ITRM930739A1 - ADDITION, IN DIFFERENT CONCENTRATIONS, OF HYDROXYAPATITE, ULTRAMICHRONIZED CA10 (PO4)6(OH)2: H.A.U.M. (CRYSTALS DIAMETER: 0.2/1.0 - Google Patents

Abstract

The peculiar characteristic of the invention consists in the addition, in different percentages, of the ultra-synchronized hydroxyapatite: H.A.u.m. (76% of the crystals measure a diameter between 0.2 and 1.0 microns) to the base paste of the chewing gum which, in the hypothesis of an addition of one percent, will give rise to a product having the composition described below: - ultramicronised hydroxyapatite: HAum g 1- chewing gum base paste, flavoring, non-cariogenic sweeteners to taste 100 g. The patent in question is also characterized by the high degree of ultramicronization achieved by H.A.u.m. which allows to obtain a chewing gum which attacks the bacterial plaque without scratching the enamel of the teeth; this is a very important detail because it should be borne in mind that, on average, chewing gum is chewed for about an hour. From chewing gum enriched with H.A.u.m. the hydroxyapatite microcrystals that Dentistry successfully uses through various application methods are released: gels, toothpastes, preparations for topical use.

Description

DESCRIPTION

of the INDUSTRIAL INVENTION PATENT entitled "composition of base paste for chewing gum based on ultramicronized hydroxyapatite"

TEXT OF THE DESCRIPTION

Hydroxyapatite: Ca ^ o (PO4 ^ 6 (? H) 2 (which from now on we will call: H.A.) represents the fundamental structure of bones and teeth and constitutes 98% of the dental enamel: naturally it is a perfectly biocompatible substance and absolutely biostable.

The peculiar characteristic of the invention consists in the addition, in different percentages, of the ultramicronized hydroxyapatite: H.A.u.m. (76% of the crystals measure a diameter between 0.2 and 1.0 microns) to the base paste of the chewing gum which, in the hypothesis of an addition of one percent, will give? leads to a product having the composition described below:

- ultramicronized hydroxyapatite: H.A.u.m. g 1

- chewing gum base paste, flavoring,

non-cariogenic sweeteners to taste to g 100

The patent in question is also characterized by the high degree of ultramicronization achieved by H.A.u.m. which allows to obtain a chewing gum which attacks the bacterial plaque without scratching the tooth enamel; this is a very important detail why? it should be borne in mind that, on average, chewing gum is chewed for about an hour.

From chewing gum enriched by H.A.u.m. the hydroxyapatite microcrystals that the dentist uses successfully in different ways are released. of application: gels, toothpastes, preparations for topical use.

In this way a chewing gum is produced, henceforth called:

H.A.C.G. which, based on the specific activity? of a biological product, the ultramicronized hydroxyapatite: H.A.u.m., ki is an adjuvant in the most? frequent dental indications:

1) anticaries (11) (14) (15) (17) (21)

2) anti-plaque (2) (14) (15) (20)

3) hypersensitivity? dentinal (4) (13) (22) (23) (26)

4) remineralizing: states of pregnancy and climacteric osteoporosis, subjects undergoing orthodontic treatments, children under six years of age? to which the Ministry of Health? with Bulletin Inform. Drugs, Feb. 89 recommended avoiding the use of fluoride toothpastes (8)

(11) (14) (17) (21)

Sar? good to reiterate the concept that the utility? of the use of chewing gum: H.A.C.G. in the indications described above it derives

not so much from the addition of the H.A. as it is but? closely related to the properties? which derive from H.A. from its ultramicronization: H.A.u.m. which, as widely described and documented by the International Scientific Literature, confers on H.A.C.G. the specific features that will be more? forward illustrated.

The properties osteogenetic and osteoinductive properties of hydroxyapatite are characterized and enhanced by a particular ultramicronization technique that manages to reduce its crystals down to a size of 0.2 - 1.0 microns (range 70%) and that is? to a diameter even more? smaller than that of the dentinal tubules.

The hydroxyapatite allows a catalization of self-repairing processes thanks to its ability? osteoinductive; in fact, by presenting superficial calcium ions and phosphorus ions, it contributes to making them available for a binding interaction with the organic constituents of the osteo-dental tissues. (4) The H.A.C.G. for its content of H.A.u.m. favors superficial mineralization and helps to activate deep remineralization. (11)

The level of ultramicronization, never reached so far, has allowed us to obtain crystals of H.A. with a diameter of less than one micron as shown in the diagram relating to micrographic analyzes: Fritsch Particle Sizer, ANALISETT 22, Average Sizeclass (micron), fixed particle sizes (undersize) which, as regards the range "0.2 / 1.0 micron" , highlights:

76% of crystals with a diameter of less than 1.00 microns, 72.24% with a diameter of less than 0.80 microns, 47.50% with a diameter of less than 0.60 microns, 23.80% with a diameter of less than 0, 40 microns, 15.00% less than 0.25 microns and 10.00% less than 0.20 microns.

The idea of using hydroxyapatite and what? a natural component of the organism as an active ingredient for the remineralization of the enamel, for the hypersensitivity? of collars and as anti-plaque and anticaries had for some time aroused the interest of dentistry: Grossman L.E./1935. Pi? recently Wannenmacher E./1973 had been able to highlight, limited to the application in hypersensitivity? dentinal, fair results what were they for? limited by the impossibility? to obtain micronizations of less than one micron.

In an attempt to obtain better results, some researchers have tried to increase the percentage content of H.A. but yes? found that compounds containing up to twenty percent of H.A., did not give satisfactory results.

