RU2495691C2 - Method for prevention of hyperesthesia following ododentical tooth preparation for permanent dental prostheses with preserved pulp vitality - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely dental orthopaedics, and may be used for the prevention of hyperesthesia accompanying dental prosthetics using permanent dental prostheses with preserved pulp vitality. After ododentical abutment preparation has been completed, the abutment stump prepared for prosthetics is exposed to LED laser at a distance of 2-2.5 mm from the tooth stump surface, with a light guide having a thickness of 320 mcm moving circularly at rate 2-4 mm/s, wavelength 970 nm +/- 15 nm, power 1-1.5 Wt and frequency 75-100 Hz for 10-20 seconds.

EFFECT: method enables more effective and stable consequent prevention of hyperesthesia ensured by the exposure to the high-intensity LED laser light with the declared parameters and modes of use.

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Description

The invention relates to medical equipment and can be used in dentistry for prosthetics with fixed orthopedic structures while preserving the vitality of the pulp for the prevention of hyperesthesia.

Hyperesthesia of the teeth is an increased sensitivity of hard tooth tissues to external stimuli, which is manifested by short-term pain. One of the particular causes of hyperesthesia is the preparation of teeth under fixed orthopedic structures while preserving the vitality of the pulp. In this case, the occurrence of hyperesthesia is considered as one of the complications after preparation. A positive result can be achieved by preventing hyperesthesia of the hard tissues of the tooth after deep preparation.

There is a method of preventing hyperesthesia after odontopreparation of teeth for fixed orthopedic constructions while preserving the vitality of the pulp, according to which a desensitizer belonging to the group of unfilled desensitizers with glutaraldehyde is applied to the tooth surface, prepared for prosthetics, namely: Gluma Desensitizer (Heraeus Germany Kulzer (Germany) . As a result, obturation of the dentinal tubules is performed. The mechanism of action of desensitizer containing glutaraldehyde involves the covalent coupling of glutaraldehyde with collagen. In this case, coagulation of plasmoproteins in the tubules themselves takes place, they are closed and permeability is reduced. The drug stabilizes the dentin layer by penetrating the collagen layer and strengthening the organic matrix of the hybrid layer.

The main component in this type of desensitizer is glutaraldehyde, which causes precipitation (coagulation) of proteins in the dentinal tubules, penetrating them to a depth of 200 μm, where it forms numerous layers of protein septa, thereby preventing the intratubular movement of the dentinal fluid, and, therefore, preventing increased sensitivity. In addition, microbial invasion is prevented.

The disadvantage of the known method for the prevention of hyperesthesia after odontopreparation of teeth for fixed orthopedic constructions is primarily that glutaraldehyde is a potent substance that can cause toxic reactions. When working with it, it is necessary to protect the gum tissue, skin, eyes (gloves, mask, goggles, rubber dam). Before applying the glutaraldehyde-containing desensitizer in deep cavities, the manufacturers of the preparation recommend covering them with an appropriate preparation to protect the pulp, which indicates a possible toxic effect of the preparation. As a result, the physiological nature of the known method for the prevention of hyperesthesia is reduced.

In addition, the effectiveness of the prevention of hyperesthesia of hard tissues of the tooth after deep odontopreparation of the preparation in a known manner depends on the permeability of the hard tissues of the tooth for the components of the desensitizer, which is determined by the properties of the hard tissues of the tooth, which are individual for each patient, as well as the number of open tubules of dentin. As a result, the effect of the prevention of hyperesthesia in a known manner for different patients is unstable and not predictable in advance.

Closest to the proposed method is the prevention of hyperesthesia after odontopreparation of teeth for fixed orthopedic constructions while preserving the vitality of the pulp, in accordance with which deep fluorination of the prepared hard tissues of the tooth is carried out using Dentin dentin-sealing liquid - Versiegelungsliquid (HUMANCHEMIE GmbH, Germany).

The preparation provides deep fluorination and mineral sealing of pores of enamel, tubules of dentin and cement (depth ~ 10 microns) due to the formation of submicroscopic CaF ₂ crystals with a particle diameter of only 50 A.

By deep fluorination, in contrast to conventional fluorination, we understand the formation of submicroscopic CaF2 crystals in the pores of the loosened enamel zone, dentin tubules, or cement. CaF2 consists of particles having an average diameter of only 5 nm. They form spontaneously.

