NZ757005B2 - Treatment for gingivitis - Google Patents
Treatment for gingivitis Download PDFInfo
- Publication number
- NZ757005B2 NZ757005B2 NZ757005A NZ75700518A NZ757005B2 NZ 757005 B2 NZ757005 B2 NZ 757005B2 NZ 757005 A NZ757005 A NZ 757005A NZ 75700518 A NZ75700518 A NZ 75700518A NZ 757005 B2 NZ757005 B2 NZ 757005B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- wilkinson
- sarah
- annotation
- oral
- acp
- Prior art date
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- AZJYLVAUMGUUBL-UHFFFAOYSA-A u1qj22mc8e Chemical group [F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[F-].[Na+].[Na+].[Na+].[Na+].[Na+].[Na+].[Na+].[Na+].[Na+].[Na+].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].[Mg+2].O=[Si]=O.O=[Si]=O.O=[Si]=O.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3.O1[Si](O2)([O-])O[Si]3([O-])O[Si]1([O-])O[Si]2([O-])O3 AZJYLVAUMGUUBL-UHFFFAOYSA-A 0.000 description 1
- OOLLAFOLCSJHRE-ZHAKMVSLSA-N ulipristal acetate Chemical compound C1=CC(N(C)C)=CC=C1[C@@H]1C2=C3CCC(=O)C=C3CC[C@H]2[C@H](CC[C@]2(OC(C)=O)C(C)=O)[C@]2(C)C1 OOLLAFOLCSJHRE-ZHAKMVSLSA-N 0.000 description 1
- 238000000108 ultra-filtration Methods 0.000 description 1
- 235000015112 vegetable and seed oil Nutrition 0.000 description 1
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- 235000019168 vitamin K Nutrition 0.000 description 1
- 239000011712 vitamin K Substances 0.000 description 1
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- 229940046010 vitamin k Drugs 0.000 description 1
- 239000011534 wash buffer Substances 0.000 description 1
- 239000001993 wax Substances 0.000 description 1
- 239000012138 yeast extract Substances 0.000 description 1
- 235000013618 yogurt Nutrition 0.000 description 1
- UHVMMEOXYDMDKI-JKYCWFKZSA-L zinc;1-(5-cyanopyridin-2-yl)-3-[(1s,2s)-2-(6-fluoro-2-hydroxy-3-propanoylphenyl)cyclopropyl]urea;diacetate Chemical compound [Zn+2].CC([O-])=O.CC([O-])=O.CCC(=O)C1=CC=C(F)C([C@H]2[C@H](C2)NC(=O)NC=2N=CC(=CC=2)C#N)=C1O UHVMMEOXYDMDKI-JKYCWFKZSA-L 0.000 description 1
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Classifications
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- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K33/00—Medicinal preparations containing inorganic active ingredients
- A61K33/16—Fluorine compounds
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K33/00—Medicinal preparations containing inorganic active ingredients
- A61K33/42—Phosphorus; Compounds thereof
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/17—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- A61K38/1703—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates
- A61K38/1709—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans from vertebrates from mammals
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K6/00—Preparations for dentistry
- A61K6/20—Protective coatings for natural or artificial teeth, e.g. sealings, dye coatings or varnish
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K6/00—Preparations for dentistry
- A61K6/80—Preparations for artificial teeth, for filling teeth or for capping teeth
- A61K6/831—Preparations for artificial teeth, for filling teeth or for capping teeth comprising non-metallic elements or compounds thereof, e.g. carbon
- A61K6/838—Phosphorus compounds, e.g. apatite
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/18—Cosmetics or similar toiletry preparations characterised by the composition
- A61K8/19—Cosmetics or similar toiletry preparations characterised by the composition containing inorganic ingredients
- A61K8/20—Halogens; Compounds thereof
- A61K8/21—Fluorides; Derivatives thereof
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/18—Cosmetics or similar toiletry preparations characterised by the composition
- A61K8/19—Cosmetics or similar toiletry preparations characterised by the composition containing inorganic ingredients
- A61K8/24—Phosphorous; Compounds thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/0012—Galenical forms characterised by the site of application
- A61K9/0053—Mouth and digestive tract, i.e. intraoral and peroral administration
- A61K9/0056—Mouth soluble or dispersible forms; Suckable, eatable, chewable coherent forms; Forms rapidly disintegrating in the mouth; Lozenges; Lollipops; Bite capsules; Baked products; Baits or other oral forms for animals
- A61K9/0058—Chewing gums
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P1/00—Drugs for disorders of the alimentary tract or the digestive system
- A61P1/02—Stomatological preparations, e.g. drugs for caries, aphtae, periodontitis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/04—Antibacterial agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61Q—SPECIFIC USE OF COSMETICS OR SIMILAR TOILETRY PREPARATIONS
- A61Q11/00—Preparations for care of the teeth, of the oral cavity or of dentures; Dentifrices, e.g. toothpastes; Mouth rinses
Abstract
The present invention relates to compositions and their use for oral care. In particular, the compositions and methods are for maintaining oral health and/or treating various oral conditions such as gingivitis. The present invention relates to methods and uses of stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) in the preparation of a medicament for reducing pathogenic oral bacteria at an oral site in an individual; increasing commensal oral bacteria at an oral site in an individual; decreasing the proportion of pathogenic oral bacteria at an oral site in an individual; inhibiting oral dysbiosis; reducing gingival inflammation in an individual in need thereof; treating gingivitis in an individual in need thereof; and treating chronic gingivitis in an individual in need thereof.
Description
Treatment for gingivitis Cross-reference to related applications This application claims priority from Australian ional ation no. 2017900893, the entire contents of which are incorporated by reference in their entirety.
Field of the ion The present invention relates to compositions and their use for oral care. In particular, the compositions and methods are for maintaining oral health and/or treating various oral ions such as gingivitis.
Background of the invention 1O Oral microbes have co-evolved and co-existed with their hosts for ns of years in a mostly harmonious symbiotic relationship. The host and oral microbiome are not distinct entities but together form a 'superorganism' or holobiont, with the oral microbiome playing a significant role in the maintenance and health of the oral cavity.
The mouth provides an environment for the second most diverse microbial community in the body, with over 700 resident species of bacteria that colonise the hard surfaces of teeth and the soft tissues of the oral mucosa. Through recent advances in DNA sequencing technology the complexities of the oral microbiome have been ed which has provided new insights into the role of the different intra-oral polymicrobial biofilms during both health and disease.
Many of the ial species associated with health were thought of as only sal sms but through this greater insight it is clear now that many are in fact beneficial to their hosts. These commensal/beneficial species are now referred to as nts as they are in a true symbiotic relationship with their host providing essential factors to improve health and/or preventing pathogenic s from colonizing to cause disease. However, perturbations of the oral microbiome through modern-day yles (e.g. dietary sugar, smoking, poor oral hygiene etc) or other factors (eg genetic predisposition) can have detrimental consequences for general and oral health. The finely-tuned equilibrium stasis or symbiosis) of the oral ecosystem can then be disrupted, allowing disease-promoting bacteria (pathobionts) to outcompete the beneficial/commensal symbionts to manifest dysbiosis and cause [Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson diseases such as periodontal diseases (gingivitis and periodontitis). Hence it is essential to promote a balanced oral microbiome to effectively maintain or restore oral health.
The process of ion of beneficial/commensal symbionts to produce a balanced oral microbiome and homeostasis is referred to as sis. Hence substances which promote a balanced oral microbome and homeostasis by increasing the proportions of tic bacteria are referred to as prebiotics.
Casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) is a salivary biomimetic which provides bioavailable calcium and phosphate ions to remineralise early stages of dental caries in enamel and dentine. ic complexes of casein phosphopeptides and amorphous calcium phosphate ("CPP-ACP", available commercially as RecaldentTl") have been shown to remineralize enamel subsurface lesions in vitro and in situ.
WO 98/40408 in the name of The University of Melbourne (the contents of which are herein incorporated fully by reference) describes casein phosphopeptide- amorphous calcium phosphate xes (CPP-ACP) and CPP-stabilised amorphous m fluoride phosphate complexes CFP) which have been produced at alkaline pH. Such complexes have been shown to promote remineralization of enamel face lesions in animal and human in situ caries models. Moreover, improvements on these compositions are disclosed in specific uses (the ts of which are herein incorporated fully by reference).
There is a need for new or improved treatments for diseases of the gingiva. In addition, there is a need for new or improved therapies to maintain or restore gingival health.
Reference to any prior art in the specification is not an acknowledgment or suggestion that this prior art forms part of the common general knowledge in any jurisdiction or that this prior art could ably be expected to be understood, regarded as relevant, and/or combined with other pieces of prior art by a skilled person in the art.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Summary of the invention In one aspect, the present invention provides a method for reducing pathogenic oral bacteria at an oral site in an individual, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby reducing enic bacteria at an oral site.
In another , the present invention also provides a method for increasing commensal oral bacteria at an oral site in an individual, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby increasing commensal oral bacteria at an oral site.
In another aspect, the present invention also provides a method of decreasing the proportion of enic oral bacteria at an oral site in an individual, the method comprising administering stabilized amorphous calcium ate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby reducing the tion of pathogenic oral bacteria at an oral site.
In any aspect of the invention described herein, the pathogenic oral bacteria may be any one or more associated with gingival inflammation, gingivitis, chronic itis, periodontitis or ontal disease. Typically, the pathogenic oral ia are acidogenic and/or aciduric and/or inflammogenic. Preferably, the bacteria are inflammogenic. Bacteria that produce lysaccharide (LPS) and release LPS into the tissues as LPS are highly inflammogenic.
Preferably, the bacteria are any one or more selected from Streptococcus mutans, Actinomyces naeslundii, Veil/onella parvula, Lactobacillus casei, Porphyromonas gingival/s, ella forsyz‘hia, Treponema dent/cola, z‘richia wadei, z‘hrichia shah/i, z‘richia buccalis and Lauz‘ropia mirabilis.
In any aspect of the invention described herein, the commensal oral bacteria may be any one or more species that express arginine ase and/or nitrate reductase.
Typically, the bacteria are any one or more of Corynebacz‘erium durum, Roth/a [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson dentocariosa, Streptococcus mitis, Streptococcus sanguinis and Fusobacterium nucleatum.
In one aspect, the t invention provides a method of ting oral dysbiosis, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby inhibiting oral dysbiosis.
In another , the t invention provides a method of reducing gingival inflammation in an individual in need thereof, the method sing administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium de phosphate (ACFP) to the oral cavity of the individual, thereby reducing gingival inflammation. Preferably, the method further comprises an initial step of identifying an individual having gingival inflammation.
In another , the present invention provides a method of treating gingivitis in an individual in need thereof, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby ng gingivitis.
Preferably, the method further comprises an initial step of fying an individual having gingivitis.
In another aspect, the present invention provides a method of treating chronic gingivitis in an individual in need thereof, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual, thereby treating chronic gingivitis. Preferably, the method further comprises an initial step of identifying an individual having chronic gingivitis.
In another aspect, the present invention provides a method of treating ontitis in an individual in need thereof, the method sing administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the dual, thereby treating periodontitis. Preferably, the method further comprises an initial step of identifying an indivi?l having periodontitis.
[Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In any aspect of the invention, the method further comprises ming a dental ure prior to administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride ate (ACFP) to the oral cavity of the dual. Examples of dental procedures include debridement, g, root planning or any other procedure to remove gival or supragingival bacteria.
In another aspect, the present invention provides use of stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) in the preparation of a medicament for: - reducing pathogenic oral bacteria at an oral site in an individual; - increasing commensal oral bacteria at an oral site in an individual; - decreasing the proportion of pathogenic oral bacteria at an oral site in an individual - inhibiting oral dysbiosis; - reducing gingival inflammation in an individual in need thereof; - treating gingivitis in an individual in need thereof; or - treating chronic gingivitis in an individual in need thereof.
In another , the present ion provides stabilized amorphous calcium ate (ACP) and/or stabilized amorphous m fluoride phosphate (ACFP) for use in: - reducing pathogenic oral bacteria at an oral site in an individual; - increasing commensal oral bacteria at an oral site in an individual; - decreasing the proportion of pathogenic oral bacteria at an oral site in an individual - inhibiting oral dysbiosis; Deducing gingival inflammation in an individual in need thereof; ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson - treating gingivitis in an individual in need f; or - treating chronic gingivitis in an individual in need thereof.
