RU2619874C1 - Device for galvanophoretical cleansing and target nanomeprings of root tubs - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device for galvanophoretic purification and targeted nano-impregnation of the roots of the teeth consists of the extracandular and intracanal parts made of different metals constituting the galvanic pair. The out-channel and in-channel parts are made of thin metal fibers intertwined with the micro-space between the fibers. The out-channel part is made of 3-5 mm with a transverse dimension of 0.8-2.0 mm, and the intracanal part has the form of a cylinder or cone with a length of 4 to 16 mm.

EFFECT: invention makes it possible to accelerate the process of impregnating the tooth root space and dentinal tubules with a drug substance, ensuring free outflow of residual exudate and liquid formed as a result of proteolysis of organic components in the root canal during treatment.

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Description

The invention relates to medicine, namely to therapeutic dentistry, and is intended for the treatment of complicated caries: pulpitis and periodontitis of teeth.

Despite the obvious successes and achievements of dentistry, the complications of caries are still the main cause of early tooth loss. Teeth with chronic foci of infection in the apex of their roots (granulomas, cystogranulomas, cysts) are the cause of sensitization of the body and can cause the development of atherosclerosis, endocarditis, glomerulonephritis and other life-threatening conditions.

The remote effectiveness of endodontic dentistry currently does not exceed 30-40%. One of the most important reasons for the low effectiveness of such treatment is the inaccessibility of the branched system of the root canals of the teeth and the dentinal root tubes for preparations that ensure their cleaning, sterilization and tight blockage. The most problematic treatment of teeth with inaccessible canals in chronic forms of periodontitis [Akimov T.V. Depo- and galvanophoresis of copper-calcium hydroxide in the complex treatment of chronic periodontitis in teeth with impenetrable root canals: Dis. ... cand. honey. Sciences: 14.00.21 / T.V. Akims; [Place of protection: GOUVPO "Moscow State Medical-Dental University"]. - M., 2007. - 140 p.].

Based on previously known electrophoresis techniques, A. Knappvost (Germany, 1994) developed the electrophoresis technology of copper-calcium hydroxide, which the author called depophoresis. This technique involves conducting three sessions of dosed electrophoresis of a medicinal substance using a special apparatus. Being an alternative to the previously known and having a number of drawbacks impregnation methods of treatment, depophoresis does not imply a complete passage of the root canal and its thorough instrumental processing. Moreover, a thorough macrochannel filling is not required [Jones P., Taintor J., Adams A. Comparative dental material cytotoxicity measured by depression of rat incisor pulp respiration. J. Endodont. - 1979. - Vol. 5, No. 1. P. 48-55]. Nevertheless, the success of the method reaches 80-95%, which is especially valuable in cases with hard-to-reach and impassable root canals of the teeth [Solovieva A.M. Experimental evaluation of the cleaning ability of electrochemically activated solutions during endodontic treatment. Text. / A.M. Solovieva, P.M. Dammer // Endodontics today. 2001. - No. 1, - S. 21-29].

A device for electrophoresis (depophoresis), which is used in the treatment of complicated caries [Nedoseko VB, Vetkova K.V. The use of depophoresis of copper-calcium hydroxide in therapeutic dentistry // Clinical Dentistry. - 2001. - No. 10. - S. 27-30]. Copper-calcium hydroxide is introduced in a small amount into the passable part of the root canal of the tooth, and an active electrode in the form of a needle is placed there. The passive electrode is fixed extraorally (on the skin of the cheeks or lips). An electrophoresis (depophoresis) device is connected to the electrodes and a treatment procedure is carried out for 10-20 minutes, using direct or alternating current of 0.8-1.5 mA). The disadvantage of this device is the need for multiple visits to patients of a medical institution for an electrophoresis course consisting of 3-10 procedures under the supervision of medical personnel, as well as uneven impregnation of dentin of the root of the tooth with a drug due to differences in the electrical conductivity of different parts of dentin, which at the indicated current value has significant value.

To date, the most effective method of treating chronic forms of apical periodontitis is the method of galvanophoresis of copper-calcium hydroxide using galvanic pins left in the root canals for a period of several weeks to several months (analogues) [Alternative endodontics. Depo and galvanophoresis of copper-calcium hydroxide in complex endodontic treatment / V.A. Rumyantsev [et al.] // Endodontics today. - 2007. - No. 2. - S. 74-77]

Such a pin consists of intra-channel (in the form of a needle about 10 mm long) and non-channel (in the form of a ball with a diameter of 3 mm) parts. A feature of the galvanic pin is that it is made of two different metals that make up the galvanic pair (for example, copper-zinc or silver-zinc). This pin allows you to get a constant electric potential (galvanic current) inside the root canal of a tooth of 0.6 V. The current strength is about 0.1 mA. The length of the pins is about 10 mm, which corresponds to about 2/3 of the average length of the canals of multi-rooted teeth. The length of the pins can be reduced by cutting with scissors, depending on the specific clinical situation (degree of patency of the root canals and their length). Since the intra-root (intra-canal) part of the device is easily bent (soft metal), it can be given a shape corresponding to the curvature of the root canals and the angle of divergence [Pat. No. 2241499 of the Russian Federation. IPC ⁷ A61N 1/30, A61N 1/04, A61N 19/06. Device for galvanophoresis in the treatment of multi-rooted teeth / Rumyantsev V.A., Opeshko V.V., Bersenev S.V., Stepanyan Z.A. / Tver State Medical Academy. Application No. 2003117270/14 dated 06/09/2003. Publ. 12/10/2004.].

