RU2181989C1 - Method for treating periimplantitis - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves approaching an electrode or several electrodes directly to the implant on the periimplantitis surface and/or to dental prosthesis set on the implant. Electric treatment sessions are applied 1-2 times a day with rotating magnetic field of 0.25-0.35 Tesla units induction in the periimplantitis area. Every electric treatment is carried out with 20-30% given to positive electrode polarity and the rest 70-80 % of treatment is applied with change of their polarity. EFFECT: enhanced effectiveness of treatment.

Description

 The alleged invention relates to dental implantology. Peri-implantitis can occur during the period of osseointegration of the implant or after the installation of the prosthesis. Microbiological studies have shown that the causes of peri-implantitis are most often the presence of streptococcus, provelete oralis, corinobacteria, and staphylococci.

 There is a method of treating peri-implantitis by surgical opening of the pathology zone and treating tissues with a direct method of antiseptics (Zhusev A.I., Remov Yu.A. "Dental, pathology", Moscow, 1999).

 However, the method has a drawback. With surgical intervention in close proximity to the focus of the pathology, i.e. in the immediate vicinity of the implant, difficulties arise for the patient, especially with recurrence of peri-implantitis, repeated opening and treatment of the focus of the pathology are necessary, which is traumatic for the patient.

 The technical result is a reduction in trauma, a reduction in the rehabilitation of patients.

 The technical result of the method of treating peri-implantitis is achieved by the fact that, according to the invention, into the peri-implantitis region directly to the implant and / or a tooth prosthesis mounted on the implant through a through metal pin embedded therein, having galvanic contact with the implant and / or onto the projection of the peri-implantitis region on the skin the patient’s cheeks through a porous pad saturated with physiological saline are supplied with an electrode / electrodes galvanically connected / connected to one of the poles of an external source of electric current, another electrode, galvanically connected to the other pole of an external source of electric current, is placed on the patient’s body and provides a current value of up to 100 μA, while the sessions of electric therapeutic treatment are carried out 1-2 times a day for 15-30 minutes for 10- 15 days with simultaneous exposure to a rotating magnetic field with an induction of 0.25-0.35 T in the peri-implantitis region, and at the beginning of each session, 20-30% of the time is carried out by an electric action with a positive polarity of the electrode / electrodes placed in the region eriimplantita and / or peri-implantitis projection area, and the remaining 70-80% of the time while changing their polarities.

 Either a direct current generator or an electric current in the form of pulses with an average current value in time of not more than 100 μA and a pulse duration of 0.3-1.0 ms can be used as an external source of electric current.

 With therapeutic exposure to current, the total electric charge introduced into the patient can be measured.

 The method is as follows.

 Initially, when exposed through a tooth prosthesis, one of the electrodes is applied to the metal core of the tooth in the presence of galvanic contact with the implant.

 In the case of working with the healing abutment, one of the electrodes is inserted into the socket of the healing abutment. Then, the current value is zeroed at the current source and this electrode is connected to the positive, and the other electrode, placed on the patient’s body, to the negative pole of the current source. After that, the current is increased to a value corresponding to the patient's comfort for a time of the order of 20-30% of the session duration. Then the polarities after zeroing are reversed and the session is developed to the end, observing the patient's comfort.

 When carrying out the procedure with percutaneous exposure, one of the electrodes is placed on the projection of peri-implantitis on the patient’s skin, and the other on the patient’s body, and the electrodes are connected, respectively, the first to the positive and the second to the negative poles of the current source, having previously reset it. Then increase the current to a value corresponding to the patient's comfort limit.

 The remaining session time is carried out after changing the polarity of the electrodes. Sessions are carried out once or twice a day for 15-30 minutes for 10-15 days. In all cases, simultaneously with electrical exposure, they provide exposure to a rotating magnetic field with induction + (0.25-0.35) T for the same session duration.

 The authors carried out the necessary work, which made it possible to determine the necessary parameters of the electric current and magnetic field during therapeutic stimulations.

 Carrying out an electrical exposure with a positive polarity at the beginning of the exposure allows the pathogenic microflora to be blocked, while in the peri-implantitis region an acidosis area is formed with a positive space charge, which reduces mitosis of the undesirable flora.

When the electrode is located in the area of pathology galvanically connected with the negative pole of the current source, OH ^- molecules are generated. Moreover, in the field of pathology, a negative space charge is formed, which is equivalent to the formation of local alkalosis. At the same time, the values of membrane potentials decrease, the rate of metabolic processes in cellular structures increases, the innervation of blood vessels is restored, cell edema is reduced in volume and, as a whole, periodontal function is restored. In addition, due to the negative space charge OH ^- the concentration of Ca ²⁺ , polar collagen and other positively charged ions increases, and either local or global elimination of osteoporosis, which inevitably accompanies peri-implantitis, is possible.

