Preparation method of tooth gel, tooth paste and tooth gel with remineralization capability
阅读说明:本技术 一种具有再矿化能力的牙啫喱、牙贴及牙啫喱的制备方法 (Preparation method of tooth gel, tooth paste and tooth gel with remineralization capability ) 是由 陈晓婧 李莉莎 刘欧胜 周君男 陈楚潇 于 2021-09-28 设计创作,主要内容包括:本发明公开了一种具有再矿化能力的牙啫喱、牙贴及牙啫喱的制备方法,牙啫喱包括以下质量含量的原料组分:有效成为1-35%、增稠剂为20-60%、溶剂为20-70%、固体分散剂为5-25%、香精为0.1-0.8%、甜味剂0.1-1.0%、pH调节剂为0.1-1.0%;有效成分的制备原料包括磷酸钙盐和/或生物活性玻璃;牙贴包括三层结构:防粘衬里、牙胶层和剥离背衬层,防粘衬里和牙胶层的一面粘连,牙胶层的另一面和剥离背衬层粘连,牙胶层为牙啫喱。本发明产品具有方便携带及使用,具有脱敏、再矿化、抗菌、防龋和美白等作用,对口腔疾病的预防和治疗具有重要的作用及意义,对口腔软组织的刺激性小或无刺激性。(The invention discloses a tooth gel with remineralization capability, a tooth paste and a preparation method of the tooth gel, wherein the tooth gel comprises the following raw material components in percentage by mass: effective components of 1-35%, thickener 20-60%, solvent 20-70%, solid dispersant 5-25%, essence 0.1-0.8%, sweetener 0.1-1.0%, and pH regulator 0.1-1.0%; the raw materials for preparing the effective components comprise calcium phosphate salt and/or bioactive glass; the tooth paste comprises a three-layer structure: the tooth-paste adhesive comprises an anti-sticking liner, a tooth-paste layer and a stripping back lining layer, wherein the anti-sticking liner is adhered to one surface of the tooth-paste layer, the other surface of the tooth-paste layer is adhered to the stripping back lining layer, and the tooth-paste layer is tooth gel. The product of the invention is convenient to carry and use, has the functions of desensitization, remineralization, antibiosis, caries prevention, whitening and the like, has important function and significance for preventing and treating oral diseases, and has little or no irritation to oral soft tissues.)
1. A dental gel having remineralization ability, characterized in that: the material comprises the following raw material components by mass:
the raw materials for preparing the active ingredients comprise calcium phosphate salt and/or bioactive glass, and the raw materials are mixed in any proportion.
2. Dental gel with remineralization ability according to claim 1, characterized in that: the calcium phosphate salt is one or more of amorphous calcium phosphate, casein phosphopeptide calcium phosphate complex, brushite, octacalcium phosphate, beta-tricalcium phosphate and apatite-like, and is in any proportion when mixed; wherein the apatite-like substance is one or more of hydroxyapatite, fluorapatite, chlorapatite and composite apatite.
3. Dental gel with remineralization ability according to claim 1, characterized in that:
the raw material component of the bioactive glass comprises SiO2、P2O5And is selected from Li2O、Na2O、CaO、SrO、MgO、SnO、K2O、CaF2、SrF2、SrCl2、NaF、LaF3、KF、CaCl2、LaCl3、KCl、MgCl2One or more of CuO, ZnO, and P2O5The content in the bioactive glass component is more than 2.0mol percent;
and when metal fluoride is present, the total content of metal fluoride in the bioactive glass component is less than 9.3 mol%;
and the content of the components of the bioactive glass raw material enables the network connectivity NC of the bioactive glass to meet the following conditions: NC is more than or equal to 1.5 and less than or equal to 3.2, wherein the calculation formula of NC is as follows: in the formula:is SiO in medical bioactive glass2The molar percentage of (A); mMOIs the mol percentage content of the alkaline earth metal oxide in the medical bioactive glass;is the mol percentage content of alkali metal oxide in the medical bioactive glass;is P in medical bioactive glass2O5The molar percentage of (A);
the bioactive glass is prepared by a high-temperature melting and cold quenching method.
4. Dental gel with remineralization ability according to claim 3, characterized in that: when the raw material components of the bioactive glass contain at least one of functional metal oxides SnO, CuO and ZnO, the content of each functional metal oxide in the bioactive glass componentAre all less than 5.0mol percent; and in the bioactive glass component P2O5The content of (A) is more than 3.5 mol%;
and when metal fluoride is present, the total content of metal fluoride in the bioactive glass component is less than 6.0 mol%;
and the content of the bioactive glass raw material components meets the following requirements: NC is more than or equal to 1.5 and less than or equal to 2.4.
5. Dental gel with remineralization ability according to claim 1, characterized in that: the raw materials for preparing the effective components also comprise one or more of desensitizer, whitening agent, antibacterial agent and anticarious component.
6. Dental gel with remineralization ability according to claim 5, characterized in that:
the desensitizer is one or more of potassium nitrate, oxalic acid, calcium oxalate, tea polyphenol, catechol, linoleic acid glyceride and oleic acid glyceride in any proportion when mixed;
the whitening agent is one or more of carbamide peroxide, hydrogen peroxide and sodium hypochlorite, and is in any proportion when mixed;
the antibacterial agent is one or more of compounds or compounds capable of releasing silver ions, copper ions, strontium ions, cobalt ions and zinc ions, and is in any proportion when mixed;
the anticarious component is one or more of fluorine-containing bioactive glass capable of releasing fluorine ions and soluble fluoride such as sodium fluoride, potassium fluoride, fluorine-containing ammonium salt, sodium monofluorophosphate, lanthanum fluoride and the like, and is in any proportion when mixed.