The studies more? recent have instead clarified that the activity? of the H.A. depends solely on the degree of ultramicronization of its microcrystals (up to 0.20 microns) which gives them the capacity? to penetrate, deposit and occlude the dentinal tubules whose diameters, particularly in the lateral part of the tooth, decrease until they have dimensions of the order of 0.60 / 1.00 micron. (3) (4) (13)

The presence of H.A.u.m. makes H.A.C.G. a "biological-multifunctional" product, thanks to the multiple properties? that the H.A. owns, property? which will be described here on the basis of the results of in vitro and in vivo studies, reported in the International Literature.

The "polyfunctionality?" chewing gum H.A.C.G. is based on ?? its capacity? to carry out, thanks to the presence of H.A.u.m., a remineralizing / anticarying, desensitizing and anti-plaque action.

The anticary action is mediated in part by the capacity? who owns the H.A. to adsorb protein substances and therefore to positively control the formation of dental plaque (20), but also and above all by the remineralizing action of A. on initial carious lesions.

The absorption of the H.A.u.m. on the part of the tooth enamel plays a decisive role in replenishing the erosion at which the enamel? subjected to chemical, physical and mechanical factors; ? For example, it has been observed (Vrbic / 1967) that a medium hard toothbrush operated for a couple of minutes by an experimental brushing machine removes a quantity? of enamel around 3-4 microns.

The restorative action of H.A.C.G. determined by the capacity? of the tooth enamel surface to absorb hydroxyapatite through a complex chemical-physical bond.

The Japanese School, in the persons of Kani T., Kani M. and collaborators (14-15-21), performed in vitro and in vivo studies on the effect exerted by H.A.u.m. on initial carious lesions. These studies have shown that, in the presence of an initial demineralization of the enamel which represents the first stage of caries, the crystals of H.A. natural can be replaced by crystals of H.A.u.m. synthetic, in order to restore the integrity? of the dental element through the same inorganic component present in nature.

The capabilities remineralizers are directly proportional to the micronization levels of the H.A crystals; in this sense, the H.A.u.m. contained in the chewing gum H.A.C.G. it presents itself with micronization values that had not, up to now, been able to obtain.

For that? that concerns the capacities? desensitizers on hypersensitive dentin, there are experimental data in the literature that attribute to H.A.u.m. this prerogative. Before going into detail on this point, it seems appropriate to briefly summarize the etiopathogenetic mechanisms of hypersensitivity? dentinal.

The hypothesis pi? accredited? that of Brannstrom (5-6) who elaborated the hydrodynamic theory of sensitivity? dentinal.

According to this theory, the painful sensations are caused by the movement of the tubular fluid in response to stimuli of various kinds: tactile, thermal, osmotic. An implicit corollary of the hydrodynamic theory? what the dentinal tubules have open entrances:? to all known, in fact, that the tubules underwent sclerosis, since? they do not allow the movement of fluids, they do not result in hypersensitivity phenomena.

To all of this? therefore it follows that hypersensitive dentin? a permeable dentin. If the fluid is removed from the extremities? tubular between dehydration or with a jet of air, the capillary forces cause a displacement of the fluid itself, displacement which? responsible for the stimulation of nerve mechanoreceptors located on the interface between pulp and dentin.

This stimulation generates an electrical response that is transmitted all the more? easily how much more? the tubules are patent. It is evident that on the basis of this theory and in accordance with Pashley's studies (12-22-23), the sensitivity? dentinal can be reduced by decreasing the conductance of the tubules and obliterating their orifices.

In fact, according to the studies of Silverstone and Huttemann (13-25), the H.A.u.m. remineralizing on dentin. Silverstone in 1984 was able to demonstrate, through analytical electron microscopy, a decrease in the diameter of the dentinal tubules on human dentine samples treated with H.A.u.m. compared to a control group.

In 1987 Huttemann clinically evaluated the efficacy of H.A. on hypersensitivity? dentinal, confirming "in vivo" the results obtained by Silverstone "in vitro". Through the H.A. contained in chewing gum? therefore it is possible to obtain a structural modification of the tubular diameter up to its almost total occlusion.

Claims (1)

CLAIMS 1) Composition, in different percentages, of an organic product: ultramicronized hydroxyapatite, (76% of the crystals measure a diameter between 0.2 and 1.0 microns) to the basic pastes of various types and packs of chewing gum which, in hypothesis of an addition of one percent, dar? leads to a product having the composition described below: - ultramicronized hydroxyapatite: H.A.u.m. g. 1 - chewing gum base paste, flavorings, sweeteners non-cariogenic to taste to g. 100 2) the composition of hydroxyapatite-based chewing gum base paste is claimed in which microcrystals are obtained in the percentages and dimensions indicated below: 76% with diameter less than 1.00 micron, 72.24% with diameter less than 0.80 micron, 47.50% with diameter less than 0.60 micron, 23.80% with diameter less than 0 , 40 microns, 15.00% less than 0.25 microns and 10.00% less than 0.20 microns. 3) the composition of base paste for chewing gum is claimed, based on hydroxyapatite having a micronization of 50% (fifty percent) of crystals with a diameter up to two microns. 4) formulation of base pastes of various types and packs of chewing gum in which the use, in a variable percentage, from 0.5% (zero five percent) to 10% (ten percent), of ultramicronized hydroxyapatite is foreseen which, at least to the extent of fifty percent, is formed of crystals with a maximum diameter of two microns.