In another aspect, the present invention provides a method for ng demineralization of dental enamel in an individual, the method comprising administering stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous m fluoride phosphate (ACFP) to the oral cavity of the dual, thereby reducing demineralization of dental enamel in an individual. Preferably, the stabilised ACP complex is a us-associated phosphopeptide (PP) stabilized amorphous calcium phosphate (ACP) complex, and the stabilised ACFP complex is a stannous-associated phosphopeptide (PP) ized amorphous calcium fluoride phosphate (ACFP) complex. Preferably, the reduction in demineralization is a reduction in the rate of demineralization.
Preferably, the stabilized amorphous calcium phosphate (ACP) and/or amorphous calcium fluoride phosphate (ACFP) is phosphopeptide stabilized. ably, the phosphopeptide (as defined below) is a casein phosphopeptide.
In any method or use of the invention, the stabilised ACP or ACFP complex may be administered to the individual for 5 to 60 minutes, 10 to 45 minutes, 10 to 30 s or 20 minutes. Further, the stabilised ACP or ACFP complex may be stered 4, 5 or 6 times per day, or per 24 hour period. Preferably, the stabilised ACP or ACFP complex is administered for a 1 to 2 week period.
In any aspect, the composition may be ed and used in various forms applicable to the mouth such as dentifrice including toothpastes, toothpowders and liquid dentifrices, mouthwashes, mouthrinses, mouth sprays, varnish, dental cement, troches, chewing gums, dental pastes, gingival massage creams, gargle tablets, dairy ts and other foodstuffs including yoghurt. ably, the composition is a chewing gum. Preferably, the chewing gum contains at least about 15mg, 20mg, 25mg, 30mg, 35mg, 40mg, 45mg, 50mg, 55mg or 60mg of stabilised ACP or ACFP complex.
The chewing gum may contain about 18.8 or 56.4mg of stabilised ACP or ACFP complex.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In any aspect, the calcium ion content of the stabilised ACP or ACFP complex is greater than about 30moles per mole of PP. ably, the calcium ion t is in the range of about 30 to 100 moles of m per mole of PP. More preferably, the calcium ion content is in the range of about 30 to about 50 moles of calcium per mole of PP.
In any aspect, the stabilised ACP complex is a stannous-associated phosphopeptide (PP) stabilized amorphous calcium phosphate (ACP) complex, and the stabilised ACFP complex is a stannous-associated phosphopeptide (PP) stabilized amorphous calcium fluoride phosphate (ACFP) complex.
In any aspect, the ACP and/or ACFP complex is in the form of a casein 1O opeptide stabilized ACP and/or ACFP complex.
Preferably, the phase of the ACP is primarily (i.e. >50%) a basic phase, wherein the ACP comprises predominantly the species Ca2+, PO43' and OH'. The basic phase of ACP may have the general formula [Ca3(PO4)2]X[Ca2(PO4)(OH)] where x 2 1. Preferably x = 1-5. More preferably, x = 1, Le. the two components of the formula are present in equal proportions. Accordingly, in one embodiment, the basic phase of ACP has the formula Ca3(PO4)2Ca2(PO4)(OH).
Preferably, the phase of the ACFP is a primarily (i.e. >50%) basic phase, wherein the ACFP comprises inantly the species Ca2+, PO43' and F'. The basic phase of ACFP may have the l formula [Ca3(PO4)2]X[Ca2(PO4)F]y where x 2 1 when y = 1 or where y 2 1 when x = 1. Preferably, y = 1 and x = 1-3. More preferably, y = 1 and x = 1, Le. the two components of the formula are present in equal proportions.
Accordingly, in one embodiment, the basic phase of ACFP has the a Ca3(PO4)2Ca2(PO4)F.
In one embodiment, the ACP complex consists essentially of phosphopeptides, calcium, phosphate and hydroxide ions and water. Preferably, the complex further includes stannous ions.
In one embodiment, the ACFP complex consists essentially of phosphopeptides, calcium, phosphate, fluoride and hydroxide ions and water. Preferably, the complex further includes stannous ions.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson The invention also relates to a kit for use in a method or use of the invention, the kit comprising: (a) a composition as described herein, or (b) a stabilized ACP or ACFP complex as described herein.
As used herein, except where the context requires othen/vise, the term "comprise" and variations of the term, such as "comprising", "comprises" and "comprised", are not intended to exclude r additives, components, integers or steps.
Further s of the present invention and further embodiments of the aspects described in the preceding paragraphs will become apparent from the following description, given by way of e and with reference to the accompanying drawings.
Brief description of the drawings Figure 1. Effect of P on plaque index in a randomised, controlled clinical trial.
Figure 2. Effect of CPP-ACP on gingival index in a randomised, controlled clinical trial.
Figure 3. Average species composition of a six species polymicrobial biofilm cultured with a human enamel substratum in a constant depth film fermenter pulsed four times per day with 1% sucrose. All six species, A. naeslundii (An), F. nucleatum (Fn), L. casei (LC), S. mutans (Sm), S. sanguinis (Ss) and V. parvula (Vp) were detected at each time point. S. mutans ed relatively constant over the 19 days and was the most abundant species. Both A. naeslundii and L. casei increased in nce over time whilst S. sanguinis sed. This is consistent with the polymicrobial biofilm becoming more acidic over time. The three bars above each species ation refer to relative abundance on Day 6 (black), Day 12 (grey) and Day 19 (striped) after inoculation.
Figure 4. Enamel subsurface demineralization in the crobial biofilm caries model.
A. Integrated mineral loss (vol% minum) of the enamel substratum over the 19 day period in the polymicrobial caries model. The data represent four biological ates of the control (no treatment) and are presented as mean 1r S.D. B. Representative transne microradiographs of the enamel substratum showing subsurface [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson ralization at day 6, 12 and 19. C. Representative electron micrograph of the polymicrobial m from Day 12 showing the intimate association and supragingival plaque like structure of the ial m.
Figure 5. Effect of twice daily San, 2% CPP-ACP and 2% CPP-ACP-San addition on the crobial m bacterial species composition in the CDFF on Day 19. A.
Bacterial species composition as a percentage of total bacteria in the biofilm (Data and statistical es ted in Table 7). B. The change in abundance of each species after treatment relative to the control. F. nucleatum is not depicted due to the exceedingly high relative increase in polymicrobial biofilms treated with 2% CPP-ACP- 1O San of 4,981%. San ent had no effect on F. nucleatum abundance (-2%) whilst CPP-ACP treatment caused a 355% increase at day 19. Striped bars = control, Black = San, Grey = 2% CPP-ACP and White = 2% CPP-ACP-San. C. Representative 3D rendered CLSM image of the polymicrobial biofilm treated with CPP-ACP-San on Day 19. Bacterial cell were stained with four species specific FISH probes (purple - F. nucleatum; blue - A. naeslundii; red - S. mutans; green - S. sanguinis).
Detailed ption of the embodiments It will be understood that the invention disclosed and defined in this specification extends to all ative combinations of two or more of the individual features mentioned or evident from the text or drawings. All of these different combinations constitute various alternative s of the invention.
Further s of the present invention and further embodiments of the aspects described in the ing paragraphs will become apparent from the following description, given by way of example and with reference to the accompanying drawings.
Reference will now be made in detail to certain embodiments of the invention.
While the invention will be described in conjunction with the embodiments, it will be understood that the intention is not to limit the invention to those embodiments. On the contrary, the invention is intended to cover all alternatives, modifications, and equivalents, which may be ed within the scope of the present invention as defined by the claims.
One skilled in the art will ize many methods and materials similar or equivnit to those described herein, which could be used in the practice of the present [Annotation] Sarah.Wilkinson None set by Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson invention. The present ion is in no way limited to the methods and materials descnbed.
All of the patents and ations referred to herein are incorporated by reference in their entirety.
For purposes of interpreting this specification, terms used in the singular will also include the plural and vice versa.
As used herein, except where the t requires othen/vise, the term ise" and variations of the term, such as "comprising", "comprises" and "comprised", are not intended to exclude further additives, components, integers or steps. As used herein, except where the context requires otherwise, ise" and "include" can be used interchangeably.
The present ion is based on the unexpected finding that stabilized amorphous calcium phosphate forms, such as CPP-ACP, CPP-ACFP or stannousassociated ACP or ACFP, can reduce gingival inflammation and treat various gingival ions such as gingivitis. While stabilized amorphous calcium phosphate forms have previously been shown to remineralize dental lesions by ring calcium and phosphate to form crystalline hydroxyapatite or patite in the tooth lesion, these stabilized amorphous calcium phosphate forms have now been shown to surprisingly have an effect on the beneficial and enic oral bacteria present in the oral cavity and the tissue (i.e. gingiva) in the oral cavity. Even more surprisingly, the stabilized amorphous calcium phosphate forms increase the relative abundance of beneficial oral bacteria while ng the relative abundance of pathogenic oral bacteria. Without being bound by any theory or mode of action, it is this differential effect on oral bacteria that appears to result in a reduction in gingival inflammation.
Any method of the ion may involve the treatment of an oral site in an individual where the oral site is any one or more regions around a tooth including disto- buccal, mid-buccal, mesio-buccal, mesio-palatal, mid-palatal and disto-palatal and disto- lingual, mid-lingual and mesio-lingual. The treatment may be applied directly to the gingiva and no other site in the oral cavity. The treatment may be of multiple oral sites. atively, the entire oral cavity may be treated. Further, efficacy of the treatment may be determined by analysis of one or more oral sites or the entire oral cavity. For examn a reduction in pathogenic bacteria or an increase in sal bacteria may ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson be determined by analysis of one or more oral sites as described herein or by analysis of the entire oral cavity.
In any aspect of the invention, the individual is one in need of treatment or tion. Specifically, in any aspect of the invention, the method or use further comprises a step of identifying an individual in need of ent or prevention.
An individual in need of treatment to reduce pathogenic oral bacteria or increase commensal oral bacteria may be one who has, or who is experiencing, bations of the oral microbiome through modern-day lifestyles (e.g. excessive dietary sugar intake, g, poor oral hygiene) or other factors (e.g. genetic predisposition).
In any aspect of the invention, the individual may not have any dental lesions.
For example, the individual may be identified as having gingival inflammation or gingivitis but no detectable dental e or subsurface lesions.
The words ‘treat’ or ‘treatment’ refer to eutic ent wherein the object is to slow down (lessen) an undesired physiological change or disorder. For purposes of this invention, beneficial or desired clinical s include, but are not limited to, alleviation of symptoms, diminishment of extent of disease, ized (i.e., not worsening) state of disease, delay or slowing of e progression, amelioration or palliation of the disease state, and remission (whether partial or total), whether detectable or ctable. Treatment may not necessarily result in the complete absence of detectable symptoms of the condition but may reduce or minimise complications and side effects of the condition. The success or othenNise of treatment may be monitored by physical examination of the individual, cytopathological, serological DNA, mRNA detection techniques, or any other techniques described herein.
The words ‘prevent’ and ‘prevention’ generally refer to prophylactic or preventative measures for protecting or precluding an individual not having al inflammation or any other condition described herein from progressing to that cation. Individuals in which prevention is required include those who have dysbiosis.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Wilkinson Unmarked set by Sarah.Wilkinson The phrase ‘pharmaceutically acceptable’ indicates that the substance or composition must be ible chemically and/or toxicologically, with the other ingredients comprising a formulation, and/or the individual being d ith.
The methods of the invention are applicable to individuals that manifest sub clinical or clinical symptoms of a disease or condition of oral tissue as described herein.
Dysbiosis in an individual means the individual has, in the t of a randomly selected cohort of duals, an abnormal total amount or relative abundance of ial pathogens in the oral cavity. For example, the dual may have elevated amounts or proportion of one or more pathogenic bacteria associated with gingival inflammation, gingivitis, chronic gingivitis, periodontitis or periodontal disease. Typically, the pathogenic bacteria are acidogenic and/or aciduric and/or inflammogenic.
Preferably, the bacteria are any one or more selected from Streptococcus mutans, myces naeslundii, nella parvula, Lactobacillus casei, Porphyromonas gingival/s, Tannerella forsyz‘hia and ema dent/cola.