The technique of deep fluorination was developed by A. Knappvost in 1998. He created two drugs, the interaction of which, when applied successively to the prepared tooth surface, leads to the formation of 5 nm calcium fluoride crystals. As a result, a substance is formed in the tubules of exposed dentin that creates the conditions for the formation of hydroxyappatite and promotes remineralization, which leads to sealing of the dentin tubules (Knappvost A. Permanent protection of the pulp from dentin caries with nanofluorides during deep fluorination of dentin-sealing liquid / A. Knappvost // Maestro of dentistry . - 2000. - No. 2. - S.44-46).

The known method protects dentin and pulp from all agents released from cements, especially acids, from monomers formed during the hardening of artificial materials. In this case, fluorine ions in high concentrations have a long-term bactericidal effect. The disadvantage of this method is the possibility of getting too much coarse molar fluoride complex [SiF ₆ ] ^2- into the pulp when processing stumps and deep cavities very close to the pulp, which reduces the physiological nature of the known method for the prevention of hyperesthesia.

In addition, the effectiveness of the prevention of hyperesthesia of hard tooth tissues after deep preparation by coating the exposed tooth with a dentin-sealing liquid for each patient is strictly individual, since it depends on the number of dentin tubules open after preparation, as well as on the properties of the tooth hard tissues, namely, on the degree dentin permeability of the tooth for the components of the dentin-sealing liquid, which are individual for each patient, which makes the effect of the prevention of hyperesthesia a known method for different patients unstable and not predictable in advance and reduces the effectiveness of prevention.

The present invention solves the problem of creating a method for the prevention of hyperesthesia after ododental preparation of teeth under fixed orthopedic designs while preserving the vitality of the pulp, the implementation of which allows to achieve a technical result consisting in increasing the effectiveness and stability of the results of the prevention of hyperesthesia, in increasing physiology.

The essence of the claimed invention lies in the fact that in the method of preventing hyperesthesia after ododental preparation of teeth for fixed orthopedic constructions while maintaining vitality of the pulp, it is new that after the end of ododentic preparation of teeth for fixed orthopedic constructions, the tooth stump surface prepared for prosthetics is exposed to an LED laser a distance of 2-2.5 mm from the surface of the tooth stump, circular motions of a fiber with a thickness of 320 microns, at a speed of 2-4 mm / s , wavelength 970 nm +/- 15 nm, power 1-1.5 W, frequency 75-100 Hz, for 10-20 seconds.

The technical result is achieved as follows.

As shown above, odontopreparation for prosthetics with fixed orthopedic constructions is a mechanical process of removing hard tooth tissues in order to form a stump under a supporting crown. At the same time, the goal of odontopreparation while preserving the vitality of the pulp is not only the removal of the hard tissue layer, but also the maximum preservation of the biomechanical characteristics of the tooth, its structure and vitality, which is one of the criteria for ensuring the durability of non-removable structures of dentures of any type. However, odontopreparation is accompanied not only by a decrease in the thickness of the dentin separating the pulp from the external environment, but also by the expansion of the dentinal tubules, vacuolization of the fibrous part of the dentin, and the communication of vacuoles of various diameters with the lumen of the tubules. All this increases the likelihood of a pulp reaction to external stimuli, which in the future can lead to complications after preparation in the form of hyperesthesia of hard tissues of teeth under fixed orthopedic structures.

In the claimed method for the prevention of hyperesthesia after the end of the odontic preparation of the abutment teeth under fixed orthopedic constructions, the dentinal tubules of the prepared tooth surface are obturated, for which, after the end of the odontic preparation of the abutment teeth, the surface of the abutment stump prepared for prosthetics is exposed to an LED laser. Moreover, thanks to the proposed regime of exposure to an LED laser, the dentin surface does not melt, and the obturation (clogging) of the dentinal tubules is carried out due to the evaporation of dentin moisture under the influence of a light beam, which increases the physiological nature of the claimed method. Thus, under the influence of a light beam on the prepared tooth surface at the dentinal tubules exits are blocked. Moreover, according to the Brannstrom hydrodynamic theory, which most fully explains the causes of dentin hypersensitivity, sealing of the dentinal tubules prevents changes in the current of the dentinal cerebrospinal fluid, displacement of the processes of odontoblasts and irritation of the nerve endings, and, therefore, reduces the likelihood of hyperesthesia of the prepared teeth after prosthetics, which increases the efficiency and stability of the results prevention of hyperesthesia.

The above conclusions are confirmed by laboratory tests performed by the inventors. The material for the experimental study was samples from 18 teeth, freshly removed for medical reasons, patients of various age groups.

We studied the surfaces of thin sections of tooth cross sections 1-1.5 mm thick (72 samples) prepared using a diamond separation disk, a low-speed drill with obligatory water cooling and sanded with Sof Lex // 3 M - ESPE flexible abrasive disks. The study of the topology, microstructure, and surface properties of hard tooth tissues before and after laser irradiation was carried out using a Jeol JSM-6390LV scanning electron microscope.