7. Dental gel with remineralization ability according to claim 1, characterized in that:
the thickening agent is one or more selected from sodium polyacrylate, cellulose, N-vinyl amide polymers, carbomer, sodium alginate, gelatin and the like, and is in any proportion when mixed;
the solvent is selected from glycerol, absolute ethanol and water, and is in any proportion when mixed;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the essence is selected from essence such as menthol;
the pH regulator is selected from NaOH, KOH and NaHCO3Or H3PO4One kind of (1).
8. A tooth paste with remineralization capability is characterized by comprising three layers of structures: the tooth paste comprises an anti-sticking liner, a tooth paste layer and a stripping back lining layer, wherein one surface of the anti-sticking liner is adhered to one surface of the tooth paste layer, and the other surface of the tooth paste layer is adhered to the stripping back lining layer; the tooth gel layer is the tooth gel with the remineralization ability of any one of claims 1-7, and the thickness of the tooth gel layer is 100-300 um;
the release liner is selected from one of a polymer, a fabric or a film having a layer of gum adhered to one side and a release treatment on the other side to avoid bonding the lips;
the stripping back layer is one selected from PET sheet, foil, plastic sheet or paper.
9. The process for preparing a dental jelly having remineralizing power according to any one of claims 1 to 7, wherein: the method comprises the following steps:
1) accurately weighing various raw materials according to a formula;
2) adding the thickening agent, the solid dispersing agent and the effective components into a solvent, and homogenizing and emulsifying to obtain uniformly dispersed and completely mixed and dissolved materials;
3) keeping the temperature of the material obtained in the step 2) at 60 ℃, adding a stabilizer, essence and a sweetener, and uniformly stirring;
4) slowly adding a pH regulator into the material obtained in the step 3), and uniformly stirring;
5) standing the material obtained in the step 4) for 24 hours to obtain the tooth gel with the remineralization capability.
10. The method for preparing dental jelly having remineralization ability according to claim 9, wherein: uniformly stirring in the step 3), wherein the rotating speed of the stirrer is set to be 25-35rpm, and stirring is carried out for 10 minutes;
in the step 4), when the temperature of the material obtained in the step 3) is reduced to 40-45 ℃, a whitening agent is added to prepare the whitening tooth gel or the tooth paste.
And 4) uniformly stirring, namely setting the rotating speed of the stirrer to be 15-25rpm, and stirring until the stirring is uniform.
Technical Field
The invention belongs to the technical field of oral health and bionic biomaterial engineering technology (biomineralization), and particularly relates to a tooth gel, a tooth paste and a preparation method of the tooth gel with remineralization capability.
Background
Oral health is an important part of whole body health, however, caries, periodontal diseases, dentine sensitivity and the like are still global high-incidence oral diseases at present, and the quality of life of people is seriously influenced. The degree of these oral diseases gradually progresses with time, and the progress of the diseases is expected to be blocked by remineralization of dental tissues, and damaged teeth are repaired.
In addition, with the increasing living standard of people, the aesthetic consciousness of the oral cavity of people is stronger and more important to the tooth beauty. Tooth whitening is one of the currently popular cosmetic methods of tooth whitening, and is mainly achieved by chemical bleaching and masked whitening. The chemical bleaching mainly comprises the modes of cold light whitening, denture type whitening, tooth paste whitening, gargle whitening, tooth inner seal medicine whitening and the like.
Among them, denture type whitening and tooth paste whitening are the most widely used household whitening modes at present, and tooth paste whitening is more convenient and more common and is cheaper than denture type whitening.
The construction of whitening strips generally comprises: a plastic film layer, a gel layer, and a release backing layer. The gel layer contains teeth whitening functional substance, and is closely connected with the plastic film layer, when in use, the stripping back lining layer is torn off, one side with the gel layer is well pasted on the surface of the teeth, the tooth paste is adjusted by slightly pressing with fingers to be completely pasted on the surface of the teeth, and after use, the tooth paste is taken out of the teeth and discarded. The whitening tooth paste is favored by consumers due to the advantages of convenient carrying, simple use, low price and the like. For example, the Chinese patent application CN202011233081.1 is a dissolvable oral whitening biological film tooth paste, which comprises the following components in parts by weight: the tooth paste adopts the phthalimido peroxy caproic acid as an oxidant, and has excellent whitening effect; the film carrier of the tooth paste is prepared from polyvinylpyrrolidone and hydroxypropyl cellulose, can be dissolved in the oral cavity, and is convenient to use and environment-friendly. Also, for example, chinese patent application CN201710548647.1 is a whitening tooth paste containing silver-loaded activated carbon, which comprises a three-layer structure, wherein the first layer is a soft plastic film, the second layer is a whitening antibacterial gel, and the third layer is a stripping backing layer; when in use, the soft plastic film and the whitening antibacterial gel are torn off from the stripping back lining layer and then adhered to the tooth surface. The whitening antibacterial gel is formed by combining silver-loaded activated carbon and a stain remover, is safe, stable and non-irritant, and has a whitening effect equivalent to that of a commercially available 6% HP whitening tooth paste; can effectively inhibit escherichia coli and staphylococcus aureus, and the bacteriostasis rate reaches over 90 percent.
Hydrogen peroxide has been used for tooth whitening for 40 years, has higher effect and safety than other tooth whitening components, and is still a common or auxiliary active component in household tooth whitening products and professional tooth whitening modes at present. The conventional whitening tooth paste has the following problems: firstly, hydrogen peroxide can oxidize an adhesive in a product formula, so that a gel skeleton structure collapses, and the product has poor stability over time; secondly, the water resistance of the gel layer of the tooth paste is poor, so that the action time of hydrogen peroxide on teeth is short, the whitening effect is not obvious, and the requirements of users cannot be met; thirdly, hydrogen peroxide can bring about a plurality of side effects to teeth and oral cavity, such as the problems of damaged mechanical hardness of enamel surface, soft tissue stimulation, sensitive teeth, acute pulpitis and the like.