The symptoms of gingival inflammation may be manifested in oral tissue of said individual at one or more oral sites. The cellular hallmarks of mation that may be present include an increased movement of plasma and ytes from the blood into the injured tissues. Clinical signs of gingival inflammation may also be present including rubor (redness), calor (increased heat), tumor (swelling), dolor (pain), and functio laesa (loss of function). Chronic inflammation may be characterised by yte cell (monocytes, macrophages, cytes, plasma cells) infiltration. Tissue and bone loss may be observed. Examples of inflammation include gingivitis.
Reducing gingival inflammation may be a reduction in the incidence and/or severity of inflammation of the gingiva. This may be determined by a reduction in the incidence or severity of any clinical, cellular or biochemical characteristics as described herein, such as those ed immediately above.
In further embodiments, the individual may present with chronic mation of oral tissue. In one example the individual may present with gingivitis (such as chronic gingivitis), resorption of alveolar bone and al tooth loss stemming from progressive loss of collagen attachment of the tooth to alveolar bone. Other lesions of mucosal or related oral tissue are possible.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In any , an individual in need thereof may be one who is identified as having mild, moderate or severe al inflammation. As chronic gingivitis can lead to the more severe periodontitis the invention could also be applicable to those with mild, moderate and severe periodontitis as determined by CDC-AAP methodology described in Eke et al J Dent Res 91:914-920 (2012). The invention is also applicable to individuals with gingival inflammation identified using the Modified Gingival Index (Lobene et al 1986 Clin Prev Dent. b;8(1):3-6). This index is a modification of the Loe and Silness Gingival Index and allows r discrimination for mild and te gingivitis. The dual may be determined to have gingival inflammation on a scale from O to 4 for gingival tissues associated with one or more sites (e.g. buccal, lingual, mesial and distal). Preferably, the individual in need thereof has a Modified Gingival Index score of 1, 2, 3 or 4. Accordingly, in any aspect of the invention, an individual is ed that has a degree of gingival inflammation as described herein. In any aspect of the invention, the method or use further comprises the step of ining whether an individual has a degree of gingival inflammation as described herein.
Identifying an individual in need of a reduction in pathogenic oral bacteria, increase commensal oral bacteria, or who has oral dysbiosis may be determined by the amount of, or relative proportions of, ia in a sample obtained from oral fluid taken from the oral cavity. In ular, an oral fluid may be saliva, gingival crevicular fluid or blood. It is ized that oral fluids, for example saliva, are a combination of secretions from a number of sources such as parotid, submandibular, sublingual, accessory glands, gingival mucosa and buccal mucosa and the term oral fluid includes the ion of each of these sources individually or in ation. The saliva may be stimulated or in a preferred embodiment unstimulated. Stimulation of the saliva in the individual may occur by allowing the individual to chew on sugar-free gum, a piece of paraffin film or tart candy. Unstimulated saliva means that the individual will expectorate into a collection vessel without stimulation of salivary flow.
Saliva specimens for testing can be collected following various methods known in the art, for example, stimulated or unstimulated saliva can be sampled by the individual expectorating into a collection vessel or using a swab or syringe to extract the saliva.
Other ways for obtaining unstimulated saliva are known in the art. (Nazaresh and [Annotation] Sarah.Wilkinson None set by Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Christiansen, J. Dent. Res. 61: 1158- 1162 (1982)). Methods and devices for collecting saliva have also been described. (See also, U. S. Patent No. 5,910, 122).
It is contemplated that the methods of the t invention can also be practiced by analyzing stimulated saliva.
Furthermore, the methods of the present invention are not limited to performing salivary analysis ately after collection of the sample. In certain embodiments, salivary analysis following the methods of the present invention can be med on a stored saliva sample. The saliva sample for testing can be preserved using s and apparatuses known in the art. (See e.g., U. S. Patent No. 5,968, 746). 1O It is also contemplated that the s of the present invention be used to m salivary analysis on saliva samples that have been d to reduce its viscosity.
The viscous nature of saliva, due to the nature of mucopolysaccharides, makes testing of these fluids ult. In order to prepare saliva for any laboratory testing procedure, the saliva may be rendered sufficiently fluid (i.e. viscosity must be reduced) and free from debris. Techniques used to remove debris include centrifugation and filtration. The viscosity of saliva can also be reduced by mixing a saliva sample with a cationic quaternary ammonium t. (See, U. S. Patent No. 5,112, 758).
In another embodiment, the sample from an individual may be taken from the crypts of the dorsum of the tongue.
The sample from the individual may be taken from a specific periodontal site. A periodontal site is a region within the oral cavity. Preferably, a periodontal site is region around a tooth including buccal, mid-buccal, mesio-buccal, mesio-palatal, mid- palatal and disto-palatal and disto-lingual, mid-lingual and mesio-lingual. The sample may be taken from a periodontal site that exhibits clinical signs of inflammation.
In another embodiment, the sample from an individual may be a sample of a tissue. The tissue or part thereof may be from the oral cavity. In certain embodiments the tissue is gingival. The gingival tissue may be from various sites around a tooth including disto-buccal, mid-buccal, mesio-buccal, mesio-palatal, mid-palatal and disto- palatal and disto-lingual, ngual and mesio-lingual. The tissue may be obtained by opsy or may be obtained from an extracted tooth.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In another embodiment the sample from the individual may be dental plaque. The plaque may be subgingival or supragingival. Subgingival plaque may be sampled using a sterile curette or paper point. ingival plaque may be removed using standard techniques known in the art. The gival plaque may be collected from s sites around a tooth including disto-buccal, mid-buccal, mesio-buccal, mesio-palatal, mid- palatal and disto-palatal and disto-lingual, mid-lingual and mesio-lingual periodontal sites. The subgingival plaque samples may be obtained during the normal dental examination provided by a qualified dentist or periodontist. The plaque sample may be analysed as is or treated to t the protein, peptide or fragment thereof of interest using an extraction buffer. An extraction buffer could contain a pH buffer (e.g. phosphate, HEPES, etc), salts (e.g. NaCl) to maintain ionic strength and n solubilising agents (e.g. detergents (SDS, Triton X100, etc)), reducing agents (e.g. dithiothreitol, cysteineHCl) and/or chaotropic agents (e.g. urea, guanidinium chloride, lithium perchlorate).
Dysbiosis may be determined by ing the amount or, or relative proportion of, pathogenic and/or commensal oral bacteria a sample from an dual and comparing it with a set of parameters previously defined from individuals that do not have attributes of an individual with dybiosis or any clinical, cellular or biochemical characteristics of gingival inflammation. It is contemplated that individuals with a healthy oral cavity may contain a low level of pathogenic bacteria present. This low level or normal level of pathogenic bacterial colonisation does not indicate dysbiosis. When using such a control and comparing it to a test sample, ination of whether an individual has dysbiosis includes (1) an elevated level of one or more pathogenic bacteria as described herein in a sample taken from the individual compared to the control sample, or (2) an increased proportion of one or more pathogenic bacteria in a sample taken from the individual ed to the total level of bacteria in the control sample, or (3) an increased proportion of one or more pathogenic bacteria relative to one or more other bacteria s in a sample taken from the individual when compared with the control sample.
A stabilized-ACP or ACFP complex as referred to herein include a stabilized-ACP or ACFP x as described in the contents of which are incorporated by reference.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In a preferred embodiment, the phosphopeptide ised amorphous calcium phosphate (ACP) or amorphous calcium fluoride ate (ACFP) complex has tightly bound and loosely bound calcium, wherein the bound calcium in the complex is less than the tightly bound calcium in an ACP or ACFP complex formed at a pH of 7.0.
Optionally, the ACP or ACFP is predominantly in a basic form.
A stabilized-ACP or ACFP complex as ed to herein include a stabilized-ACP or ACFP complex formed at a pH of below 7.0. Preferably the complex is formed at a pH in the range of about 5.0 up to but below 7.0. More ably the complex is formed at a pH range of about 5.0 to about 6.0. In a preferred embodiment, the x is formed at a pH of about 5.5. Preferably, the ACP or ACFP in the complex is predominantly in a basic form.
A stabilized-ACP may be produced by a method comprising the steps of: (i) obtaining a solution comprising at least one phosphopeptide and; (ii) admixing solutions comprising calcium ions, phosphate ions and hydroxide ions, while maintaining the pH at about 7.0 or below.
A stabilised ACFP may be produced by a method comprising the steps of: (i) obtaining a solution comprising at least one phosphopeptide and; (ii) admixing solutions comprising calcium ions, ate ions, hydroxide ions and fluoride ions, while maintaining the pH at about 7.0 or below.
A phosphopeptide stabilised ous m phosphate (ACP) or amorphous calcium fluoride phosphate (ACFP) complex may also include wherein the ACP in the complex has y bound and loosely calcium, wherein the tightly bound calcium in the complex is less than the tightly bound calcium in an ACP or ACFP complex formed at a pH of 7.0 and the ACP or ACFP is inantly in a basic form, obtainable or obtained by a method comprising: a) admixing a first solution comprising calcium ions, a second solution comprising ate ions, and optionally a third solution comprising fluoride ions, to a solution comprising phosphopeptides and a solvent with a pH of from about 5 up to but below 7; and [Annotation] Sarah.Wilkinson None set by Wilkinson ation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson b) maintaining the pH of the solution at about 5.0 up to but below 7.0 during the admixing by adding hydroxide ions.
"Tightly" and "loosely" bound calcium and phosphate in ACP or ACFP can be determined using analytical ultrafiltration. Briefly, the solution of phosphopeptide, m, phosphate and optionally fluoride admixed while maintaining the pH at about 7.0 or below can be first filtered through a 0.1 micron filter to remove free calcium and phosphate that is not associated with the complexes. This free calcium and phosphate is t in the filtrate and discarded. Any free calcium or phosphate that is not associated in any way with the complexes would not be ilable, i.e. delivered by the phosphopeptide to the tooth. The retentate from the 0.1 micron filtration can be further analyzed by centrifugation through a 3000 mw cutoff filter at 1,000 g for 15 min.
The resulting filtrate contains calcium and phosphate that is loosely bound or associated with the complexes. At this centrifugal force calcium and phosphate that is not tightly bound to the complexes are ed and move to into the filtrate. The Ca and Pi that is tightly bound in the xes is retained in the retentate. The amount of tightly bound Ca and Pi in the retentate can then be determined by subtracting the amount of Ca and Pi in the filtrate from the total amount of Ca and Pi in the ate of the 0.1 micron filtration.
A stabilized-ACP or ACFP complex as referred to herein include a stabilized-ACP or ACFP complex as described in the ts of which are incorporated by reference.
A "superloaded" phosphopeptide or phosphoprotein (PP) stabilized-amorphous calcium phosphate (ACP) or amorphous calcium fluoride ate (ACFP) complex.
The x may be formed at any pH (eg 3-10). Preferably the phosphopeptide includes the sequence -A-B-C-, where A is a phosphoamino acid, preferably phosphoserine, B is any amino acid ing a phosphoamino acid and C is glutamic acid, aspartic acid or a phosphoamino acid. The phosphoamino acid may be phosphoserine. The PP is superloaded with calcium and phosphate ions. The calcium ions may be in the range 30-1000 mol Ca per mole of PP, or in the range of 30-100 or 30-50 mole Ca per mole of PP. In another embodiment, the mol Ca per mol of PP is at least 25, 30, 35, 40, 45 or 50.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson The phosphopeptide or phosphoprotein (PP) stabilized amorphous calcium phosphate or amorphous calcium fluoride phosphate complex may have a calcium ion content greater than about 30 moles of calcium per mole of PP. In a preferred embodiment, the calcium ion t is in the range of about 30 to 100 moles of calcium per mole of PP. More preferably, the m ion content is in the range of about 30 to about 50 moles of calcium per mole of PP.
The phosphopeptide or phosphoprotein (PP) stabilized-amorphous calcium phosphate (ACP) or amorphous calcium fluoride phosphate (ACFP) x may be produced by a method comprising the steps of: (i) obtaining solutions sing calcium, inorganic phosphate and fluoride (optional); and (ii) admixing (i) with a solution comprising PP-ACP.
In a preferred embodiment, the PP is casein phosphopeptide (CPP).
The PP stabilized ACP and/or ACFP complex may further include at least an equal amount by weight of calcium phosphate. Preferably the calcium ate is CaHPO4_ Preferably, the calcium phosphate (e.g. CaHPO4) is dry blended with the PP stabilized ACP and/or ACFP complex. In a preferred embodiment, the PP-ACP and/or PP-ACFP complex: m phosphate ratio is about 1:1-50. more preferably about 1: 1- , more preferably about . In one embodiment, the PP-ACP and/or PP-ACFP complex: calcium phosphate ratio is about 1:10.