The prototype is a galvanic pin, FIG. 1, made of two metals constituting a galvanic pair: the off-channel part, FIG. 1 (1), and the intra-channel part, FIG. 1 (2) having a porous and permeable to liquid structure, while the in-channel part 2 is rounded [US Pat. No. 129800 of the Russian Federation. IPC ⁷ A61C 8/00 V82V 1/00. Galvanic pin for nano-impregnation of tooth tissues. / Rumyantsev V.A., Opeshko V.V., Application 2012126006/14, 06.22.2012. Publ. 07/10/2013. Bull. No. 19].

The disadvantage of the prototype is the lack of permeability for the exudate formed in the root canals, which complicates its outflow and leads to an increase in tissue fluid pressure in the periodontium. As a result, the patient experiences unpleasant sensations and pains. Lack of free outflow of fluid and exudate resulting from proteolysis of organic components in the root canal of the tooth during treatment. The prototype also has such a disadvantage as fragility, which can be destroyed for this reason when installed in the channel and removed from the channel. At the same time, its residues can create problems when expanding and filling the root canal.

The objective of the invention is to develop a device for galvanophoretic cleansing and targeted nanoimpregnation of tooth roots.

The technical result consists in preventing a pain symptom, accelerating and improving the quality of endodontic dentistry.

A positive result is to accelerate the process of impregnation of the spaces of the root of the tooth and dentinal tubules with a medicinal substance, ensuring free outflow of residual exudate and fluid generated as a result of proteolysis of organic components in the root canal of the tooth during treatment, which prevents the onset of pain symptoms and accelerates the process of eliminating inflammatory phenomena in periodontium.

This is achieved due to the fact that the device has a wicker structure and consists of metal fibers. The non-channel portion of FIG. 2 (1) has a length of 3-5 mm and a transverse dimension of 0.8-2.0 mm, and the in-channel part of FIG. 2 (2) has the shape of a cylinder or cone with a length of 4 to 16 mm. Thus, this structure provides a better and faster outflow of residual exudate and fluid resulting from the proteolysis of organic components in the root canal of the tooth during treatment, due to the presence of microspaces between the fibers.

Thin metal fibers intertwined with each other due to plastic deformation improve the adaptation of the device in the root canal of the tooth, in contrast to the prototype. When introduced into the root canal, such a device easily takes its shape due to the spatial reorientation of the fibers of the intra-root part and therefore has a more intimate contact with the walls of the root canal, providing a faster galvanophoresis process. A device for galvanophoretic cleansing and targeted nano-impregnation of tooth roots with a braided electrode is not subject to damage during deformations and is easily removed from the channel after the completion of the galvanophoresis procedure.

Clinical application showed that patients experienced pain during treatment with the help of a galvanic prototype pin in 17% of cases, and when installing the proposed device - only in 8% of cases.

The prototype pin for treatment is left in the root canal of the tooth for 15-30 days, depending on the form of the disease, and the proposed pin for the same effect for a period of 2 to 14 days.

The standard protocol for endodontic treatment involves cleaning only the main root canals and, in part, branches from it. Careful adherence to the standard protocol does not allow the release of micro tubules and dentinal tubules from germs and organic pulp residues.

The acceleration of the process of deposition of the drug substance in the root dentin is ensured by the fact that the proposed device for galvanophoretic cleansing and targeted nanoimpresion of the roots of the teeth has a large useful area of the electrodes, and its more snug fit to the channel walls increases the amount of electric current passing through the root dentin; while the required amount of the drug is deposited in the root dentin for a shorter period of time than the prototype. A more uniform distribution of the drug substance in the root dentin provides the form of the intracanal part of the device, thereby providing a better (compared to the prototype) configuration of the electric field lines acting on the root dentin. Through the use of metals having a liquid-permeable structure, there is a free outflow of residual exudate and fluid generated during treatment.

The procedure for using the device for galvanophoretic cleansing and targeted nanoimpregnation of the roots of the teeth: form the entrance to the root canal taking into account the individual characteristics of the tooth anatomy, conduct a galvanophoresis procedure, ensuring the outflow of exudate from the root canal system; mechanically and medicinally in combination with ultrasound, they carry out cleaning, with instruments for the passage and expansion of the root canals (up to 20-30 ISO sizes), they expand the root canal to the “apex”. The section, from the entrance to the canal and from 4 to 10 mm, is expanded to 60-140 ISO sizes, depending on the anatomy of the canal. A drug containing charged nanoparticles (for example, copper-calcium hydroxide) is introduced into the root canal, and then the device is installed in the root canal.

Be sure to install drainage for the outflow of exudate from the root canals and the crown of the tooth.

The device is fixed in the tooth cavity with a composition for temporary filling and left in the tooth for a period from 2 days to 14 days, depending on the specific clinical situation.

Claims (1)

A device for galvanophoretic cleansing and targeted nano-impregnation of tooth roots, consisting of extra-channel and intra-channel parts made of different metals that make up a galvanic pair, and characterized in that the extra-channel and intra-channel parts are made of thin metal fibers interwoven with micro-space between the fibers, this non-channel part is made 3-5 mm long with a transverse size of 0.8-2.0 mm, and the intra-channel part has the shape of a cylinder or cone in length from 4 to 16 mm.

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