Also, some exogenous or endogenous factors often give the tooth a colored mottled or plaque-like appearance, which severely affects the aesthetic appearance of the tooth. The cold light whitening technology can remove pigment by generating free radicals with whitening agents such as carbamide peroxide, hydrogen peroxide or hypochlorous acid, and performing redox reaction with pigment molecules on the surface and deep layer of teeth. However, the use of whitening agents can cause different degrees of tooth sensitivity, secondary coloring easily occurs, and the long-term use can damage the health of people.
Remineralization therapy is one of the common methods for treating dental caries, and refers to an artificial method for remineralizing demineralized enamel or cementum, restoring the hardness thereof, and stopping or eliminating early-stage caries lesions. Remineralization therapy is primarily directed at the prevention of smooth-surfaced early enamel caries (chalky or brown) and caries susceptible individuals. The remineralization liquid used by the remineralization therapy mainly contains calcium, phosphorus and fluorine in different proportions, the addition of the fluorine can obviously promote the remineralization of enamel, the pH of the remineralization liquid is generally adjusted to 7, and the acid environment can weaken the remineralization effect of the mineralization liquid. Methods of using remineralization therapy include: preparing a gargle which gargles every day; local application: cleaning and drying dental surface, placing the cotton ball soaked with mineralized liquid on the affected part for several minutes each time, and repeating for 3-4 times.
The remineralization mechanism has the advantages of making up the defects of the traditional tooth whitening strip and the cold light whitening technology, and meanwhile, the remineralization liquid used in the remineralization treatment has certain remineralization capacity, but the remineralization liquid is inconvenient to use and needs to be improved. Therefore, the development of tooth gel and tooth paste with remineralization capability can conveniently and effectively prevent or repair demineralized tooth tissues, and has very important significance for whitening the tooth paste and improving the safety and reliability of the tooth paste whitening technology.
Disclosure of Invention
In order to realize minimally invasive tooth whitening, prevent dental diseases such as caries, periodontal disease and other oral diseases, improve the safety of tooth whitening technology, improve the effect of remineralization treatment of diseases such as superficial caries, dentin sensitivity and the like and facilitate the use of remineralization products, the invention provides a preparation method of tooth gel, a tooth paste and tooth gel with remineralization capacity, and the tooth gel, the tooth paste and the tooth gel are functional tooth gel and tooth paste containing bioactive components (including bioactive glass and calcium phosphate salt).
The purpose of the invention is realized by the following technical scheme:
the invention firstly provides a tooth gel with remineralization capability, which comprises the following raw material components in percentage by mass:
the raw materials for preparing the active ingredients comprise calcium phosphate salt and/or bioactive glass, and the raw materials are mixed in any proportion.
Further, the calcium phosphate salt is Amorphous Calcium Phosphate (ACP), casein phosphopeptide calcium phosphate complex (ACP-CPP), Brushite (Brushite), octacalcium phosphate (OCP), beta-tricalcium phosphate (beta-TCP), apatite-like ((Ca/Sr/Mg)10(PO4)6/((OH/F/Cl)2/CO3) One or more of) in any proportion when mixed; wherein the apatite-like substance is one or more of hydroxyapatite, fluorapatite, chlorapatite and composite apatite.
Further, the bioactive glass is an amorphous bioactive glass or a bioactive glass ceramic containing a crystalline phase in a bioactive glass matrix. The raw material component of the bioactive glass comprises SiO2、P2O5And is selected from Li2O、Na2O、CaO、SrO、MgO、SnO、K2O、CaF2、SrF2、SrCl2、NaF、LaF3、KF、CaCl2、LaCl3、KCl、MgCl2One or more of CuO and ZnO, and P2O5The content in the bioactive glass component is more than 2.0mol percent; and when metal fluoride is present, the total content of metal fluoride in the bioactive glass component is less than 9.3 mol%; and the content of the components of the bioactive glass raw material enables the network connectivity NC of the bioactive glass to meet the following conditions: NC is more than or equal to 1.5 and less than or equal to 3.2, wherein the calculation formula of NC is: in the formula:is SiO in medical bioactive glass2The molar percentage of (A); mMOIs the mol percentage content of the alkaline earth metal oxide in the medical bioactive glass;is the mol percentage content of alkali metal oxide in the medical bioactive glass;is P in medical bioactive glass2O5The molar percentage of (A); the bioactive glass is prepared by a high-temperature melting and cold quenching method.
More preferably, when the raw material components of the bioactive glass contain at least one of functional metal oxides SnO, CuO and ZnO, the content of each functional metal oxide in the bioactive glass component is less than 5.0 mol%; and in the bioactive glass component P2O5The content of (A) is more than 3.5 mol%; and when metal fluoride is present, the total content of metal fluoride in the bioactive glass component is less than 6.0 mol%; and the content of the bioactive glass raw material components meets the following requirements: NC is more than or equal to 1.5 and less than or equal to 2.4.
Furthermore, the raw materials for preparing the effective components also comprise one or more of desensitizer, whitening agent, antibacterial agent and anticaries component.
