RU2789439C2 - Method for correction of microcirculatory disorders in inflammatory periodontal diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely dentistry, and can be used to correct microcirculatory disorders in inflammatory periodontal diseases. The method involves the application of silver nanoparticles to inflamed gums. When performing the application, silver nanoparticles are applied three times a day, integrated at a concentration of 0.25 M into the wall of hollow alginate microcapsules with a size of 4.3 ± 0.5 µm, loaded with tannic acid and suspended in a colloidal gel.

EFFECT: use of the invention makes it possible to increase the degree of correction of microcirculatory disorders in the tissues of the periodontal complex caused by the inflammatory process, while reducing the risk of adverse side effects.

1 cl, 4 ex

Description

The invention relates to medicine, in particular dentistry, and can be used to correct microcirculatory disorders in inflammatory periodontal diseases.

Currently, issues related to the development of new and improvement of existing methods of treatment of periodontal diseases are given close attention by both researchers and practitioners, but there has not been a significant shift in this area over the past 15-20 years. This is evidenced by an impressive number of scientific publications, the data of which show a comparable high percentage of the prevalence of periodontal disease among people of different sex and age, with no apparent trend towards a decrease in the incidence rate.

In the general structure of the pathological processes of the oral cavity, inflammatory diseases of periodontal tissues are the dominant cause, leading not only to loss of teeth, but also to the formation of periodontal foci of infection that have a negative effect on the body as a whole.

A key role in the pathogenesis of inflammatory periodontal diseases belongs to microcirculatory disorders that accompany the pathological process at all stages of its development. In this regard, the search for effective and modern methods of correcting microcirculatory disorders in inflammatory diseases of the tissues of the periodontal complex is of great importance and relevance.

Known methods for correcting microcirculation in inflammatory changes in periodontal tissues [see. information resource: https://yandex.ru/turbo/king-smile.ru/s/article/geli-dlya-desen], which consists in the effect of antibacterial and anti-inflammatory drugs on the periodontium, which makes it possible to achieve sanitation of periodontal pockets and, as a result, reduction vascular inflammatory changes.

However, the possibilities of such preparations are limited by the rapidly occurring decrease in the sensitivity of periodontopathogenic microflora to them.

There is also a method of using a 3% gel of sodium salt of carboxymethylcellulose with the inclusion of 500 µg/g of gold nanoparticles with a size of 5 nm in white rats with experimental periodontitis [Borisenko A.V. Experimental substantiation of the use of nanogold preparations for the treatment of periodontal diseases / A.V. Borisenko, O.B. Tkach, O.V. Linovitskaya [et al.] // Dentist-practitioner. 2014. No. 1 (239). S. 58-62]. The use of metal nanoparticles, which have an antibacterial effect, avoids the development of resistance in microorganisms.

However, highly toxic compounds are used in the process of gold nanoparticle synthesis. In addition, the use of gold to obtain nanoparticles significantly increases the cost of the resulting drug.

There is also known a method for the treatment of mild generalized periodontitis [RF patent No. 2288671] by correcting microcirculatory disorders, including the use of collargol containing up to 70% colloidal silver and approximately 30% albumin protein, on a gelatin-glycerin splint.

However, the absence of silver nanostructuring does not allow achieving the most pronounced antibacterial properties, as well as reducing the metal consumption for the preparation of the drug.

The closest analogue of the claimed invention is the "Method for the treatment of periodontitis", which provides the reduction of inflammation, and, consequently, the correction of microcirculation disorders caused by inflammation [RF patent No. 2725244]. It consists in the application of a colloidal solution of nanosilver at a concentration of up to 100 mg/l and a diameter of nanoparticles of 10-15 nm of the mucous membrane of the gums and periodontal pockets on gauze turundas with their exposure in the oral cavity from 15 to 20 minutes per session.

The disadvantage of the presented method of treatment is the occurrence of an irritating effect on the oral mucosa both due to the use of hard gauze turunda, which can cause mechanical trauma, and due to the effect of chemical irritation with silver.