As a result of laboratory studies, the authors found that after exposure to samples of hard tooth sections with an LED laser at a distance of 2-2.5 mm from the surface of the section, circular motions of a fiber with a thickness of 320 μm, at a speed of 2-4 mm / s, wavelength 970 nm +/- 15 nm, power 1-1.5 W, frequency 75-100 Hz, for 10-20 seconds, over the entire surface of the sections, the open dentinal tubules of the cloak and peri-pulp dentine were not clearly detected, were hermetically closed, sealed with a mineral substance due to evaporation den muddy moisture. Moreover, under the given conditions of exposure to the LED laser, there were no visible damages to the organic structures of the hard tissues of the tooth.

Performing circular motions by the optical fiber provides a uniformly scattered light beam effect on the treated surface, which excludes burning of hard tooth tissues and damage to the pulp and increases the physiology of the claimed method.

The presence of a time interval of exposure to the prepared tooth surface, namely: within 10-20 seconds, takes into account a different supply of hard tooth tissue to the pulp after the preparation of various teeth, namely: 10 minutes are enough for incisors, 15 minutes for premolars, it takes 15 minutes for molars 20 minutes. This also increases the physiological nature of the claimed method.

All quantitative characteristics of the claimed method are obtained by the authors empirically and are optimal, ensuring the achievement of the claimed technical result.

In addition, since thin sections of hard tooth tissues relate to different patients and the surfaces of the sections treated with a laser beam do not differ from each other, this confirms the stability of the result of exposure to an LED laser on the surface of hard tooth tissues prepared for prosthetics, and, therefore, ensures stability in reducing the likelihood the occurrence of hyperesthesia after prosthetics for fixed orthopedic constructions while preserving the vitality of the pulp. As a result, the effectiveness and stability of the results of the prevention of hyperesthesia is increased.

As shown above, dentin adhesives when used in deep cavities can cause an acute reaction of tooth pulp fibroblasts. Often they are more toxic than composite materials. The proposed method allows to abandon the use of chemicals for obturation of tubules of dentin, which eliminates the negative effect on the pulp of chemical compounds. In addition, reliable obturation of dentin tubules eliminates the negative effect on the pulp of the polymerisation products of composites that fix orthopedic structures on the abutment teeth.

As a result, the physiological nature of the claimed method is increased, which helps to reduce complications after prosthetics, in particular in the form of hyperesthesia, and provides increased efficiency and stability of the results of the prevention of hyperesthesia when prosthetics are fixed orthopedic structures while maintaining the vitality of the pulp.

Thus, from the foregoing, it follows that the claimed method for the prevention of hyperesthesia after ododental preparation of teeth under fixed orthopedic constructions while preserving the vitality of the pulp during implementation ensures the achievement of a technical result consisting in increasing the effectiveness and stability of the results of preventing hyperesthesia, in increasing physiology.

It should be noted that the patent information search showed the fame of using laser radiation in dentistry for treating hard tooth tissues. For example: "A method of processing hard tooth tissues with laser radiation and a device for its implementation" patent No. 2089127, АС 5/00; A61N 5/06, publ. 09/10/07 .; “A method for removing initial carious lesions and / or tooth stones (US Patent No. 4521194, A61C 05/00, priority 22.12.83), comprising treating the hard tissues of the tooth with pulsed laser radiation; “A method for the treatment of uncomplicated caries (USSR, author certificate. No. 1593669, А61С 5/00, publ. 09/23/90.), Including the processing of hard tooth tissues by laser radiation with a wavelength of 2.94 μm, pulse duration from 100 to 500 μs, power from 0.5 to 1.0 J / imp, power density from 2 × 10 ⁴ to 3 × 10 ⁴ W / cm ² , frequency 1 Hz, exposure time 3-30 s .; “A method for the treatment of pulpitis and periodontitis”, patent No. 2128534, A61N 5/06, 10.04.99.

However, the analysis of the essential features in the formulas of the identified inventions did not reveal any signs matching the features of the distinctive part of the claimed claims.

In addition, methods are known for treating hyperesthesia of dental hard tissues with laser radiation, namely: treating hyperesthesia of dental hard tissues with magnetic laser reflexotherapy through corporal and auricular acupuncture points (Magnetic-laser reflexotherapy of hyperesthesia of dental hard tissues / G.S. Kuklin, A. F. Pavlov, A.V. Karpunina, B.N. Viktorov // Proceedings of the VI Congress of the Dental Association of Russia. - M., 2000. - P.136-137); use for the treatment of hyperesthesia of dentin low-level laser radiation (Gerschman JA Low level laser therapy for dentinal tooth hypersensitivity / JA Gerschman, J. Ruben, J. Gebart-Eaglemont // Austr. Dent J. - 1994. - Vol. 39, 36. - P.353-357).