Further, the desensitizer is one or more of potassium nitrate, oxalic acid, calcium oxalate, tea polyphenol, catechol, linoleic acid glyceride and oleic acid glyceride in any proportion when mixed; the whitening agent is one or more of carbamide peroxide, hydrogen peroxide and sodium hypochlorite, and is in any proportion when mixed; the antibacterial agent is one or more of compounds or compounds capable of releasing silver ions, copper ions, strontium ions, cobalt ions and zinc ions, and is in any proportion when mixed; the anticarious component is one or more of fluorine-containing bioactive glass capable of releasing fluorine ions and soluble fluoride such as sodium fluoride, potassium fluoride, fluorine-containing ammonium salt, sodium monofluorophosphate, lanthanum fluoride and the like, and is in any proportion when mixed.
Further, the thickener is one or more selected from sodium polyacrylate, cellulose, N-vinyl amide polymer, carbomer, sodium alginate, gelatin and the like, and is in any proportion when mixed; the solvent is selected from glycerol, absolute ethanol and water, and is in any proportion when mixed; the solid dispersant is selected from polyethylene glycol 400; the sweetening agent is selected from acesulfame potassium; the essence is selected from essence such as menthol; the pH regulator is selected from NaOH, KOH and NaHCO3Or H3PO4One kind of (1).
The tooth gel can be used as a single commodity for desensitization, whitening, antibiosis and dental caries prevention of oral teeth, and can also be used for desensitization, whitening, dental caries prevention and the like of the oral teeth by combining the modes of a tooth paste, a dental tray and the like.
The invention also provides a tooth paste with remineralization capacity, which comprises three layers of structures: the tooth paste comprises an anti-sticking liner, a tooth paste layer and a stripping back lining layer, wherein one surface of the anti-sticking liner is adhered to one surface of the tooth paste layer, and the other surface of the tooth paste layer is adhered to the stripping back lining layer; the tooth glue layer is the tooth gel with the remineralization capacity, and the thickness of the tooth glue layer is 100-300 mu m; the release liner is selected from one of a polymer, a fabric or a film having a layer of gum adhered to one side and a release treatment on the other side to avoid bonding the lips; the stripping back layer is one selected from PET sheet, foil, plastic sheet or paper.
The invention also provides a preparation method of the dental gel with remineralization capability, which is characterized by comprising the following steps: the method comprises the following steps:
1) accurately weighing various raw materials according to a formula;
2) adding the thickening agent, the solid dispersing agent and the effective components into a solvent, and homogenizing and emulsifying to obtain uniformly dispersed and completely mixed and dissolved materials;
3) keeping the temperature of the material obtained in the step 2) at 60 ℃, adding a stabilizer, essence and a sweetener, and uniformly stirring;
4) slowly adding a pH regulator into the material obtained in the step 3), and uniformly stirring;
5) standing the material obtained in the step 4) for 24 hours to obtain the tooth gel with the remineralization capability.
In the preparation method, the stirring in the step 3) is uniform, the rotating speed of the stirrer is set to be 25-35rpm, and the stirring is carried out for 10 minutes;
in the step 4), when the temperature of the material obtained in the step 3) is reduced to 40-45 ℃, a whitening agent is added to prepare the whitening tooth gel or the tooth paste.
And 4) uniformly stirring, namely setting the rotating speed of the stirrer to be 15-25rpm, and stirring until the stirring is uniform.
Compared with the prior art, the invention has the following advantages:
1. in the prior art, the bioactivity of glass in the whitening tooth paste containing bioactive glass is low (for example, Chinese patent application No. 201910763871.1 discloses a whitening tooth paste containing photocatalyst and a preparation process thereof, the glass component is NC-2, P2O5Low content of (1.29 mol%), CaF2High (9.38 mol%)); the tooth gel or the tooth paste with the remineralization capability of the invention takes the bioactive glass or the calcium phosphate salt as the effective component, and the related bioactive glass is the bioactive glass which is individually designed according to the application requirements. Meanwhile, the bioactive glass P in the invention2O5Is greater than 2 mol%, because the inventor finds that the P in the bioactive glass is increased2O5The content can increase the rate and amount of apatite formation from the bioactive glass, and further increase the remineralization ability of the material (as shown in FIG. 1). Furthermore, the inventors have found that when the bioactive glass contains fluoride, for example, the fluoride is CaF2、SrF2、LaF3Or their mixture, more importantly, the content of fluoride in the bioactive glass is less than 9.3 mol%, which can promote the formation of acid-resistant fluorapatite instead of CaF2Or SrF2Thereby improving the remineralization capability of the material.
2. The tooth gel and the tooth paste with the remineralization capability are convenient to carry and use, have the effects of desensitization, remineralization, antibiosis, caries prevention, whitening and the like, have little or no irritation to oral soft tissues, and have important effects and significance for preventing, treating and improving the health of people.
Drawings
These and/or other aspects and advantages of the present invention will become more apparent and more readily appreciated from the following detailed description of the embodiments of the invention, taken in conjunction with the accompanying drawings of which:
FIG. 1 is an X-ray diffraction pattern of the product after 1 week of soaking bioactive glasses containing different phosphorus contents in a buffer, wherein panel (a) belongs to low-phosphorus bioactive glass and panel (b) belongs to high-phosphorus bioactive glass;
FIG. 2 is a scanning electron microscope image of the distribution of bioactive glass in a dental paste with remineralization ability obtained in example 1 of the present invention;
FIG. 3 is a graph showing the whitening effects of a dental strip with remineralization ability according to example 1 on a colored split tooth model caused by various substances after 3 days, 7 days and 14 days of use, wherein the substance of FIG. a is coffee and the substance of FIG. b is black tea;
FIG. 4 is a graph of the whitening efficacy of a tooth paste with remineralization ability according to example 2 of the present invention on a colored split tooth model caused by (a) coffee and (b) black tea after 3, 7 and 14 days of use;
FIG. 5 is a graph showing that the strips obtained in the examples of the present invention and the comparative examples show the same excellent whitening effect after use;
FIG. 6 is a graph of remineralization formation of the enamel surface of an isolated tooth after 7 days of treatment with the dental tape obtained in example 1 of the present invention and comparative example 1;
FIG. 7 is a graph comparing the effect of inventive and comparative strips on enamel hardness after coffee staining;
FIG. 8 is a graph of the remineralization capacity of dental tape restorations obtained in example 3 of the present invention and comparative example 1;
FIG. 9 is a structural diagram of a dental tape with remineralization ability obtained in example 1 of the present invention (in the figure: 1, release backing layer, 2, tooth glue layer, 3, release liner).