The oral care formulation that includes a phosphopeptide or phosphoprotein (PP) stabilized amorphous m phosphate (ACP) and/or amorphous calcium fluoride phosphate (ACFP) x having a calcium ion t greater than about 30 moles of calcium per mole of PP when used in the oral cavity may be produced by a method including the steps of: (i) obtaining a powder including a PP-ACP and/or PP-ACFP x; (ii) dry blending with an effective amount of calcium phosphate; and (iii) ating the dry blended PP-ACP and/or PP-ACFP and calcium phosphate mixture into an oral care formulation.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Wilkinson MigrationNone set by Wilkinson [Annotation] Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Preferably, the form of calcium phosphate for dry blending is any soluble calcium phosphate ing, but not limited to, CaHPO4, CazHPO4 and calcium lactate.
A composition as described herein may further include free fluoride ions. The fluoride ions may be from any suitable source. A source of fluoride ions may e free fluoride ions or fluoride salts. Examples of sources of fluoride ions include, but are not limited to the following: sodium fluoride, sodium monofluorophosphate, stannous fluoride, sodium silicofluoride and amine fluoride. These may be provided in solution (typically an s solution), or a sion.
The fluoride ions are preferably present in the ition in an amount greater than 1ppm. More preferably, the amount is more than 3 ppm. In another embodiment, it is preferably more than 10 ppm. In typical embodiments described below, the amount may be several d or thousand ppm. The de content is typically measured as a ppm in oral compositions in the manner commonly used in the art. Where the fluoride is provided from a source with the stabilized ACP, the ppm refers to the concentration of the fluoride in that , typically a solution or suspension of bioavailable fluoride.
A stannous-associated ACP or ACFP complex as referred to herein include any described in PCT/AU2014/O50447, the entire contents of which are incorporated by reference in its entirety.
A composition as described herein for use in a method of use of the invention may include a us-associated ACP or ACFP complex. The composition may include 2% CPP-ACP and 290ppm fluoride with 220ppm de as stannous fluoride and 70ppm as sodium fluoride.
"Phosphopeptide" in the context of the description of this invention means an amino acid sequence in which at least one amino acid is phosphorylated. Preferably, the phosphopeptide includes one or more of the amino acid sequence -A-B-C-, where A is a phosphoamino residue, B is any amino acyl residue including a phosphoamino residue and C is selected from a glutamyl, aspartyl or phosphoamino residue. Any of the phosphoamino residues may ndently be a phosphoseryl residue. B is desirably a residue the side-chain of which is neither relatively large nor hydrophobic. It may be Gly, Ala, Val, Met, Leu, lle, Ser, Thr, Cys, Asp, Glu, Asn, Gln or Lys.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In another embodiment, at least two of the phosphoamino acids in the sequence are ably contiguous. Preferably the phosphopeptide includes the sequence A-B- C-D-E, where A, B, C, D and E are independently phosphoserine, othreonine, phosphotyrosine, ohistidine, glutamic acid or aspartic acid, and at least two, preferably three, of the A, B, C, D and E are a phosphoamino acid. In a preferred embodiment, the oamino acid residues are oserine, most preferably three contiguous phosphoserine residues. It is also preferred that D and E are independently glutamic or aspartic acid.
In one ment, the ACP or ACFP is stabilized by a casein phosphopeptide (CPP), which is in the form of intact casein or fragment of the casein, and the complex formed preferably has the formula [CPP(ACP)8]n or [(CPP)(ACFP)8]n where n is equal to or greater than 1, for example 6. The complex formed may be a colloidal complex, where the core les ate to form large (eg 100 nm) colloidal particles suspended in water. Thus, the PP can be a casein protein or a phosphopeptide.
The PP may be from any ; it may be present in the context of a larger polypeptide, including a full length casein polypeptide, or it may be isolated by c or other enzymatic or chemical digestion of casein, or other phosphoamino acid rich proteins such as phosphitin, or by chemical or recombinant synthesis, provided that it comprises the sequence -A-B-C- or A-B-C-D-E as described above. The sequence flanking this core sequence may be any sequence. However, those flanking sequences in qs1(59-79), [3(1-25), ocsz(46-70) and ocsz(1-21) are preferred. The flanking sequences may optionally be modified by deletion, addition or vative substitution of one or more residues. The amino acid composition and sequence of the flanking region are not critical.
Examples of conservative substitutions are shown in Table A below.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson TABLE A Original Residue Exemplary Conservative Preferred Conservative Substitution Substitution Ala Val, Leu, lle Val Asn Gln Lys His Phe Gln Gln Asn Asn Gly Pro Pro Lys Arg, Gln, Asn Arg Leu, Val, lle, Ala Leu Gly Gly Thr Thr lle, Leu, Met, Phe, Ala Leu Glu Glu Ser Ser Tyr Tyr Trp Phe Thr Ser Phe The flanking ces may also include non-naturally occurring amino acid residues. Commonly tered amino acids which are not encoded by the genetic code, include: 2—amino adipic acid (Aad) for Glu and Asp; 2—aminopimelic acid (Apm) for Glu and Asp; 2—aminobutyric (Abu) acid for Met, Leu, and other aliphatic amino acids; 2—aminoheptanoic acid (Ahe) for Met, Leu and other aliphatic amino acids; ?aminoisobutyric acid (Aib) for Gly; [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson cyclohexylalanine (Cha) for Val, and Leu and lie; homoarginine (Har) for Arg and Lys; 2, 3-diaminopropionic acid (Dpr) for Lys, Arg and His; N-ethylglycine (EtGIy) for Gly, Pro, and Ala; N-ethylasparigine (EtAsn) for Asn, and Gln; Hydroxyllysine (Hyl) for Lys; allohydroxyllysine (AHyl) for Lys; 3-(and 4) hydroxyproline (3Hyp, 4Hyp) for Pro, Ser, and Thr; alloisoleucine (Alle) for lie, Leu, and Val; p-amidinophenylalanine for Ala; N-methylglycine (MeGly, sarcosine) for Gly, Pro, Ala. ylisoleucine (Melle) for lie; Norvaline (Nva) for Met and other aliphatic amino acids; Norleucine (Nle) for Met and other aliphatic amino acids; Ornithine (Orn) for Lys, Arg and His; line (Cit) and methionine sulfoxide (MSO) for Thr, Asn and Gln; N-methylphenylalanine (MePhe), trimethylphenylalanine, halo (F, Cl, Br and l) phenylalanine, triflourylphenylalanine, for Phe.
In one embodiment, the PP is one or more phosphopeptides ed from the group consisting of oasi(59-79) [1], [3(1-25) [2], ocsz(46-70) [3] and ocsz(1-21) [4]: Gln59-Met-Glu-Ala-Glu-Ser(P)-lle-Ser(P)-Ser(P)-Ser(P)—Glu-Glu-lle-Val-Pro-Asn- Ser(P)-Val-Glu-Gln-Lys79 oasi(59-79) lu-Leu-Glu-Glu-Leu-Asn-Val-Pro-Gly-Glu-lle-Val-Glu-Ser(P)-Leu-Ser(P)- Ser(P)-Ser(P)-Glu-Glu-Ser-lle-Thr-ArgZ5 [3(1-25) [3] Asn46-Ala-Asn-Glu-Glu-Glu-Tyr—Ser-lle-Gly-Ser(P)-Ser(P)-Ser(P)-Glu-Glu- Ser(P)-Ala-Glu-Val-Ala-Thr-Glu-Glu-Val-Lysm (Mme-70) [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Lys1-Asn-Thr-Met-Glu-His-Val-Ser(P)-Ser(P)-Ser(P)-Glu-Glu-Ser-lle-lle-Ser(P)- Gln-Glu-Thr—Tyr—Lys21 (mm-21).
In another ment of the invention, the ized ACP and/or stabilized ACFP complex is incorporated into oral compositions such as toothpaste, mouth washes or formulations for the mouth to aid in the prevention and/or treatment of gingivitis or periodontitis. The oral itions comprising an amount of stabilized ACP and/or ACFP sufficient to form a layer on a dental surface, preferably, the layer has a calcium : phosphate ratio equivalent to normal apatite, for e the ratio is about 2:1. The layer may contain an amount of calcium that is about 20 wt%. The 1O stabilized ACP and/or ACFP complexes may comprise 0.01 to 50% by weight of the composition, preferably 1.0 to 50%, preferably 1.0 to 30%, preferably 1.0 to 20%, preferably 1.0 to 10%, preferably 2 to 10% by weight of the composition. In a ularly preferred embodiment, the oral composition of the present invention contains about 2% stabilized ACP or ACFP complexes or a mixture of both. The oral composition of this invention which contains the above-mentioned agents may be prepared and used in various forms applicable to the mouth such as dentifrice including astes, toothpowders and liquid dentifrices, mouthwashes, mouthrinses, mouth sprays, varnish, dental cement, troches, chewing gums, dental , gingival massage creams, gargle tablets, dairy ts and other foodstuffs. The oral composition according to this invention may further include additional well known ingredients depending on the type and form of a particular oral composition. n compositions of the invention such as astes, toothpowders and liquid dentifrices, mouthwashes, mouthrinses and mouth sprays have relatively low viscosity and have a positive effect on treatment or prevention without icant residence time in the oral cavity.
In certain preferred forms of the invention an oral composition may be substantially liquid in character, such as a mouthwash, rinse or spray. In such a preparation the vehicle is typically a water-alcohol mixture bly including a humectant as described below. Generally, the weight ratio of water to alcohol is in the range of from about 1:1 to about 20:1. The total amount of water-alcohol mixture in this type of preparation is typically in the range of from about 70 to about 99.9% by weight of the preparation. The alcohol is lly ethanol or isopropanol. Ethanol is preferred.
[Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In other ble forms of this invention, the composition may be substantially solid or pasty in character, such as toothpowder, a dental tablet or a toothpaste (dental cream) or gel dentifrice. The e of such solid or pasty oral preparations generally contains dentally acceptable ing material. Examples of polishing materials are water-insoluble sodium metaphosphate, potassium metaphosphate, tricalcium phosphate, dihydrated calcium phosphate, anhydrous dicalcium phosphate, calcium pyrophosphate, magnesium orthophosphate, trimagnesium phosphate, calcium carbonate, hydrated alumina, calcined alumina, aluminium silicate, zirconium silicate, silica, bentonite, and mixtures thereof. Other suitable polishing material include the particulate thermosetting resins such as ne-, phenolic, and urea-formaldehydes, and cross-linked polyepoxides and polyesters. Preferred polishing materials include lline silica having le sizes of up to about 5 microns, a mean particle size of up to about 1.1 microns, and a surface area of up to about 50,000 cm2/g., silica gel or dal silica, and complex amorphous alkali metal aluminosilicate.
When visually clear gels are employed, a polishing agent of colloidal silica, such as those sold under the trademark SYLOID as Syloid 72 and Syloid 74 or under the trademark SANTOCEL as Santocel 100, alkali metal aluminosilicate complexes are particularly useful since they have refractive indices close to the refractive s of gelling agent-liquid (including water and/or ant) systems commonly used in dentifrices.
Many of the so-called water ble" polishing materials are anionic in character and also include small s of soluble material. Thus, insoluble sodium metaphosphate may be formed in any suitable manner, for example as illustrated by Thorpe's Dictionary of Applied Chemistry, Volume 9, 4th Edition, pp. 510-511. The forms of insoluble sodium metaphosphate known as l's salt and Kurrol's salt are further examples of suitable materials. These metaphosphate salts exhibit only a minute solubility in water, and therefore are commonly referred to as ble metaphosphates (IMP). There is present therein a minor amount of soluble phosphate material as impurities, usually a few percent such as up to 4% by weight. The amount of e phosphate material, which is believed to include a soluble sodium aphosphate in the case of insoluble metaphosphate, may be reduced or eliminated by washing with water if desired. The insoluble alkali metal metaphosphate is typically employed in [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson powder form of a particle size such that no more than 1% of the material is larger than 37 microns.
The polishing material is generally present in the solid or pasty compositions in weight concentrations of about 10% to about 99%. Preferably, it is present in amounts from about 10% to about 75% in toothpaste, and from about 70% to about 99% in toothpowder. ln toothpastes, when the polishing material is silicious in nature, it is generally present in an amount of about 10-30% by weight. Other polishing materials are typically present in amount of about 30-75% by weight.