An analysis of the above known methods for treating hyperesthesia of dental hard tissues with laser radiation showed that they directly treat hyperesthesia of dental hard tissues and not prophylaxis of hyperesthesia after ododental preparation of teeth under fixed orthopedic constructions while preserving pulp vitality and, accordingly, do not provide associated pulp achievement of the claimed technical result, which consists in increasing the efficiency and stability of the profile results tics of hyperesthesia, in increasing physiology.

In addition, a method for correcting hyperesthesia of teeth by means of an LED laser on hard tooth tissues was identified (Mandra Yu.V., Votyakov S.L., Vlasova M.I., Glavatskikh S.P., Dimitrova Yu.V., Svetlakova E. N. “Experimental substantiation of the choice of the dose of diode laser radiation for the correction of dental hyperesthesia” // Problems of Dentistry No. 5, 2009). However, the result of a comparative analysis of the claimed and known methods showed that, in contrast to the claimed method, the known method is used to treat hyperesthesia due to increased tooth abrasion and, in contrast to the claimed method, the known method ensures the achievement of a technical result, which consists in the possibility of correction hyperesthesia in patients with increased tooth abrasion. As a result, no effect on the claimed technical result of the signs of the known method was found, which coincided with the signs of the distinctive part of the claimed claims.

Thus, as a result of the patent search, the use of previously high-intensity LED laser radiation for the prevention of hyperesthesia after ododental preparation of teeth under fixed orthopedic structures with preservation of the pulp vitality by its effect on the surface of the tooth stump prepared for prosthetics was not revealed.

The claimed method for the prevention of hyperesthesia after ododental preparation of teeth under fixed orthopedic structures is as follows. After the end of the odontic preparation of the teeth for fixed orthopedic constructions, the surface of the stump of the teeth prepared for prosthetics is exposed to the LED laser at a distance of 2-2.5 mm from the surface of the stump of the tooth, circular motions of a fiber with a thickness of 320 microns, at a speed of 2-4 mm / s, length waves 970 nm +/- 15 nm, power 1-1.5 W, frequency 75-100 Hz, for 10-20 seconds.

Examples of the method.

To confirm the increase in the effectiveness and stability of the results of the prevention of hyperesthesia, to increase the physiology of the claimed method for the prevention of hyperesthesia after ododental preparation of teeth under fixed orthopedic constructions while preserving the vitality of the pulp, by the action of high-intensity radiation from an LED laser on the prepared stump surface of the supporting teeth, clinical studies were conducted on the basis of Dental Clinic GBOU VPO UGMA Ministry of Health Development of Russia, the city of Yekaterinburg.

A comparative assessment of the effectiveness of the prevention of hyperesthesia of hard tissues prepared for fixed orthopedic tooth structures while preserving the vitality of the pulp with special medications and by exposure to high-intensity LED laser radiation on the stump surface of the supporting teeth prepared for prosthetics.

54 patients out of the number of examined after preparation of teeth under fixed orthopedic constructions were under observation in the dental clinic of GBOU VPO UGMA of the Ministry of Health and Social Development of Russia. We studied 68 prepared teeth.

By random sampling, patients were divided into 3 groups.

In the study group of patients No. 1, the surface of the tooth stump was coated with a dentin-sealing liquid (deep fluorination) Dentin - Versiegelungsliquid (HUMANCHEMIE GmbH, Germany), which provides deep fluorination and mineral sealing of the pores of enamel, tubules of dentin and cement (depth ~ 10 microns) per CaF ₂ by forming submicroscopic crystals (particle diameter CaF ₂ only 50 a) after application №1 first drug, then drug №2. We examined 23 teeth.

Gluma Desensitizer (Heraeus Kulzer GmbH, Germany), which belongs to the group of unfilled desensitizers containing glutaraldehyde, was applied to the patients of study group No. 2 on the surface of the tooth stump. The main component in this type of desensitizer is glutaraldehyde, which causes precipitation (coagulation) of proteins in the dentinal tubules, penetrating them to a depth of 200 μm, where it forms numerous layers of protein septa, thereby preventing the intratubular movement of the dentinal fluid, preventing increased sensitivity. In addition, the growth of bacteria is inhibited. Basically, it is believed that such desensitizers are indicated for increased cervical sensitivity and postoperative sensitivity after preparation under the crowns with a sufficient dentin thickness, when cementing the crowns on zinc phosphate cement. Light cure is absent. We examined 23 teeth.