Detailed Description
The present invention is described in further detail below by way of examples, which should not be construed as limiting the invention thereto.
Example 1:
a whitening tooth paste with remineralization capability is prepared from three layers: the tooth paste comprises an anti-sticking liner, a tooth paste layer and a stripping back lining layer, wherein the anti-sticking liner is tightly adhered to one surface of the tooth paste layer, the thickness of the tooth paste layer is 100 mu m, effective components are dispersed in the tooth paste layer, and the other surface of the tooth paste layer is tightly adhered to the stripping back lining layer;
the release liner is a transparent flexible film adhesive attachment layer selected from natural polymers;
the stripping back layer is a transparent film and is selected from a PET material sheet;
the gutta-percha layer is a non-water-soluble film layer and is prepared from the following components in percentage by mass:
35 percent of active ingredients,
20 percent of thickening agent,
25 percent of solvent,
19 percent of solid dispersant,
0.2 percent of essence,
0.3 percent of sweetening agent,
0.5 percent of pH regulator;
the active ingredients are prepared from bioactive ingredients, desensitizers, whitening agents, antibacterial agents and anti-caries ingredients in a mass ratio of 6:1:1:1: 1;
the bioactive component is bioactive glass;
the bioactive glass is bioactive glassThe bioactive glass ceramic with small amount of crystal phase in the glass matrix is formed from SiO2、P2O5、CaF2、CaO,Na2O is prepared by high-temperature melting and cold quenching (melt-quenching), wherein P2O5The content of (A) is 5.5 mol%; fluoride-containing CaF2The content of (B) is 6.0 mol%; in addition, the content of the composition components of the bioactive glass satisfies the following conditions: NC is 2.0;
the desensitizer is prepared by mixing potassium nitrate, glyceryl oleate and the like in mass;
the whitening agent is a mixture of carbamide peroxide, hydrogen peroxide and hypochlorous acid in equal mass;
the antibacterial agent is a compound capable of releasing silver ions and copper ions, and is mixed according to the mass ratio of 1: 2;
the anticarious component is a mixture of sodium fluoride, potassium fluoride, fluorine-containing ammonium salt, sodium monofluorophosphate and lanthanum fluoride in any proportion;
the thickening agent is selected from sodium polyacrylate;
the solvent is selected from glycerol and absolute ethyl alcohol, and is mixed according to equal volume;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the pH regulator is selected from NaOH.
The preparation method of the tooth paste with the remineralization capacity comprises the following steps:
1) accurately weighing various raw materials according to the proportion of the components of the tooth glue layer;
2) adding the weighed thickener, solid dispersant and active ingredients into a solvent, and homogenizing and emulsifying in a stirrer until the components are uniformly dispersed and completely mixed and dissolved;
3) keeping the materials in the step 2) at 60 ℃, adding a stabilizer and spice, setting the rotating speed of a stirrer to be 30rpm, and stirring for 10 minutes;
4) preparing a whitening tooth paste: when the temperature of the materials in the step 3) is reduced to 40-45 ℃, adding the whitening agent;
5) slowly adding a pH regulator into the materials, and starting a stirrer at the rotation speed of 20rpm until the materials are uniformly mixed;
6) standing for 24h, uniformly coating on a plastic film after the plastic film is qualified through inspection, and attaching;
7) cutting the attached semi-finished product into shapes according to a tooth paste shape machine, and packaging;
the application method of the tooth paste comprises the steps of tearing the tooth paste from the stripping back lining layer, pasting one side of the tooth glue layer on the buccal side surface of the dental crown, enabling the long edge of the tooth glue layer to be flush with the gingival margin, and slightly pressing the tooth paste to enable the tooth paste to be fully adhered to teeth; after the use for 30-60 minutes, the tooth paste is torn off, and teeth can be cleaned by gargling properly according to requirements.
The formula of the tooth gel layer in the embodiment can be independently used as a tooth gel product or packaged, is gel, and is used by matching with a thermosetting resin denture fixing sheet; namely, the thermosetting resin denture sheet is taken out and put into hot water with the temperature of 70-80 ℃ for 10-30 seconds to be softened, and then taken out, and the softened denture sheet is sleeved on the teeth and is pressed and shaped by fingers; taking down the formed denture sheet, adding a proper amount of tooth gel into the denture sheet, wearing the denture sheet for 15-30 minutes, taking down the denture sheet, and appropriately gargling to clean teeth according to requirements; during the use period, the patient does not eat or smoke.
Similarly, the formula of the gutta-percha layer in other embodiments is the same, and a separate dental gel product can be prepared according to the composition and content of the formula, is packaged into a commodity, or is matched with a orthodontic denture base, or is used for minimally invasive tooth whitening of teeth, prevention of caries and prevention of periodontal diseases.