In a toothpaste, the liquid vehicle may comprise water and humectant typically in 1O an amount ranging from about 10% to about 80% by weight of the preparation.
Glycerine, propylene glycol, sorbitol and polypropylene glycol exemplify suitable humectants/carriers. Also advantageous are liquid mixtures of water, glycerine and sorbitol. ln clear gels where the refractive index is an important consideration, about 2.5 - 30% w/w of water, 0 to about 70% w/w of glycerine and about 20-80% w/w of ol are preferably employed.
Toothpaste, creams and gels typically contain a natural or synthetic thickener or gelling agent in proportions of about 0.1 to about 10, ably about 0.5 to about 5% w/w. A suitable thickener is synthetic hectorite, a tic dal magnesium alkali metal silicate complex clay available for example as Laponite (e.g. CP, SP 2002, D) ed by Laporte Industries Limited. te D is, approximately by weight 58.00% SiOz, 25.40% MgO, 3.05% NaZO, 0.98% LiZO, and some water and trace metals. Its true specific gravity is 2.53 and it has an apparent bulk density of 1.0 g/ml at 8% moisture.
Other suitable thickeners include lrish moss, iota carrageenan, gum tragacanth, starch, polyvinylpyrrolidone, hydroxyethylpropylcellulose, hydroxybutyl methyl cellulose, hydroxypropyl methyl cellulose, hydroxyethyl cellulose (e.g. available as Natrosol), sodium ymethyl cellulose, and colloidal silica such as finely ground Syloid (e.g. 244). lizing agents may also be included such as humectant s such propylene glycol, dipropylene glycol and hexylene glycol, cellosolves such as methyl cellosolve and ethyl cellosolve, vegetable oils and waxes containing at least about 12 s in a straight chain such as olive oil, castor oil and petrolatum and esters such as ate, ethyl acetate and benzyl benzoate.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Wilkinson Unmarked set by Sarah.Wilkinson It will be understood that, as is conventional, the oral preparations will usually be sold or otherwise distributed in suitable labelled packages. Thus, a jar of mouth rinse will have a label describing it, in substance, as a mouth rinse or mouthwash and having directions for its use; and a toothpaste, cream or gel will usually be in a collapsible tube, typically aluminium, lined lead or plastic, or other squeeze, pump or pressurized dispenser for metering out the contents, having a label describing it, in substance, as a toothpaste, gel or dental cream. c surface-active agents may be used in the compositions of the present invention to achieve increased prophylactic action, assist in achieving thorough and 1O complete dispersion of the active agent throughout the oral cavity, and render the t compositions more cosmetically acceptable. The organic surface-active al is preferably anionic, non-ionic or ampholytic in nature and preferably does not interact with the active agent. It is preferred to employ as the surface-active agent a detersive material which imparts to the composition detersive and foaming properties. Suitable examples of anionic surfactants are water-soluble salts of higher fatty acid monoglyceride lfates, such as the sodium salt of the monosulfated monoglyceride of enated coconut oil fatty acids, higher alkyl sulfates such as sodium lauryl sulfate, alkyl aryl sulfonates such as sodium dodecyl e ate, higher alkylsulfo-acetates, higher fatty acid esters of 1,2—dihydroxy propane sulfonate, and the substantially saturated higher aliphatic acyl amides of lower aliphatic amino carboxylic acid compounds, such as those having 12 to 16 carbons in the fatty acid, alkyl or acyl radicals, and the like. es of the last mentioned amides are N-lauroyl sarcosine, and the sodium, potassium, and ethanolamine salts of N-lauroyl, N-myristoyl, or N-palmitoyl sarcosine which should be substantially free from soap or similar higher fatty acid material. The use of these sarconite compounds in the oral compositions of the present invention is particularly advantageous since these materials t a ged marked effect in the inhibition of acid formation in the oral cavity due to carbohydrates breakdown in addition to exerting some reduction in the solubility of tooth enamel in acid solutions. Examples of water-soluble non-ionic surfactants suitable for use are condensation ts of ethylene oxide with various ve hydrogen- containing compounds reactive therewith having long hydrophobic chains (e.g. aliphatic chains of about 12 to 20 carbon , which condensation products ("ethoxamers") contaDydrophilic polyoxyethylene moieties, such as condensation products of poly [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson (ethylene oxide) with fatty acids, fatty alcohols, fatty amides, polyhydric alcohols (e.g. sorbitan monostearate) and polypropyleneoxide (e.g. Pluronic materials).
The surface active agent is typically present in amount of about 0.1-5% by weight. It is noteworthy, that the surface active agent may assist in the dissolving of the active agent of the invention and thereby diminish the amount of solubilizing humectant needed.
Various other materials may be incorporated in the oral preparations of this invention such as whitening agents, preservatives, nes, chlorophyll compounds and/or ammoniated material such as urea, diammonium phosphate, and mixtures thereof. These adjuvants, where present, are incorporated in the ations in amounts which do not substantially ely affect the properties and characteristics desked.
Any suitable flavouring or sweetening material may also be employed.
Examples of suitable flavouring constituents are flavouring oils, e.g. oil of spearmint, peppermint, wintergreen, sassafras, clove, sage, eucalyptus, marjoram, on, lemon, and orange, and methyl salicylate. le sweetening agents include sucrose, lactose, maltose, sorbitol, xylitol, sodium cyclamate, perillartine, AMP (aspartyl phenyl alanine, methyl ester), saccharine, and the like. ly, flavour and ning agents may each or together comprise from about 0.1% to 5% more of the preparation.
The compositions of this invention can also be incorporated in lozenges, or in chewing gum or other products, e.g. by stirring into a warm gum base or coating the outer surface of a gum base, illustrative of which are ng, rubber latex, vinylite resins, etc., desirably with conventional cizers or softeners, sugar or other sweeteners or such as glucose, sorbitol and the like. The composition of the invention may be a dual phase composition wherein each phase permits release of components over different time periods.
An alternative ition may be one that provides stabilized ACP or ACFP and a stannous nd that then in situ, such as the oral cavity, forms stannous- associated stabilized ACP or ACFP. An exemplary composition may be a chewing gum that contains stabilized ACP or ACFP in the pellet and a stannous compound in the centre chew.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In a r aspect, the invention provides compositions ing pharmaceutical compositions comprising stabilized ACP or ACFP xes as described above together with a compound capable of increasing or maintaining the pH of a solution and a pharmaceutically-acceptable carrier. Such compositions may be selected from the group consisting of dental, anticariogenic compositions and therapeutic itions.
Dental compositions or therapeutic compositions may be in the form of a gel, , solid, powder, cream or lozenge. Therapeutic compositions may also be in the form of s or capsules. In one embodiment, the stabilized ACP or ACFP complexes are substantially the only active components of such a composition. For example, a creme formulation may be employed containing: water; glycerol; CPP-ACP/San; itol; silicon dioxide; sodium carboxymethylcellulose (CMC-Na); propylene glycol; titanium dioxide; xylitol; phosphoric acid; guar gum; sodium saccharin; ethyl p-hydroxybenzoate; magnesium oxide; butyl oxybenzoate and propyl p-hydroxybenzoate.
The invention further includes a formulation described above provided together with ctions for its use to treat or prevent any one or more of dental caries or tooth decay, dental erosion and fluorosis, dentinal hypersensitivity, dental plaque, itis or periodontitis.
In another embodiment, the itions of the invention as described herein do not include a phosphate buffer and/or a calcium chelator. For e, any rice described herein may not include a phosphate buffer and/or a calcium chelator.
In an embodiment of the present invention there is provided a composition, n the composition does not include a phosphate buffer and/or calcium chelator.
In another embodiment, the compositions of the invention as described herein do not include a viscosity regulator, or a ity regulator at 0.5 to 50%.
In another embodiment, the compositions of the invention as described herein do not include sodium carboxymethylcellulose, or 0.01 to 10% sodium carboxymethylcellulose having the esterification degree of 0.7 to 1.0.
In one embodiment, the active components of the composition consist essentially of the stabilized ACP or ACFP complexes.
It will be clearly understood that, although this specification refers specifically to applic?ons in humans, the invention is also useful for veterinary purposes. Thus in all [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson aspects the invention is useful for domestic animals such as cattle, sheep, horses and poultry; for companion animals such as cats and dogs; and for zoo s.
One example of a mineralizing composition ses the following (in decreasing order of proportion): water glycerol CPP-ACP/San D-sorbitol silicon dioxide sodium carboxymethylcellulose (CMC-Na) propylene glycol titanium dioxide phosphoric acid guar gum sodium saccharin ethyl p-hydroxybenzoate magnesium oxide butyl p-hydroxybenzoate propyl p-hydroxybenzoate.
The ion also provides a kit comprising stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) said kit being adapted for use in the above described methods.
The kit may include: - a container holding a composition comprising stabilized amorphous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP); a: label or package insert with instructions for use.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson In certain ments the kit may n one or more further active principles or ingredients for ent of a disease or ion.
The kit may comprise a container and a label or package insert on or associated with the container. Suitable containers e, for example, bottles, vials, syringes, blister pack, etc. The ners may be formed from a variety of materials such as glass or plastic. The ner holds a therapeutic composition which is effective for treating the condition and may have a sterile access port (for example the container may be an enous solution bag or a vial having a stopper pierceable by a rmic injection needle). The label or package insert indicates that the therapeutic composition is used for treating the condition of . In one embodiment, the label or package insert includes instructions for use and indicates that the therapeutic composition can be used for treatment of the given disease or condition.
The kit may comprise (a) a therapeutic composition; and (b) a second container with a second active principle or ingredient contained therein. The kit in this embodiment of the invention may further comprise a package insert indicating that the composition and other active principle can be used to treat a disorder or condition as described herein or t a complication stemming from dybiosis. Alternatively, or onally, the kit may further comprise a second (or third) container comprising a pharmaceutically-acceptable buffer, such as bacteriostatic water for injection (BWFI), phosphate-buffered saline, Ringer's solution and dextrose solution. It may further include other materials desirable from a commercial and user standpoint, including other buffers, diluents, filters, needles, and syringes.
The invention will now be further described with reference to the following non- limiting examples.
Examples CLINICAL STUDY: Prebiotic Effect of CPP-ACP on Supragingival Dental Plaque and oral health [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson STUDY OBJECTIVES Primary Objective To compare the effect of chewing a sugar-free gum containing 56.4 mg CPP- ACP, chewing a free gum containing 18.8 mg CPP-ACP, and no gum chewing, each in conjunction with normal oral hygiene procedures over 14 days, on the microbial composition of supragingival plaque formed on the maxillary molars.
Secondary Objectives A. To compare the effect of chewing a sugar-free gum containing 56.4 mg CPP- ACP, chewing a sugar-free gum containing 18.8 mg CPP-ACP, and no gum 1O chewing, each in conjunction with normal oral hygiene procedures over 14 days, on development of supragingival plaque.
B. To e the effect of chewing a sugar-free gum containing 56.4 mg CPP- ACP, chewing a sugar-free gum containing 18.8 mg P, and no gum chewing, each in conjunction with normal oral hygiene ures over 14 days, on development of gingivitis.
HUMAN ETHICS APPROVAL Human ethics approval was ed from the University of Melbourne Human ch Ethics Committee before commencing the study. All participants were required to provide written informed t before cing the study.
STUDY PLAN Study Design This examiner-blinded, randomized controlled clinical trial used a three- treatment, three-period cross-over design to assess the effects of chewing with a sugar- free gum containing 56.4 mg CPP-ACP, chewing with sugar-free gum containing 18.8 mg CPP-ACP, and no gum chewing over 14 days on the pment and change in composition of supragingival dental plaque as well as development of gingivitis in the presence of normal oral hygiene procedures. ipants were randomly assigned to [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson one of three treatments with each treatment period sing 14 days. The three treatments were as follows: A. chewing sugar-free gum containing 56.4 mg CPP-ACP for 20 minutes, six times per day, for 14 consecutive days; B. chewing sugar-free gum containing 18.8 mg CPP-ACP for 20 minutes, six times a day, for 14 consecutive days; C. no gum chewing.
