〜8の範囲に調整する中和処理工程を行なうことでアルカリ金属塩を生成する歯科口腔内用寒天印象材に用いる寒天の処理方法。
A method for adjusting agar used for a dental agar impression material containing agar, water and alkali metal salt,
After the alkali treatment step of adjusting the pH to 9 to 11 with alkali metal hydroxide on agar swollen with water,
An agar treatment method used for an agar impression material for a dental oral cavity that generates an alkali metal salt by performing a neutralization treatment step of adjusting the pH to a range of 5 to 8 with an acidic neutralizer.
JP2012002797A 2012-01-11 2012-01-11 Dental agar impression material composition having an alkali treatment step Expired - Fee Related JP5921202B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2012002797A JP5921202B2 (en) 2012-01-11 2012-01-11 Dental agar impression material composition having an alkali treatment step

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2012002797A JP5921202B2 (en) 2012-01-11 2012-01-11 Dental agar impression material composition having an alkali treatment step

Publications (2)

Publication Number Publication Date
JP2013142068A true JP2013142068A (en) 2013-07-22
JP5921202B2 JP5921202B2 (en) 2016-05-24

Family

ID=49038833

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2012002797A Expired - Fee Related JP5921202B2 (en) 2012-01-11 2012-01-11 Dental agar impression material composition having an alkali treatment step

Country Status (1)

Country Link
JP (1) JP5921202B2 (en)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4242239A (en) * 1979-06-11 1980-12-30 Warner-Lambert Bondable agar dental impression material
WO1994024222A1 (en) * 1993-04-09 1994-10-27 Hughes Thomas E Hemostatic dental impression composition and method of use

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4242239A (en) * 1979-06-11 1980-12-30 Warner-Lambert Bondable agar dental impression material
WO1994024222A1 (en) * 1993-04-09 1994-10-27 Hughes Thomas E Hemostatic dental impression composition and method of use

Also Published As

Publication number Publication date
JP5921202B2 (en) 2016-05-24

Similar Documents

Publication Publication Date Title
WO2012063618A1 (en) Alginate impression material for dental use and curing agent paste used therefor
US9125810B2 (en) Alginic acid-containing aqueous composition, dental alginate impression material, and base material for dental alginate impression material
JP2014065686A (en) Dental gypsum-based embedding material powder
Kamali et al. Effects of chitosan and zirconia on setting time, mechanical strength, and bioactivity of calcium silicate‐based cement
JP5921202B2 (en) Dental agar impression material composition having an alkali treatment step
JP5653553B1 (en) Ion sustained release gum composition
JP5937825B2 (en) Dental agar impression material composition containing alkali metal salt
JP5721401B2 (en) Dental alginate impression material and base paste used therefor
WO2015019601A1 (en) Dentinal tubule sealing material
JP2017105755A (en) Toothpaste composition
JP2013040137A (en) Dental glass ionomer cement
JP2012153633A (en) Dental alginate impression material
JP6316296B2 (en) Hardening calcium phosphate composition for bone tissue repair, bone repair material and various dental materials
AU2012396256B2 (en) Manufacturing processes for gellan gum-based fluid gels
US2234383A (en) Dental impression composition
JP2003171219A (en) Impression material
JP4210359B2 (en) Dental impression material composition
JP5653552B1 (en) Ion sustained release varnish composition
CN113520884B (en) Root canal filling paste with stable curing time and preparation method thereof
JP2014156437A (en) Dental alginate impression material
EP2912155B1 (en) Dissolvable aqueous gels with high chelant loading
JPH11209216A (en) Dental alginate impression material
JP5653555B1 (en) Two-component mixed ion sustained release mucosal preparation composition
JP6062719B2 (en) Dental alginate impression material
JP6083742B2 (en) Ivory tubule sealant kit

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20141212

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20151014

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20151124

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20160404

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20160412

R150 Certificate of patent or registration of utility model

Ref document number: 5921202

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

LAPS Cancellation because of no payment of annual fees