After odontopreparation of teeth for fixed constructions, patients of group No. 3 underwent a course of high-intensity laser therapy with a Sirolaser diode laser (Sirona Dental Systems GmbH, Germany). After the end of the odontic preparation of the abutment teeth, the surface of the abutment stump prepared for prosthetics was exposed to an LED laser at a distance of 2-2.5 mm from the tooth, circular motions of a fiber with a thickness of 320 μm, at a speed of 2-4 mm / s, wavelength 970 nm + / - 15 nm, power 1-1.5 W, frequency 75-100 Hz, for 10-20 seconds. Examined 22 teeth.

Patients were made orthopedic constructions, which protected the exposed teeth from the negative effects before the application of prostheses, and in groups No. 1 and No. 2, in addition, it ensured the healing effect of the damaged tissues.

Control examinations were carried out after 3-5 days; after 10-14 days; after 30 days (this usually corresponded to the clinical stages (taking into account the technical stages) of the manufacture of fixed orthopedic structures).

Much attention was paid to the choice of material for fixing orthopedic structures on teeth with preserved pulp. Long-term results of prosthetics were observed after 3 months, after 6 months, after 12 months.

Group 1: 3-5 days after deep fluorination with respect to a tactile stimulus, 46% noted a complete absence of pain, and 50% of patients noted a decrease in sensitivity during sounding. Re-examination of patients was carried out after 10-14 days. An objective examination of 72.2% of patients noted a complete absence of pain on the action of a tactile stimulus. A significant decrease in sensitivity occurred in 26% of patients. After deep fluoridation, 54% of patients noted a decrease in pain sensitivity when exposed to cold water, and 35% with respect to the temperature stimulus noted a complete absence of pain. Re-examination was carried out after 10-14 days, 50% of patients noted a complete absence of pain when exposed to a temperature stimulus, and 44% of patients - a decrease in pain sensitivity.

Group No. 2: after applying the dentin-sealing liquid after 3-5 days, 11% of patients noted no changes when exposed to cold water and repeated examination after 10-14 days, the number of patients decreased to 6%.

When using a desensitizer, there was a lack of changes from 2% to 0% when probing. A complete lack of sensitivity after 3-5 days was observed in 50% of patients, with repeated examination after 10-14 days it changed to 76%.

Group No. 3: the best clinical results were obtained when exposed to an LED laser. When probing, 48% of patients noted a decrease in pain sensitivity, and 52% of patients with tactile irritation noted a complete absence of pain. Re-examination was carried out after 10-14 days. An objective examination of 19% noted a decrease in pain sensitivity, and in 81% of patients the pain was completely absent. After applying cold water, 50% of patients noted a complete absence of pain, and after 10-14 days their number increased to 94%.

After the end of the prosthetics, patients were invited to preventive examinations (after 3 months, after 6 months, after 12 months). A slight discomfort periodically arising in the teeth, which are the support of bridges, was noted by 2% of patients from the study group No. 1 and 1% of patients from the study group No. 2. Patients of the study group No. 3 complained of "unpleasant" and pain did not show.

Thus, the long-term results of a clinical and experimental study showed that after exposure to odontic preparation of teeth under fixed orthopedic structures after exposure to high-intensity LED laser radiation on the surface of the stump of supporting teeth, prepared for prosthetics under fixed orthopedic structures while maintaining the vitality of the pulp, there are no cases hyperesthesia of hard tissues of prepared teeth after prostheses are applied to them . This confirms the stability of the results of the prevention of hyperesthesia of the claimed method, i.e. the effect of high-intensity radiation of the LED laser on the surface of the stump of the abutment teeth with the declared parameters and modes.

Thus, the results of a clinical experimental study indicate an increase in the effectiveness and stability of the results of the prevention of hyperesthesia by the claimed method and an increase in its physiology.

Claims (1)

A method for the prevention of hyperesthesia after ododental preparation of teeth for fixed orthopedic constructions while maintaining the vitality of the pulp, characterized in that after the end of ododentic preparation of teeth for fixed orthopedic constructions, the tooth stump surface prepared for prosthetics is exposed to an LED laser at a distance of 2-2.5 mm from the stump surface tooth, in circular motions of a fiber with a thickness of 320 μm, with a speed of 2-4 mm / s, wavelength 970 nm +/- 15 nm, power 1-1.5 W, frequency 75-100 Hz, within 10-20 s.