During the treatment period, each subject ued with oral hygiene practices consisting of brushing twice a day with a fluoride toothpaste (supplied) and tooth brush 1O (supplied). Participants chewing the gum products were requested not to consume crobial mints, es, films and other non-study chewing gums during the ent period. Similarly, participants not chewing gum during the treatment period were requested not to consume antimicrobial mints, lozenges, films and other non-study chewing gums during the treatment period.
Source of Participants Participants were recruited from the staff of the Melbourne Dental School and the Melbourne Dental Clinic at the sity of Melbourne. All study participants provided signed informed consent prior to participation.
Participant Selection Criteria Inclusion Criteria: To be le to participate in this study, an individual met ALL of the following criteria: 1. Ability to tand, and willingness and ability to read and sign, the informed consent form. 2. Age range: 18 to 55 years old.
S?ood general health. ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson 4. Minimum of 20 l teeth.
. A gum-stimulated whole salivary flow rate 2 1.0 ml/minute and unstimulated whole salivary flow rate 2 0.2 ml/minute. 6. Willingness to comply with all study procedures and be available for the duration of the study.
Exclusion Criteria: Individuals who manifest ANY of the following exclusion criteria at the time of randomization were not eligible for the study: 1 . Allergy to milk protein or other ingredients in the gum product. 2. Orthodontic appliances or removable prostheses.
Veneers, or more than one r with a prosthetic crown.
Gross oral pathology (including periodontal disease (CPITN 2 3) and tumours of the soft or hard oral tissues).
Chronic disease with concomitant oral manifestations (e.g., diabetes pective of level of l], human immunodeficiency virus ion or acquired immunodeficiency syndrome, use of medications associated with gingival lasia).
Unrestored dentinal caries.
Treatment with antibiotics or anti-inflammatory medication in the month prior to starting the study.
Concomitant pharmacotherapy with drugs that may interact with test drug.
History of conditions requiring antibiotic coverage prior to invasive dental procedures.
. Pregnancy/lactation.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson ation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson TEST PRODUCTS ption of Test Products Each participant was randomly allocated to one of the following three treatments: A. Sugar-free chewing gum containing 56.4 mg CPP-ACP for 20 minutes, six times per day, for 14 consecutive days; B. Sugar-free chewing gum containing 18.8 mg CPP-ACP for 20 minutes, six times a day, for 1 consecutive days; C. no gum chewing.
Method of Dispensing 1O At the beginning of each leg, participants were issued with a package containing their allocated ent for that , a tube of fluoride toothpaste and a toothbrush.
Participants returned any unused gum and all used gum wrappers when they attended for the 14-day assessment at the end of each ent period. The quantities of gums sed and returned were recorded.
Method and Timing of Administration When allocated a gum test product, participants chewed their allocated gum for minutes, six times per day for 14 consecutive days at the following times: after ast, after morning tea, after lunch, after afternoon tea, after dinner and before retiring.
Methods of Randomization and Blinding A block randomization schedule was generated which ensured that all six treatment combinations (ABC, ACB, BAC, BCA, CAB, CBA) are equally likely.
The study was examiner-blinded. Throughout the study, the clinical examiner and the laboratory staff processing the plaque samples were unaware of which treatment arm a participant had been allocated. The participants and study personnel were also unawE of which g gum has been allocated, as the chewing gums were [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson provided in identical coded packages. As participants did not chew gum in one treatment period, it was impossible to fully blind the participants to treatment allocation.
Personnel dispensing the test material or supervising their use did not participate in the examination of the participants or is of plaque samples in order to minimize potential bias.
A researcher not involved in any of the analysis kept a master list of the code identification.
Assignment of Participants to Treatment: Following the baseline examination, participants were assigned a participant number. Participants were randomly assigned to one of the three treatments. Randomization was determined from a standard randomisation table for the number of ents in the parallel study.
Duration of Treatment Each of the three treatment periods were for 14 consecutive days. The treatment periods were ted by 14-day washout periods.
Concomitant Procedures Participants were instructed to continue to brush their teeth with the supplied fluoride toothpaste and toothbrush twice a day. Participants were instructed to n from mouth rinsing (except with water); flossing; using other oral hygiene aids; consuming antimicrobial mints, lozenges, films and other non-study chewing gum during each 14-day ent period.
EMENTS AND OBSERVATIONS Efficacy nts al Examinations At the start and finish of the ent period, participants had an examination for gingivitis and plaque, and supragingival plaque was collected from the buccal surfaces of the maxillary molars. Following the completion of the examination and supragingival plaque collection, participants received a supragingival scaling, clean and prophylaxis of [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson all their teeth. At the completion of the last examination for leg 3, each participant received a professional fluoride treatment.
Measurement of Plaque and Gingivitis Supragingival plaque was assessed using the Turesky modification of the y-Hein lndex (Turesky et al 1970 J ontol 41(1):41-43). This index is recognised as a reliable estimate of the tooth area covered by plaque and is frequently used for evaluating anti-plaque agents. The plaque index was obtained by adding the scores for each tooth and dividing by the number of surfaces examined. Plaque scores associated with ored labial, buccal and lingual surfaces of all teeth, except third 1O molars were assessed. Each surface was assigned a score from O to 5. itis was measured using the Modified Gingival lndex [Lobene et al 1986].
This index is a modification of the Loe and Silness Gingival Index and allows greater discrimination for mild and moderate gingivitis. In this study, gingival mation on a scale from O to 4 was scored for gingival tissues associated with four sites (buccal, lingual, mesial and distal) of all teeth.
Supragingival Plaque Collection Participants had all ingival plaque collected from the buccal surfaces of their maxillary molars (teeth 17, 16, 26 & 27) with a sterile g instrument. The plaque samples from each tooth were placed in separate sterile tubes, to give four samples per participant.
A one-part label was affixed to each ner of plaque ted from each participant. The label contained the following information: o ipant number . treatment code (A, B or C) o tooth (17, 16, 26 or 27) 0 treatment period (Leg 1, Leg 2 or Leg 3) . De (0 or 14 days).
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Plaque mass for each of the four samples from each participant was recorded to allow standardisation of DNA extraction procedures (0.2 mg per sample required for DNA tion). Homogenised plaque samples were stored at -80°C until required.
PLAQUE MICROBIAL ANALYSIS Genomic DNA was extracted from the plaque using a combination of mechanical tion of the cells via a Precellys homogeniser and the chemical extraction and purification of the genomic DNA via the PowerLyzer PowerSoil DNA lsolation Kit (MoBio). Quantitation of the extracted DNA was ed using a Qubit dsDNA High Sensitivity Assay kit (ThermoFisher), before 5 ng DNA was used as template in a PCR reaction that amplified the V4 variable region of the 16S ribosomal RNA gene and individually barcoded the PCR product from each sample. The barcoded DNA was then sequenced using an lon Torrent Personal Genome e and Torrent SuiteTM Software (ThermoFisher).
Analysis of the resulting sequence of the 16S mal RNA gene enabled identification of the bacterial population present in each sample, down to the species level. The BAM files ed with Torrent SuiteTM Software were transferred from the lon Torrent to the local lon Reporter server, where the lon Reporter Software 168 metagenomics ow was used to identify, at the genus or species level, the microbes present in the complex polybacterial samples, using both the premium d EQTM ID 16S rRNA reference database and the curated Greengenes database.
The data were collated in Microsoft Excel.
STATISTICAL METHODS Sample Size Determination Table 1 below shows the estimated sample sizes for each group for mean differences in abundance of S. sanguinis of 1.5%, 2.0%, 2.5%, and 3.0%, standard deviations ranging from 3.5% to 5.5 %, and the power of the test at 80%. It assumes a two-tailed paired t-test and or = 0.05. The range of means and standard deviations used in the sample size calculations was based on a previous pilot study.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson Table 1: Estimated Sample Size per Treatment Group Difference in Standard Deviation Means 3.5 4.0 4.5 5.0 Table 2 Table 2 shows the estimated size for each group allowing for a 10% percent ion rate during the study follow-up period.
Table 2: Estimated Sample Size per Treatment Group Difference in Standard Deviation Means 3.5 4.0 4.5 5.0 Assuming a standard deviation of 4.5% and a 10% percent ion rate, a sample of 18 participants were recruited to allow for a mean difference in abundance of S. nis of 3.5% to be detected with a power of 80 percent.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Wilkinson Unmarked set by Sarah.Wilkinson Statistical General Considerations Randomization and Blinding The two chewing gums were provided in identical packaging except that each was labelled with a code. The individual pieces of chewing gums were of similar appearance. The code was not released until all statistical analyses had been completed.
Assignment of ID to participants occurred sequentially after each participant had fulfilled the entry criteria.
The study was examiner-blinded. Throughout the study, the dental examiner and the laboratory staff processing the plaque samples were unaware of which treatment arm a participant had been allocated. The participants and study personnel were also unaware of which chewing gum had been allocated, as the chewing gums were provided in identical coded packages. As participants did not chew gum in one ent period, it was impossible to fully blind the participants to treatment allocation.
All particpants completed the study.
Compliance criteria: ance was judged by reviewing participant diaries of t use and recording of remaining clinical supplies.
Statistical Analysis of Demography and Baseline Characteristics The primary analysis set were all participants who ted the trial without significant protocol violations.
Descriptive statistics (mean, rd ion and range) were calculated for all continuous variables and frequencies for all ordinal variables. All statistical tests were two-sided and employed a significance level of q = 0.05. All es were performed using the tical e Stata (StataCorp LP, College Station, TX, USA) statistical software.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson tical Analysis of cy Data The individual 16S rDNA sequences produced for each sample were used to both classify the microbial lineages present (grouped as species level taxa) and determine the abundances of each taxon. Differences in the bacterial community over time was determined by measuring the changes in the relative taxon abundances for each individual.
This enabled a comparison of the effect of CPP-ACP on the bacterial composition of the plaque. The four samples from each individual enabled the determination of intra-subject variation in bacterial composition of plaque.
Results All ts completed the study and were deemed to be compliant with the ol. No adverse events were reported. The treatment with CPP-ACP did not produce a significant change in plaque index of the participants (Figure 1). Although the CPP-ACP did not affect the plaque index it did have a significant effect on bacterial composition demonstrating a substantial prebiotic effect by promoting the proportions of commensal/beneficial symbionts.
In total, over 300 different bacterial taxa were identified from 54 s. When the bacterial composition of the supragingival plaque was examined across the treatment groups, it was clear that there were significant changes when the CPP-ACP treatment legs were compared to no ent. The 18.8 mg CPP-ACP produced statistically significant increases in the proportions of the following bacterial taxa: Corynebacterium durum (80% increase); Roth/a ariosa (127% increase); Streptococcus mitis (55% increase) and ococcus sanguinis (112% increase) (Table 3). All of these species are now considered beneficial symbionts as they s one or both of enzymes s [Arginine Deiminase and/or Nitrate Reductase] which are known to be beneficial to the host. These significant increases in commensal/beneficial species was CPP-ACP dose-related as the increases were significantly greater for the 56.4 mg CPP-ACP dose. The increases in beneficial species was associated with a concomitant ion in the proportion of pathogenic species nts). This increase in the abundances of beneficial symbionts was also [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson reflected in an increase in gingival health as demonstrated by a significant CPP-ACP elated ement in gingival index e 2).
Table 3. Oral species significantly increased by 18.8 mg CPP-ACP are Gram-positive commensals possessing one or both of Arginine Deiminase and Nitrate Reductase systems which promote homeostasis . . . % increase in Arginine Nitrate relative. ase. . Reductase abundance Corynebacz‘erium durum Yes (partial) 80% (p<0.001) Streptococcus gordonii/miz‘is-- 55% (p Table 4. Oral species significantly reduced by 18.8 mg CPP-ACP are Gram-negative, inflammogenic anaerobes associated with dysbiosis Arginine Nitrate % decrease in ase Reductase relative abundance [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson In conclusion this randomised, controlled clinical study demonstrated that CPP- ACP treatment ed in a significant increase in the proportion of the health- associated symbionts and improvement in oral health ting that P was a prebiotic.