Example 2:
a whitening tooth paste with remineralization capability is prepared from three layers: the tooth paste comprises an anti-sticking liner, a tooth paste layer and a stripping back lining layer, wherein the anti-sticking liner is tightly adhered to one surface of the tooth paste layer, the thickness of the tooth paste layer is 300 mu m, effective components are dispersed in the tooth paste layer, and the other surface of the tooth paste layer is tightly adhered to the stripping back lining layer;
the release liner is an opaque, flexible film adhesive attachment layer selected from the group consisting of fabrics;
the stripping back lining layer is a transparent film and is selected from a foil made of PET materials;
the gutta-percha layer is a non-water-soluble film layer and is prepared from the following components in percentage by mass:
20 percent of active ingredients,
41 percent of thickening agent,
20 percent of solvent,
17.8 percent of solid dispersant,
0.1 percent of essence,
1.0 percent of sweetening agent,
0.1% of pH regulator;
the active ingredients are prepared from bioactive ingredients, whitening agents, antibacterial agents and anti-caries ingredients in a mass ratio of 6:1:1: 2;
the bioactive component is bioactive glass;
the bioactive glass is amorphous bioactive glass and is made of SiO2、P2O5、Li2O、SrO、MgO、SnO、SrF2、SrCl2KCl, prepared by melt-quench at high temperature (melt-quench), wherein P is2O5The content of (B) is 4.0 mol%; containing SrF fluoride2The content thereof is 9.0 mol%; in addition, the content of the composition components of the bioactive glass satisfies the following conditions: NC is 2.4;
the whitening agent is hydrogen peroxide;
the antibacterial agent is a compound capable of releasing silver ions, copper ions and strontium ions, and is mixed according to the mass ratio of 1:2: 1;
the anticarious component is sodium fluoride;
the thickening agent is selected from cellulose;
the solvent is selected from glycerol and water, and is mixed according to the volume ratio of 1: 2;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the pH regulator is selected from KOH.
The preparation method of the tooth paste with the remineralization capacity comprises the following steps:
1) accurately weighing various raw materials according to the proportion of the components of the tooth glue layer;
2) adding the weighed thickener, solid dispersant and active ingredients into a solvent, and homogenizing and emulsifying in a stirrer until the components are uniformly dispersed and completely mixed and dissolved;
3) keeping the materials in the step 2) at 60 ℃, adding a stabilizer and spice, setting the rotating speed of a stirrer to be 30rpm, and stirring for 10 minutes;
4) preparing a whitening tooth paste: when the temperature of the materials in the step 3) is reduced to 40-45 ℃, adding the whitening agent;
5) slowly adding a pH regulator into the materials, and starting a stirrer at the rotation speed of 20rpm until the materials are uniformly mixed;
6) standing for 24h, uniformly coating on a plastic film after the plastic film is qualified through inspection, and attaching;
7) cutting the attached semi-finished product into shapes according to a tooth paste shape machine, and packaging;
the application method of the tooth paste comprises the steps of tearing the tooth paste from the stripping back lining layer, pasting one side of the tooth glue layer on the buccal side surface of the dental crown, enabling the long edge of the tooth glue layer to be flush with the gingival margin, and slightly pressing the tooth paste to enable the tooth paste to be fully adhered to teeth; after the use for 30-60 minutes, the tooth paste is torn off, and teeth can be cleaned by gargling properly according to requirements.
Example 3:
a tooth paste with remineralization capability is prepared from a three-layer structure: the tooth paste comprises an anti-sticking liner, a tooth paste layer and a stripping back lining layer, wherein the anti-sticking liner is tightly adhered to one surface of the tooth paste layer, the thickness of the tooth paste layer is 200 mu m, effective components are dispersed in the tooth paste layer, and the other surface of the tooth paste layer is tightly adhered to the stripping back lining layer;
the release liner is a transparent flexible film adhesive attachment layer selected from a film;
the stripping back lining layer is an opaque film and is selected from PET paper;
the gutta-percha layer is a non-water-soluble film layer and is prepared from the following components in percentage by mass:
3.1 percent of active ingredients,
20 percent of thickening agent,
70 percent of solvent,
5 percent of solid dispersant,
0.6 percent of essence,
1.0 percent of sweetening agent,
0.3 percent of pH regulator;
the effective components are prepared from bioactive components, antibacterial agents and anti-caries components in a mass ratio of 6:1: 1;
the bioactive component is bioactive glass;
the bioactive glass is bioactive glass ceramic with bioactive glass matrix containing small amount of crystal phase and is prepared with SiO2、P2O5、CaO、K2O、CuO,CaCl2Prepared by high-temperature melting and cold quenching (melt-quenching), wherein P is2O5The content of (A) is 2.5 mol%; the content of CuO is 2.0 mol%, and in addition, the content of the composition components of the bioactive glass satisfies the following conditions: NC is 3.2;
the antibacterial agent is a compound capable of releasing copper ions and strontium ions, and is mixed according to the mass ratio of 1: 2;
the anticarious component is lanthanum fluoride;
the thickening agent is selected from N-vinylamide polymers and sodium alginate, and is mixed according to the mass ratio of 1: 1;
the solvent is selected from glycerol;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the pH regulator is selected from NaHCO3。
The preparation method of the tooth paste with the remineralization capacity comprises the following steps:
1) accurately weighing various raw materials according to the proportion of the components of the tooth paste;
2) adding the weighed thickener, solid dispersant and active ingredients into a solvent, and homogenizing and emulsifying in a stirrer until the components are uniformly dispersed and completely mixed and dissolved;
3) keeping the materials in the step 2) at 60 ℃, adding a stabilizer and spice, setting the rotating speed of a stirrer to be 30rpm, and stirring for 10 minutes;
4) slowly adding a pH regulator into the materials, and starting a stirrer at the rotation speed of 20rpm until the materials are uniformly mixed;
5) standing for 24h, uniformly coating on a plastic film after the plastic film is qualified through inspection, and attaching;
6) cutting the attached semi-finished product into shapes according to a tooth paste shape machine, and packaging;
the application method of the tooth paste comprises the steps of tearing the tooth paste from the stripping back lining layer, pasting one side of the tooth glue layer on the buccal side surface of the dental crown, enabling the long edge of the tooth glue layer to be flush with the gingival margin, and slightly pressing the tooth paste to enable the tooth paste to be fully adhered to teeth; after the use for 30-60 minutes, the tooth paste is torn off, and teeth can be cleaned by gargling properly according to requirements.