The objective of the claimed invention is to increase the degree of correction of microcirculatory disorders in the tissues of the periodontal complex caused by the inflammatory process, while reducing the risk of adverse side effects.

The essence of the claimed invention lies in the fact that in a method for correcting microcirculatory disorders in inflammatory periodontal diseases, including applications of silver nanoparticles on inflamed gums, silver nanoparticles are applied every other day, integrated at a concentration of 0.25 M into the walls of hollow alginate microcapsules loaded with tannic acid and suspended in a colloid gel.

The technical result of the claimed invention.

The use of microcapsule walls as a tire for silver nanoparticles makes it possible to achieve a decrease in the working antibacterial concentration compared to the use of gelatin, albumin, and gauze analogs for these purposes, thereby reducing the risk of chemical and physical irritation. The additional use of tannic acid loading into microcapsules makes it possible to achieve its prolonged release in the intervals between applications (every other day) to completely neutralize the irritating effect of silver on the microcirculation and thereby increase the degree of correction of microcirculatory disorders. In addition, the use of tannic acid, which has antibacterial agents, potentiates a similar effect of silver nanoparticles.

A method for correcting microcirculatory disorders in inflammatory periodontal diseases is carried out as follows.

In conditions of periodontitis, accompanied by severe inflammatory phenomena, applications are carried out on inflamed gums by applying silver nanoparticles, integrated at a concentration of 0.25 M into the wall of hollow alginate microcapsules loaded with tannic acid and suspended in a colloid gel, multiple times every other day.

Examples.

The inventive method was tested on 40 laboratory white rats weighing 200-250 g. The study was performed in accordance with the recommendations of the ethical committee of the Saratov State Medical University. IN AND. Razumovsky. 10 minutes before invasive manipulations (surgery), the animals were anesthetized by intramuscular administration of Telazol (Zoetis Inc, Spain) at a dose of 0.1 ml/kg and Xylanit (LLC Nita-Pharm, Russia). ) at a dose of 1 mg/kg of animal weight.

All animals were divided into 4 equal groups: group 1 - animals with intact periodontium, which were subjected to a single application of a gel containing microcapsules with silver nanoparticles at a concentration of 0.25 M and a size of 4.3 ± 0.5 µm, group 2 - animals with intact periodontium , which were subjected to a single application of a gel containing microcapsules with silver nanoparticles at a concentration of 0.25 M and a size of 4.3 ± 0.5 µm, loaded with tannic acid, on the gingival mucosa, the 3rd group - animals with experimental periodontitis, which on the 14th, 16th, 18th day gel applications were made containing microcapsules with silver nanoparticles at a concentration of 0.25 M and a size of 4.3 ± 0.5 µm, without additional loading with tannic acid; silver at a concentration of 0.25 M and a size of 4.3 ± 0.5 µm, loaded with tannic acid.

As a control group, 20 rats with intact periodontium were used, performed before the application of the gel. For comparison, we took the data obtained during their study before the application of the gel.

Modeling of periodontitis in rats was carried out by the ligature method in the modification (A. Ionel, O. Lucaciu, M. Moga, D. Buhatel, A. Ilea, F. Tabaran, C. Catoi, C. Berce, S. Toader, R.S. Campian, Periodontal disease induced in Wistar rats - experimental study, Hum. Vet. Med. 7 (2) (2015) 90–95) by suturing a polyfilament non-absorbable suture into the gum in the region of the mandibular incisors. When modeling periodontitis in rats, 2 weeks after ligation, a statistically significant increase in the perfusion index by 1.23 times was noted. At the same time, changes in the active modulation of microcirculation were revealed, which were manifested by a statistically significant increase in the amplitudes of myogenic fluctuations, which indicated a decrease in the tone of precapillary sphincters and an increase in the intensity of nutritional blood flow. In addition, an increase in the amplitudes of passive fluctuations in blood flow, both respiratory and cardiac, was noted, which, together with an increase in the perfusion index, reflected the development of mixed gingival hyperemia.