San promotes CPP-ACP prebiosis in a crobial model Multispecies Oral Biofilms Culture To model supragingival plaque six representative oral bacterial species, Streptococcus sanguinis (NCTC 7863), Streptococcus mutans lngbritt, Actinomyces naeslundii (NCTC 1O 10301), Veil/onella parvula (ATCC 17745), Lactobacillus casei (NCDO 161) and Fusobacterium nucleatum (ATCC 10953) (Table 5) were cultured as a polymicrobial biofilm on a human enamel substratum in a constant-depth film fermenter (CDFF; Cardiff University, UK). The CDFF was housed in a 37°C incubator under anaerobic conditions which were maintained by a nt flow of 5% C02 in N2 at 1 L/h. The CDFF contained 15 removable polytetrafluoroethylene (PTFE) pans on a circular rm that was rotated at a constant speed of three rpm. The biofilms were grown on three enamel blocks (see below) in each PTFE pan using an artificial saliva medium (ASM, 2.5 g/L mucin type II (porcine, gastric, Sigma), 2.0 g/L iological peptone (Oxoid), 2.0 g/L tryptone (Oxoid), 1.0 g/L yeast extract (Oxoid), 0.35 g/L NaCl, 0.2 g/L KCI, 0.2 mg/L vitamin K, 1 mg/L haemin and 0.1 g/L cysteine hydrochloride) at a constant flow rate of 30 mL/h. Prior to inoculation, the CDFF pan surfaces were conditioned for 24 h with ASM at a flow rate of 10 mL/h (McBain et al (2003) J Appl Microbiol. 94(4):655-66). In order to mimic in vivo bacterial growth conditions in the oral cavity with dietary sugar intake and to provide a high cariogenic challenge, a 1% (w/v) sucrose solution in ASM was pumped into the CDFF four times a day at four hourly intervals with a flow rate of 30 mL/h for 10 min.
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Table 5. Bacterial strains used in this study, 16S rRNA gene copy number and species composition of the inocula.
Number of cells Genome s1ze_ 16S rRNA gene Bacterial straina in inoculum (X (bp) b copy number 7 10 )C Actinomyces naeslundii NCTC 10301 3,091,654 2 9.90 :: 8.32 Fusobacterium tum ssp. 2,428,298 5 11.5 :: 8.79 polymorphum ATCC 10953 Lactobacillus casei (NCDO 161) 2,851,896 5 5.10 :: 2.40 ococcus mutans (Ingbritt) 2,030,511 5 13.7 :: 5.77 ococcus sanguinis (NCTC 7863) 2,303,750 5 21.7 :: 10.9 ATCC 10556 Veillonella parvula ATCC 17745 2,163,473 4 5.44 :: 3.08 aall strains were sourced from the Oral Health Cooperative Research Centre at the Melbourne Dental School b168 rRNA gene copy number was determined by sequence is of the genomes conducted in our laboratory, data not shown.
Cmean and standard deviation of the number of cells of the inocula used in this study as determined by qPCR.
Three treatments were d to the polymicrobial biofilms: 290 ppm fluoride with 220 ppm fluoride as San and 70 ppm fluoride as NaF (referred to as San), 2% CPP-ACP and 2% CPP-ACP-San. These treatments were compared with the control in which the test solution was replaced with ASM. Each treatment was applied using two 10 min pulses of the test solution in ASM with a flow rate of 30 mL/h. The first pulse d 30 min prior to the first sucrose pulse of the morning and the second started 3 h 30 min after the final sucrose pulse of the day.
[Annotation] Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson ation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson On day 6, 12 and 19 after inoculation four pans were removed aseptically from the CDFF and replaced with blank sterile pans. Enamel blocks from the pans were removed for bacterial enumeration and transverse microradiography.
Enamel Block Preparation Three hundred and sixty extracted human third molars were obtained under University of Melbourne ethics approval (HREC #1237616) and sterilized by exposure to 4.1 kGy of gamma radiation. Enamel blocks were cut from the teeth with approximately 6 x 3 x 3 mm dimensions using a water-cooled diamond blade saw (Minitom, Struers) and polished using a RotoPol/RotoForce lapping instrument with 1200, 2400, 4000 grit 1O lapping papers (Struers) and 3 and 1 pm diamond polishing pastes (Struers). The blocks were positioned in custom made CDFF pans at a depth of 100 um and sealed in place with yellow sticky wax (Kemdent) and sterilized by exposure to 4.1 kGy of gamma radiation.
Planktonic and loosely attached bacterial cells were y removed from the enamel blocks by light washing with 100 uL ASM. To harvest the biofilm cells on each block, the surface was scraped with a sterile r with 1 mL of ASM. The biofilm bacterial cells were sedimented by centrifugation (10,000 g, 10 min), the supernatant carefully decanted and the cell pellets stored at -80°C until required for DNA extraction. The enamel blocks were then used for sectioning and microradiography.
DNA Extraction and Sequencing of Biofilm Samples For each timepoint, DNA was extracted separately from 8-9 enamel blocks using PowerLyzer® PowerSoil® DNA ion Kits (MoBio Laboratories) ing the manufacturers m ol" with a Precellys® bead homogeniser (Bertin Technologies). Samples were quantified using a M dsDNA HS assay kit (Life Technologies) before being stored at -80°C.
The lon Amplicon Library Preparation Fusion Method (Thermo Fisher Scientific), was adapted for amplification of the V4 region of the 16S rRNA gene. PCRs were med in a ?lL reaction volume containing 5 ng of DNA, 1X Q5 reaction buffer, 0.3 uM [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson urified custom barcoded primers o Fisher Scientific), 0.2 mM dNTPs and 1 unit of Q5 Hot Start High-Fidelity DNA polymerase (Genesearch). Reactions were held at 98°C for 3 min to denature the DNA, followed by 17 cycles of amplification at 98°C for 10 s, 48°C for 10 s, and 72°C for 15 s. Fon/vard-primers, with barcodes 1-62, were designed as ied for the Fusion Method, using a GA spacer and GTGCCAGCMGCCGCGGT as the binding region sequence. A single reverse-primer was used consisting of the reverse adapter, a TC spacer and a g region sequence of GGACTACHVGGGTVVTCTAA.
Multiplex sequencing of amplicon libraries was performed using an lon Torrent Personal Genome Machine, utilising the lon OneTouchTM 2 200 Kit, and lon PGMTM Sequencing 200 Kit v2 chemistries extended to 535 cycles (Thermo Fisher Scientific).
Sequencing data was analysed with the lon t re by g against the known 168 V4 sequence for each of the 6 species. To adjust for differences in sequencing depth, the total number of reads was ized by ampling to the lowest occurring number of reads.
Confocal Laser Scanning Microscopy Enamel substrata with attached polymicrobial biofilms were immersed in PBS to rinse away culture media and unattached bacterial cells, prior to immersion in 4% paraformaldehyde, for 30 min on at room temperature. They were then immersed in PBS to remove the paraformaldehyde. In preparation for in situ hybridisation, the biofilms were embedded in 20% acrylamide with 0.02% ammonium persulfate and 0.8% N,N,N,N-tetramethylethylenediamine (TEMED), and subsequently stored in PBS at 4 Polymicrobial biofilms were subjected to fluorescent in situ hybridisation (FISH) using the ing customised species-specific probes. The probe sequence ACT CCA GAC TTT CCT GAC labelled with Alexa594 at the 5’ detected S. mutans, AGA CGC AAT CCC CTC CTT labelled with 05 at the 5’ ed V. dispar, ACT CTG CCG ACC ATT CTT CT labelled with Alexa647 at the 5’ detected L. casei, AGA GAT AGA GTT TCT CTT CGG labelled with Alexa488 at the 5’ detected 8. sanguis, CGG TTA TCC AGA ?A AGG GG labelled with Alexa405 at the 5’ detected A. naeslundii, and CTA ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Wilkinson ATG GGA CGC AAA GCT CTC labelled with Alexa647 at the 5’ detected F. tum (Thermofisher, Australia). ms were incubated at 46 °C for 2.5 h, with the hybridisation buffer containing each probe and 10 % formamide, as previously described (Zainal-Abidin et al (2012). J Proteome Res. 11(9):4449—4464). Hybridised biofilms were then immersed in a washing buffer (0.45 M NaCl, 20 mM Tris-HCl, 5 mM EDTA, 0.01% SDS) for 25 m at 48 °C and ed for imaging. Biofilms were visualised on the Zeiss al Laser Scanning Microscope as previously (Zainal- Abidin et al (2012). J Proteome Res. 11(9):4449—4464) and analysed with COMSTAT software to determine biometric ters. 1O ng Electron Microscopy Biofilm samples were prepared for scanning on microscopy analysis as described previously (Zainal-Abidin et al 2012 above; Zhu et al (2013) PLoS One. 71727).
Transverse Microradiography Transverse microradiography was carried out essentially as described previously [Shen et al 2011]. Radiographic images of the lesion and the sound enamel next to it were each scanned six times and averaged to give a demineralized densitometric profile and control sound-enamel densitometric profile and the volume % mineral (vol%min) content profiles were ed. The lesion depth (um) was determined as the distance to the point at which the mineral content reaches 95% of the sound enamel value. The integrated mineral loss (IML), represented as AZd, was ated by trapezoidal integration as the area between the enamel densitometric profile and that of the demineralized enamel densitometric profile in vol%min.um.
Biofilm Ion Analyses Calcium, phosphorous and tin content of polymicrobial biofilm samples were determined by inductively-coupled mass spectrometry essentially as described previously [Dashper et al 2005].
Statistical Analyses Bacterial s and lesion parameter comparisons. Normality of residuals was chech using Q-Q plots and the Shapiro-Wilk test for normality and homogeneity of [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson ation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Wilkinson Unmarked set by Sarah.Wilkinson variance was tested using Levene’s test. As residuals for bacterial species composition did not approximate a normal distribution even following Box-Cox transformation using Minitab version 17 software (Minitab lnc. State e PA, USA), differences in s proportions were analysed using the Kruskal-Wallis test for more than two independent samples. Post hoc Wilcoxon Rank Sum tests with a Bonferroni tion were used to measure differences between treatments (Sokal and Rohlf (1969). ry San Francisco: W.H. Freeman and Co.). For lesion parameter differences, LDs at day 6 were measured on Box-Cox transformed data using a one-way ANOVA with painNise differences measured using post hoc Tukey tests. Differences in AZd values at day 6 1O and both LD and AZd values at days 12 and 19 were measured using the Kruskal-Wallis test and post hoc Wilcoxon Rank sum tests with a roni correction. All statistical tests were performed using SPPS version 22 software (IBM SPSS Inc, IL, USA). In all cases, or was set at 0.05.
Development of the Polymicrobial Biofilm Model High numbers of all six bacterial species were present in the polymicrobial inocula as determined by 16s rRNA gene analyses (Table 5). Polymicrobial biofilms established y on the sound human enamel substratum of the constant-depth film fermentor (CDFF) after ation when grown in the presence of artificial saliva medium (ASM) with frequent exposures to sucrose. All six bacterial species were detectable in the polymicrobial biofilm of all four biological replicates of the control at every time point, although F. nucleatum was never present above 0.01% of the total bacteria present. A. naeslundii sed over time from under 2% at day 6 to over 18% of the total bacteria at day 19 (Figure 3). The proportion of L. casei increased dramatically over the course of the experiment and was at an average of 16% of the total bacterial population by day 19. There was a e in the proportion of S. sanguinis from 36% of the total biofilm bacteria on day 6 to less than 11% by day 19. There was no clear trend in the proportions of S. mutans over time and it is likely that this species remained vely stable. S. mutans was the most abundant species in the biofilms, accounting for between 48 to 64% of the total ial population (Figure 3).
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Demineralization of the initially sound human enamel substratum was produced by exposure of the enamel blocks to the sucrose pulsed polymicrobial biofilm. Enamel lesions were generated that ined an intact surface layer and were similar in that respect to early caries lesions seen in vivo (Figure 4). The crobial biofilm also had a similar structure to supragingival plaque when imaged by scanning electron microscopy (Figure 4). Lesion formation ssed in a linear manner after an initial lag period with a mean constant rate of mineral loss from day 6 to day 19 of 225.1 vol% minum/day e 4). There was a mean lesion depth of 87.1 1r 8.4 pm and a mean integrated mineral loss (AZd) of 35756 1r 562.0 vol% minum on day 19 (Table 6). 1O Table 6. The effect of San, CPP-ACP and CPP-ACP/San on integrated l loss (AZd) and lesion depth (LD) of subsurface lesions formed in the enamel substratum of the polymicrobial biofilm caries model.