Example 4:
a dental gel with remineralization ability;
the dental gel is prepared from the following components in parts by mass:
15 percent of active ingredients,
30 percent of thickening agent,
32.7 percent of solvent,
20 percent of solid dispersant,
0.8 percent of essence,
0.5 percent of sweetening agent,
1.0% of a pH regulator;
the effective components are prepared from bioactive components and desensitizers, and the mass ratio is 6: 1;
the bioactive component is a casein phosphopeptide calcium-phosphorus complex;
the desensitizer is a mixture of oxalic acid, calcium oxalate, catechol, linoleic acid glyceride and the like in mass;
the thickening agent is selected from N-vinylamide polymers;
the solvent is selected from equal volume mixing of absolute ethyl alcohol and water;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the pH regulator is selected from NaHCO3。
The preparation method of the dental jelly with remineralization capability comprises the following steps:
1) accurately weighing various raw materials according to the proportion of the components of the tooth gel;
2) adding the weighed thickener, solid dispersant and active ingredients into a solvent, and homogenizing and emulsifying in a stirrer until the components are uniformly dispersed and completely mixed and dissolved;
3) keeping the materials in the step 2) at 60 ℃, adding a stabilizer, a spice and a sweetener, setting the rotating speed of a stirrer to be 30rpm, and stirring for 10 minutes;
4) slowly adding a pH regulator into the materials, and starting a stirrer at the rotation speed of 20rpm until the materials are uniformly mixed;
5) after the inspection is qualified, sealing and packaging;
the application method of the dental gel comprises the steps of taking a proper amount of dental gel, and uniformly coating the dental gel on the surface of a tooth to form a dental gel thin layer with the thickness of about 0.5 mm; covering a proper amount of matched anti-sticking liner film on the outer side of the dental gel to prevent the dental gel from sticking to lips; after the toothpaste is used for 15-30 minutes, the gel thin layer is wiped or torn off, and teeth can be cleaned by gargling appropriately according to the requirement; during the use period, the patient does not eat or smoke.
Example 5:
a whitening tooth gel with remineralization ability;
the dental gel is prepared from the following components in parts by mass:
1 percent of active ingredients,
60 percent of thickening agent,
26.7 percent of solvent,
10 percent of solid dispersant,
0.8 percent of essence,
0.5 percent of sweetening agent,
1.0% of a pH regulator;
the effective component is a bioactive component;
the bioactive component isAmorphous calcium phosphate and bioactive glass, wherein the mass ratio of the amorphous calcium phosphate to the bioactive glass is 1: 1; the bioactive glass is bioactive glass ceramic with bioactive glass matrix containing small amount of crystal phase and is prepared with SiO2、P2O5、CaO、CaF2、K2O,ZnO、CaCl2Prepared by high-temperature melting and cold quenching (melt-quenching), wherein P is2O5The content of (A) is 2.5 mol%; CaF containing fluoride2The content thereof is 3.0 mol%; the content of ZnO is 4mol percent; in addition, the content of the composition components of the bioactive glass satisfies the following conditions: NC is 1.5;
the thickening agent is selected from carbomer and gelatin, and is mixed according to the mass ratio of 2: 1;
the solvent is selected from equal volume mixing of absolute ethyl alcohol and water;
the solid dispersant is selected from polyethylene glycol 400;
the sweetening agent is selected from acesulfame potassium;
the pH regulator is selected from NaHCO3。
The preparation method of the whitening tooth gel with the remineralization capability comprises the following steps:
1) accurately weighing various raw materials according to the proportion of the components of the tooth gel;
2) adding the weighed thickener, solid dispersant and active ingredients into a solvent, and homogenizing and emulsifying in a stirrer until the components are uniformly dispersed and completely mixed and dissolved;
3) keeping the materials in the step 2) at 60 ℃, adding a stabilizer, a spice and a sweetener, setting the rotating speed of a stirrer to be 30rpm, and stirring for 10 minutes;
4) preparing whitening tooth gel: when the temperature of the materials in the step 3) is reduced to 45 ℃, adding the whitening agent;
5) slowly adding a pH regulator into the materials, and starting a stirrer at the rotation speed of 20rpm until the materials are uniformly mixed;
6) and (5) after the inspection is qualified, sealing and packaging.
Comparative example 1:
the difference from example 1 is that no bioactive glass is contained, and other components and preparation processes are the same as those of example 1.
Comparative example 2:
in contrast to example 1, the bioactive glass in the dental plaster formulation of comparative example 2 was the bioactive glass referred to in patent CN201910763871.1 (i.e. made of SiO)2、CaO、K2O、P2O5、CaF2And Na2O is composed of 42:21:14:3:12: 15) by weight ratio, and P is2O5Low content of (1.29 mol%), CaF2High (9.38 mol%). Bioactive glass P referred to in example 12O5Is greater than 2 mol% and greater than that referred to in comparative example 1, while CaF2The content of (B) was 6.0 mol%. Other relevant conditions were the same for example 1 and comparative example 1.
Research shows that P in bioactive glass is increased2O5The content can increase the rate and amount of apatite formation from the bioactive glass, and further increase the remineralization ability of the material (as shown in FIG. 1). Furthermore, the bioactive glass referred to in example 1 contains CaF2The content of the calcium fluoride is 6.0 mol%, and acid-resistant fluorapatite can be generated after glass is degraded instead of calcium fluoride crystals, so that the remineralization capacity of the material is better.