On the 3rd week of the experiment, when modeling periodontitis in rats, there was a further increase in the perfusion index. The indicator of gum perfusion in rats with simulated periodontitis was 37.3% higher than the average value of the control group with intact periodontium. At the same time, perfusion significantly exceeded the values recorded in rats on the 2nd week of the experiment. Disorders of microcirculation modulation at week 3 were more pronounced than at week 2, and were manifested by a statistically significant increase in amplitudes in all regulatory ranges. At the same time, a statistically significant increase in the amplitudes of endothelial and neurogenic oscillations was noted compared with the 2nd week of the experiment.

The parameters of gingival perfusion in rats were monitored by laser Doppler flowmetry (LDF) on a LAKK-OP analyzer (NPP Lazma, Russia). For LDF measurements, the LAKK sensor was placed in the gingiva at a point located between the two anterior incisors of the lower jaw. Registration of gingival perfusion lasted 8 minutes. Mean gingival perfusion (microcirculation index or perfusion index) was measured in conventional perfusion units (PU). To study the physiological mechanisms of blood flow regulation, a wavelet spectral analysis of perfusion fluctuations was carried out. Normalized amplitudes of blood flow fluctuations (in arbitrary units - c.u.) in the frequency bands 0.01–0.076 Hz for endothelial control, 0.076–0.2 Hz for neurogenic control, 0.2–0.74 Hz for myogenic control, 0 .74–2 Hz for respiratory activity and 2–5 Hz for heart rate.

Statistical data processing was carried out using the Statistica 10.0 program. Most of the data obtained had a non-normal distribution, therefore, during statistical processing, the median, upper and lower quartiles were calculated, and the Man-Whitney U-test was used to compare groups, on the basis of which the significance indicator p was calculated.

Example 1

Animals of the 1st group underwent a single application of a gel containing microcapsules with silver nanoparticles on the mucous membrane in the region of the central incisors of the lower jaw. Microcirculation was assessed after 1 and 24 hours.

When applied to the intact gingival mucosa of the gel containing alginate microcapsules with silver nanoparticles, a statistically significant increase in perfusion by 7.5% compared with the control group was noted after one hour. An increase in perfusion was accompanied by a change in the active mechanisms of microcirculation modulation, mainly due to an increase in the amplitude of neurogenic and myogenic oscillations. Changes in these parameters indicated a decrease in neurogenic and myogenic tone, as well as peripheral resistance of the precapillary link of the microvasculature. There were no statistically significant changes in the value of the amplitude of endothelial fluctuations in blood flow. Changes in the parameters of passive mechanisms of blood flow modulation were manifested by an increase in the normalized amplitudes of cardiac and respiratory oscillations, which reflected an increase in arterial blood inflow and a deterioration in blood outflow in the microcirculatory bed, indicating the development of mixed gingival hyperemia.

After 24 hours, perfusion returned to the normal level, however, an increase relative to intact control of the normalized amplitudes of myogenic, respiratory, and cardiac oscillations remained. In addition, 24 hours after application of a gel containing alginate microcapsules with silver nanoparticles to the intact gingival mucosa, the animals showed a statistically significant increase in the normalized amplitudes of endothelial oscillations relative to the control group, reflecting a decrease in the endothelium-dependent component of arteriole tone.

Thus, example 1 proves that silver nanoparticles, even at a low concentration and with a single application, irritate the intact gum. The effect of applying the gel persists a day after application.

Example 2

Animals of the 2nd group underwent a single application of a gel containing microcapsules with silver nanoparticles loaded with tannic acid on the mucous membrane in the region of the central incisors of the lower jaw. Microcirculation was assessed after 1 and 24 hours.

When applying the gel with alginate capsules with silver nanoparticles loaded with tannic acid, no significant changes in the perfusion index were noted. One hour after exposure, the amplitudes of neurogenic and myogenic, as well as respiratory and cardiac oscillations increased. However, these changes in the modulation of the microcirculation were transient and completely leveled 24 hours after the application of microcapsules with tannic acid, with the exception of the normalized amplitudes of cardiac oscillations, the increased value of which reflected the preservation of an increased inflow of arterial blood into the microvasculature.