Day 6 Day 12 Day 19 AZd AZd Group LD (um) AZd (V01%mm.um). LD (um) LD (um) (V01%n11n. um). 11n. um). l 641.5 139.0"1 18.0 3.0ab 2155.2 407.2"‘be 49.9 8.0"1130 3575.6 562.0abc 87.1 8.4"1130 CPP-ACP 5729:9780 15.0::2.1a 1075321480" 26.3:44ad" 2105423462" 52.3232"01 8an 6367:1294 17.6:120 1352121473bole 37125.3" 2096.3:667as 46.1::4.7be CPP-ACP + 092a 14.3:26be 1091.3:1382ce 28.9::1.9cef 1395.5:2632ode 38.0234ode Day 6: same cripts in LD column indicate significant differences; (ac p < 0.05; p < : same superscript in AZd column indicates icant difference (a p < 0.05). All other ences are not significant (p > 0.05).
Day 12: same superscripts in column indicate significant differences. LD - all differences are signi?cantly ent (p < 0.05). AZd - all differences significantly different (p < 0.05) except between CPP-ACP and CPP-ACP+SnF2 (p > 0.05).
Day 19: same superscripts in column indicate significant differences - LD and AZd - all differences significantly different (p < 0.05) except between SnFZ and CPP-ACP. (p > 0.05).
Effect of San and CPP-ACP on Composition of the Polymicrobial Biofilm [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson Treatment of the polymicrobial biofilm twice daily with San significantly reduced the abundance of A. naeslundii and increased the abundance of S. sanguinis relative to the control at day 19 (Figure 5, Table 7). Treatment of the polymicrobial biofilm twice daily with CPP-ACP resulted in more significant changes to the composition of the polymicrobial biofilm, especially by day 19 after inoculation. Although S. mutans and V. parvula tions remained relatively constant L. casei dramatically decreased and S. sanguinis and F. nucleatum both significantly increased compared with the control (Figure. 5). The largest changes in relative abundance were a consistent >95% decrease in L. casei whilst F. nucleatum showed the largest mean increase of 355% at 1O day 19 (Figure. 58, Table 7). The ation of CPP-ACP and San caused more marked s on the bacterial composition of the polymicrobial m (Figure 5 and Table 7). There were notable decreases in the acidogenic and aciduric species, S. mutans, A. ndii and L. casei, as well as V. parvula. The acid-sensitive species F. nucleatum increased dramatically to 34% of the total ia becoming the second most abundant species in the polymicrobial m and S. nis also increased in abundance by 50%. All six bacterial species were detectable at all times in the treated biofilms. Confocal laser ng microscopy of the CPP-ACP/San treated polymicrobial m using specific stains for four of the bacterial species confirmed the emergence of F. nucleatum as a major component of the community (Figure 5).
Table 7. Effect of the four treatments on the bacterial species composition as a percentage of total bacteria in the biofilm.
Vparvula 18.11::8.96*"‘ 0.01:0.01‘"16.21::13.64""4856:1523 1037::5.79a ' 6.75 :: 4.12a San/NaF 5.54:1.74" 0.02:0.01C 1067:6925 59.82::459" 17.47::3.44a 6.50 :: .
CPP-ACP 11.93 :: 2.34' 2.43 ::1.21ace 0.38 :: 0.23ac 58.70 :: 5.47' 19.85 2 86 c 6.71:: 0.89C CPP-ACP+ 9.76 :: 2.01C 34.13 :: 4.88""6 0.18 :: 0.07" 37.95 :: 2.643'1561, 1.76C 2.37 :: 0.453"; San/NaF Overall p- <0.001 <0.001 <0.001 0.004 <0.001 0.019 value [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ed set by Sarah.Wilkinson * Mean 1r standard deviation. Proportion of bacterial species in polymicrobial biofilm exposed to four treatments at 19 days. "we Same superscripts in column te significant differences (p < 0.05). n = 5-21.
All comparisons across treatments performed with a Kruskal-Wallis test (see overall p- value) and painNise differences between treatments were measured with post hoc Wilcoxon Ranked Sum tests with a Bonferroni correction.
Effect of San and OPP-ACP Preparation on Enamel Demineralizaz‘ion Treatment of the polymicrobial m with San resulted in a significant 50.2% reduction in rate of ralization to 112.1 vol% minum/day between day 6 and day 1O 19 (Table 6). This reduction was not statistically different to that seen with the CPP-ACP treatment which also produced a 50.2% reduction in demineralization rate (112.1 vol% minum/day) over the same period. However the ion in demineralization rate to 64.1 vol% minum/day was significantly greater (72%) for the combined SnF2/CPP-ACP treatment (Table 6). lCP-MS analysis of the biofilms demonstrated a four-fold increase in calcium and a three-fold increase in orous when P was used with San. Interestingly San treatment resulted in a ld increase in both calcium and phosphorous relative to the control. Stannous tration peaked at 1.0 g m wet weight during both the San preparation and CPP-ACP-San treatments.
However this tration was reached earlier with the CPP-ACP-San treatment.
Discussion The six species bacterial biofilm communities produced in the CDFF with four pulses of sucrose per day were dominated by the more acidogenic and aciduric, and therefore cariogenic, species S. mutans, A. ndii and L. casei which together constituted 85% of the polymicrobial biofilm on day 19. This proportion had increased from 55% on day 6. When examining just the proportions of A. naeslundii and L. casei in the control biofilm there was an increase from 2.5% of total bacterial cells to 34% from day 6 to day 19 (Figure 3). This indicates a highly acidic and cariogenic nment, which is consistent with the low levels of the neutrophilic species F. nucleatum and the rapid, constant and reproducible rate of demineralization in this model (Figure 4).
[Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson None set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson ionNone set by Sarah.Wilkinson [Annotation] Sarah.Wilkinson Unmarked set by Sarah.Wilkinson Having established the reproducibility of the model the effects of twice daily additions were studied of 290 ppm fluoride as a mixture of SnF2(220 ppm F): NaF(7O ppm F), which was ed to represent a old dilution in saliva of current 1450 ppm F dentifrices using SnF2/NaF. In the study A. naeslundii was significantly reduced and S. sanguinis icantly increased in ve abundance in the polymicrobial m during San treatment. Sn accumulated in the polymicrobial biofilms up to a concentration of 119 ppm. San reduced the rate of enamel demineralization in this study by 50% over 19 days of twice daily exposure and the major mechanism is likely to be related to the action of the F ion promoting remineralization. 1O CPP-ACP addition not only resulted in a significant 50% reduction in demineralization rate, it also suppressed the emergence of the highly enic L. casei. In addition there were reproducible increases in the abundance of the acid-sensitive and beneficial symbionts F. nucleatum and S. sanguinis (Figure 5, Table 7). This indicates that CPP- ACP had a prebiotic effect on biofilm development in this model.
An enhanced prebiotic effect on the ial composition of the polymicrobial m by P and San was noted with all three enic and aciduric species decreasing in abundance. V. parvula also decreased which may indicate a decrease of lactate due to the inhibition of glycolysis and F. nucleatum became a major component of the biofilm. These changes were associated with the highly significant 72% inhibition of enamel demineralization rate which would translate to a significant improvement in oral health. The additive effect of the San and CPP-ACP in promoting prebiosis was attributed to the y of the stannous ions (Sn2+) to cross-link the P and better deliver the prebiotic to the polymicrobial biofilm and the intra-oral/tooth surface as demonstrated in Example 3.
It will be understood that the invention disclosed and defined in this specification extends to all alternative combinations of two or more of the individual features mentioned or evident from the text or drawings. All of these different ations constitute s alternative aspects of the invention. 1004683749
Claims (21)
1. Use of casein phosphopeptide stabilized amorphous calcium phosphate (ACP) and/or casein phosphopeptide stabilized amorphous calcium de phosphate (ACFP) in the manufacture of a medicament for increasing commensal oral bacteria 5 at an oral site in an individual.
2. The use according to claim 1, wherein the commensal oral bacteria are one or more species that express arginine deiminase and/or nitrate reductase.
3. The use according to claim 2, wherein the bacteria are any one or more of Corynebacterium durum, Rothia dentocariosa, Streptococcus mitis, Streptococcus 10 sanguinis and Fusobacterium nucleatum.
4. The use according to any one of claims 1 to 3, wherein the use further reduces pathogenic oral bacteria at an oral site in an individual.
5. The use according to claim 4, n the pathogenic oral bacteria may be any one or more associated with gingival inflammation, gingivitis, c gingivitis or 15 periodontal disease.
6. The use according to claim 5, wherein the enic oral bacteria are acidogenic and/or aciduric and/or inflammogenic.
7. The use according to claim 6, n the pathogenic oral bacteria are inflammogenic. 20 8. The use according to claim 6 or 7, wherein the bacteria are any one or more selected from Streptococcus mutans, Actinomyces ndii, Veillonella parvula,
8.Lactobacillus casei, Porphyromonas gingivalis, Tannerella forsythia, ema ola, Leptotrichia wadei, hrichia shahii, Leptotrichia buccalis and
9.Lautropia mirabilis. 25 9. The use according to claim 1, wherein the use further inhibits oral dysbiosis in an individual.
10. Use of casein phosphopeptide stabilized ous calcium phosphate (ACP) and/or casein phosphopeptide stabilized amorphous calcium de phosphate 1004683749 (ACFP) in the manufacture of a medicament for ng periodontitis in an individual in need thereof.
11. The use according to claim 10, wherein the use further comprises an initial step of identifying an individual having ontitis. 5
12. The use according to any one of claims 1 to 11, wherein the individual has received a dental procedure prior to receiving ized ous calcium phosphate (ACP) and/or stabilized amorphous calcium fluoride phosphate (ACFP) to the oral cavity of the individual.
13. The use according to claim 12, wherein the dental procedure is selected from 10 debridement, g, root planning and any other procedure to remove subgingival or supragingival bacteria.
14. The use according to any one of claims 1 to 13, wherein the individual does not have any detectable dental surface or face lesions.
15. The use according to any one of claims 1 to 14, wherein the medicament is 15 adapted for stration to the individual for 5 to 60 minutes, 10 to 45 minutes, 10 to 30 minutes or 20 minutes.
16. The use ing to any one of claims 1 to 15, wherein the medicament is adapted for administration 4, 5 or 6 times per day, or per 24 hour period.
17. The use according to any one of claims 1 to 16, wherein the medicament is 20 adapted for administration for a 1 to 2 week period.
18. The use according to any one of claims 1 to 17, wherein the medicament is formulated in any one of the following: toothpastes, toothpowders and liquid dentifrices, mouthwashes, mouthrinses, mouth sprays, h, dental cement, troches, chewing gums, dental pastes, gingival massage creams, gargle tablets, dairy 25 products and other foodstuffs.
19. The use according to claim 18, wherein the medicament is formulated in a chewing gum. 1004683749
20. The use ing to claim 19, wherein the chewing gum contains at least about 15mg, 20mg, 25mg, 30mg, 35mg, 40mg, 45mg, 50mg, 55mg or 60mg of stabilised ACP or ACFP.
21. The use according to claim 20, wherein the chewing gum contains about 18.8 5 or 56.4mg of stabilised ACP or ACFP. None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Sarah.Wilkinson None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Wilkinson _......................................................................................I..............................................k Mm _ 3 5.O 3 0.O 2 5.O mmmmmmmmmmm 2 0.O l 5.O l O.O O0.O ..................................................................................................... “““““ ‘‘‘‘‘‘‘‘‘‘‘ ‘‘‘‘‘‘‘‘‘‘ ‘‘‘‘‘‘‘‘‘‘‘ ‘‘‘‘‘‘‘‘‘‘‘ ‘‘‘‘‘‘‘‘‘‘‘‘ ‘‘‘‘‘‘‘‘‘‘‘‘ m ........................................................................................................................................ None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Sarah.Wilkinson None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Sarah.Wilkinson .......................................................................................................................................... _ rxxxxxxxxxxxxxxxxxxxxwxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxt‘ttttttttxtthxuuuuu None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Sarah.Wilkinson None set by Sarah.Wilkinson MigrationNone set by Sarah.Wilkinson Unmarked set by Sarah.Wilkinson
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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AU2017900893A AU2017900893A0 (en) | 2017-03-14 | Treatment for gingivitis | |
PCT/AU2018/050231 WO2018165708A1 (en) | 2017-03-14 | 2018-03-14 | Treatment for gingivitis |
Publications (2)
Publication Number | Publication Date |
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NZ757005A NZ757005A (en) | 2023-08-25 |
NZ757005B2 true NZ757005B2 (en) | 2023-11-28 |
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