Experimental example:
FIG. 1 is an X-ray diffraction pattern of two series of bioactive glasses containing different phosphorus contents after being soaked in buffer for 1 week, wherein FIG. 1(a) belongs to low-phosphorus bioactive glass (glass numbers A-H, phosphorus content of glass is about 1 mol%), FIG. 1(b) belongs to high-phosphorus bioactive glass (glass numbers A2-H2, phosphorus content is about 5 mol%), and two glasses with the same letter number have the main difference of phosphorus content.
Taking two glasses, a2 in fig. 1(a) and a2 in fig. 1(b) as examples, respectively, the inventors found that X-ray diffraction peaks matching apatite were visible in the XRD patterns of both low-phosphorus bioactive glass (a) and high-phosphorus bioactive glass (a2), whereas the intensity of the X-ray diffraction peak for producing apatite was much greater in a2 glass compared to a, revealing that high-phosphorus bioactive glass produced more apatite faster and more apatite than low-phosphorus bioactive glass.
FIG. 2 is a scanning electron micrograph of the distribution of bioactive glass in the dental paste having remineralization ability obtained in examples 1 and 2 of the present invention, wherein (a) is the distribution of bioactive glass in the dental paste obtained in example 1 of the present invention; (b) the distribution of the bioactive glass in the dental paste obtained in example 2 of the present invention was described.
As shown in FIG. 2(a), the bioactive glass was uniformly dispersed in the dental paste obtained in example 1 of the present invention. As shown in FIG. 2(b), the bioactive ingredient was uniformly dispersed in the dental paste obtained in example 2 of the present invention. The small white particles in the figure are all bioactive components (as indicated by the circles).
Fig. 3 is a graph showing the whitening effect of the colored split tooth model caused by different substances after 3 days, 7 days and 14 days using the tooth paste obtained in example 1 of the present invention (the substance in fig. a is coffee, and the substances from left to right are untreated-14 days after coffee staining-3 days after using the tooth paste-7 days after using the tooth paste-14 days after using the tooth paste; and the substance in fig. b is black tea, and the substances from left to right are untreated-14 days after black tea staining-3 days after using the tooth paste-7 days after using the tooth paste-14 days after using the tooth paste).
As shown in fig. 3, the excised teeth were darkened 14 days after coloring with coffee and black tea. The colored isolated teeth were gradually lightened in color after using the tooth paste having remineralization ability obtained in example 1 for 3 days, 7 days and 14 days. Therefore, the tooth paste with the remineralization ability obtained in example 1 has a good whitening effect.
FIG. 4 is a graph showing the whitening effect of a colored excised tooth model obtained in example 2 of the present invention on different substances after 3 days, 7 days and 14 days (the substance in FIG. a is coffee, which is untreated-14 days after coffee is stained-3 days after the tooth paste is used-7 days after the tooth paste is used-14 days after the tooth paste is used, respectively, from left to right; the substance in FIG. b is black tea, which is untreated-14 days after black tea is stained-3 days after the tooth paste is used-7 days after the tooth paste is used-14 days after the tooth paste is used, respectively, from left to right).
As shown in fig. 4, the excised teeth were darkened 14 days after coloring with coffee and black tea. The colored isolated teeth were gradually lightened in color after using a dental tape having remineralization ability obtained in example 2 for 3 days, 7 days and 14 days. Therefore, the tooth paste with the remineralization ability obtained in example 1 has a good whitening effect.
Fig. 5 is a graph showing the degree of tooth whitening after the use of the strips obtained in examples 1 and 2 of the present invention and comparative example 2 (comparative example 2, example 1, and example 2, respectively, from left to right).
The dental patches obtained in examples 1 and 2 had good whitening efficacy after 3 and 7 days of use, which was higher than that of comparative example 2. Examples 1 and 2 had the same good whitening efficacy as comparative example 2 after 14 days of use.
FIG. 6 is a graph showing the remineralization formation of the enamel surface of an isolated tooth after 7 days of the treatment with the dental tape obtained in example 1 and comparative example 1 of the present invention, wherein (a) is the result of comparative example 1 and (b) is the result of example 1.
As shown in fig. 6: the enamel surface of the in vitro tooth treated by the comparative example 1 has no obvious remineralization layer; the in vitro enamel surface treated by the embodiment can be seen to form obvious apatite remineralization layer, and has obvious repairing effect on demineralized enamel.
Figure 7 is a graph comparing the effect of inventive and comparative strips on enamel hardness after coffee staining (comparative example 1 is strip C in the figure, example 1 is strip I in the figure, and example 2 is strip II in the figure).
As shown in fig. 7, after 7 days of treatment using the strip of example 1 and 14 days of treatment using the strip of example 2, the hardness of enamel was significantly increased compared to the strip of comparative example 1.
FIG. 8 is a scanning electron micrograph of a strip obtained in example 3 of the present invention and comparative example 1, in which (a) is a scanning electron micrograph of a strip obtained in comparative example 1, in which the strip is immersed in artificial saliva for 7 days; (b) is a scanning electron micrograph of the tooth paste of example 3 soaked in artificial saliva for 7 days; as shown in fig. 8, example 3 was more noticeable and generated more apatite precipitates after 7 days of soaking than comparative example 1.
FIG. 9 is a structural diagram of a tooth paste with remineralization ability obtained in example 1 of the present invention: the tooth paste with the remineralization capability obtained in the embodiment 1 of the invention comprises a three-layer structure, namely 1, a stripping back lining layer, 2, a tooth glue layer, 3 and an anti-sticking lining.
The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the inventive concept of the present invention, which falls into the protection scope of the present invention.
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