When comparing the irritating effects of the developed gels, it was found that 1 hour after the application of capsules containing tannic acid, perfusion rates were lower than in the group of rats that were treated with the gel with capsules without tannic acid. There were no significant differences in the parameters of active and passive blood flow modulations. 24 hours after the application of the gel with alginate microcapsules of silver nanoparticles loaded with tannic acid, the amplitudes of myogenic fluctuations were significantly lower in the group of animals that received gel applications on the gums with microcapsules of silver nanoparticles containing tannic acid.

Thus, example 2 proves that the loading of tannic acid into microcapsules reduces the irritating effect of silver nanoparticles in the composition of the microcapsule wall on the mucous membrane of intact gums. Encapsulation of tannic acid makes it possible to prolong its effect up to 24 hours, preventing the development of mucosal irritation under the influence of silver nanoparticles.

Example 3

From the 14th day, the animals of the 3rd group received gel applications containing microcapsules with silver nanoparticles not loaded with tannic acid on the 14th, 16th and 18th days after the application of the ligature. Registration of LDF-grams was carried out on the 21st day after the application of the ligature.

After triple application of the gel with alginate microcapsules with silver nanoparticles that do not contain tannic acid, in rats with periodontitis, the perfusion index was 22.3% higher than in the control group, which is less than in rats with untreated periodontitis. At the same time, the amplitudes of myogenic and respiratory oscillations during the application of microcapsules with silver nanoparticles without tannic acid significantly exceeded those of the control group, which indicated that the reduction in the myogenic tone of the precapillary sphincters and the phenomena of venous hyperemia of the microcirculatory bed persisted.

Thus, example 3 proves that the application of silver nanoparticles in the composition of the walls of microcapsules is not accompanied by a complete correction of microcirculatory disorders in gingival inflammation, even with repeated use of the gel. The lower severity of microcirculatory disorders in animals of the 3rd group than in rats with untreated periodontitis indicates that a three-fold application of microcapsules with silver nanoparticles has an antibacterial effect.

Example 4

Animals of the 4th group from the 14th day were made applications of the gel containing silver nanoparticles in the microcapsules loaded with tannic acid, on the 14th, 16th and 18th days after the application of the ligature. Registration of LDF-grams was carried out on the 21st day after the application of the ligature.

Under the influence of triple applications of the gel with alginate microcapsules with silver nanoparticles loaded with tannic acid on the gums in animals with periodontitis, a decrease in the perfusion index was noted compared to the 3rd group. Wavelet analysis of the variable component of perfusion in animals of the 4th group did not reveal significant changes in the parameters of active and passive mechanisms of microcirculation regulation compared with intact control, which indicates a complete restoration of adequate modulation of microcirculation. When comparing the effect of the studied gels, it was found that the use of capsules containing tannic acid allows for a more pronounced normalization of the amplitudes of myogenic, neurogenic and respiratory fluctuations in animals with experimental periodontitis.

Thus, example 4 proves that the loading of microcapsules with silver nanoparticles with tannic acid immobilized in microcapsules increases the degree of correction of gum microcirculation, improves the parameters of active and passive modulation of blood flow during multiple applications to inflamed gums, which indicates a potentiation of the antibacterial effect. Differences of the 3rd and 4th groups, registered on the 21st day after the application of the ligature (3 days after the last application), indicate that the prolonged release of tannic acid from microcapsules is able to stably neutralize the irritating effect of silver nanoparticles even with repeated applications to inflamed gum areas, thereby minimizing the side effects of the drug used.

Claims (1)

A method for correcting microcirculatory disorders in inflammatory periodontal diseases, including applications of silver nanoparticles on inflamed gums, characterized in that when the application is performed three times a day, silver nanoparticles are applied, integrated at a concentration of 0.25 M into the wall of hollow alginate microcapsules with a size of 4.3 ± 0 .5 μm loaded with tannic acid and suspended in a colloidal gel.