 At currents significantly lower than 100 μA constant current or on average at a pulsed current, the effectiveness of the therapeutic effect is reduced, and at currents above 100 μA constant or on average at a pulsed current, patient discomfort appears in the form of burning, tissue twitching, etc.

 A rotating magnetic field with an induction value of 0.25-0.35 T interacts quite effectively with paramagnetic molecules, which include free radicals. Hemoglobin is in a certain sense also a free radical. In the presence of a magnetic field in paramagnetic molecules, the ground state is split with respect to their chemical bonds, which leads, in the case of hemoglobin, to a decrease in its activity during oxygen uptake. Conformation of hemoglobin with a change in the valence of iron in heme leads to the release of oxygen into the blood plasma and to a corresponding increase in the concentration of oxygen in the tissues surrounding the blood vessel (capillary).

An increase in the oxygen flow during its diffusion through the membrane into any cell or axon activates the production of ATP (adenosine triphosphoric acid), without which metabolic processes are impossible. In addition, increased tissue oxygenation promotes the diffusion of CO ₂ from tissues into blood plasma, and in the tissues themselves the pH rises (alkalosis - an acidosis antagonist begins to form). At the same time, hemodynamics improves (the volumetric flow rate increases), swelling decreases, and tissue tissue regeneration processes, including the regeneration of affected bone structures, become more active.

 With a decrease in the magnitude of magnetic stimulation, the efficiency of hemoglobin conformation, including other free radicals, decreases, and the therapeutic effect of the magnetic effect decreases. Based on these considerations, the above value of magnetic induction is accepted.

 The method is illustrated by the following examples.

 Example 1

 Patient K., 32 years old, about 6 months ago, an operation of dental implantation on the upper jaw was performed. Three screw, two-stage implants of the LIKO system were installed in the area of missing 6-5-4 teeth on the upper jaw on the right.

 The postoperative period was uneventful.

 An inflammatory reaction was not noted, the sutures were removed on the 8th day after the operation. The time until the 2nd stage was performed, the patient was under dynamic observation at the place of residence.

 During the second stage, slight hyperemia, swelling of the soft tissues of the mucous membrane of the alveolar process in the region of the absent 4 upper right was revealed. On the x-ray performed before the intervention in the area of the installed implant in place of the missing 4 upper right, there is a section of bone rarefaction in the marginal section. Upon excision of the mucous membrane over the implant, a slight atrophy of bone tissue in the neck of the implant was detected. The depth of atrophy was estimated at 1.5-2 mm.

 He was diagnosed with peri-implantitis in the absent 4 region on the right. It was decided to install a gingival shaper in all three implants, and to conduct a stimulation course with a current of 60 μA on the area of the problematic implant with a simultaneous exposure to a rotating magnetic field with an induction of 0.25 T. The course included 15 daily procedures of 25-30 minutes each.

 After the therapeutic measures were taken, a repeated clinical and radiological examination was carried out before the stage of replacing the gingival shaper with an orthopedic head. With gentle probing of the junction of the mucous membrane and the implant, the bone pocket was absent, which was confirmed by the radiograph of this part of the jaw.

 Thus, the conducted method of electrical stimulation and magnetostimulation made it possible to solve a rather complicated clinical problem of the further adequate use of the installed implant.

 Example 2

 Patient D., 47 years old. About 2 years ago, an operation of dental implantation on the lower jaw was performed in the area of the absent 6, 7 lower ones on the right. Two-stage screw implants "LIKO" were installed, followed by prosthetics with a ceramic-metal prosthesis, supported by lower, 5, 6, 7 lower right.

 Currently, the patient complained of moderate pain in the region 6 lower on the right when chewing food, slight swelling of the gums in the area of the previously installed implant.

 On external examination: there is hyperemia and swelling of the mucous membrane of the alveolar process in the marginal margin of the lower jaw. On the radiograph of the lower jaw in a lateral projection in the area of the implant installed in place of the absent 6 lower right, a bone pocket with a depth of 2 mm is determined. The diagnosis was made - periimplantitis 6 lower right.

 A thorough history revealed that the patient had poor oral hygiene, especially in the area of a previous operation.

 A conversation was held on the need for good oral hygiene under the supervision of a professional hygienist. The patient underwent a course of electrical stimulation with currents of 100 μA and magnetostimulation with induction of 0.35 T, fixing one of the electrodes on a mounting screw of a ceramic-metal structure daily for 20-30 minutes for 14 days. Stimulation gave a lasting positive result. After 21 days, a repeated radiography was performed, which in turn confirmed a positive result. Thus, the course of electrical stimulation and magnetostimulation allowed, without removing the orthopedic design, to stop the inflammatory reaction and continue the successful use of the implant.

 Example 3

 Patient S., 39 years old, about 4 years ago, the dental implantation operation was performed by the domestic system of implants “LIKO”, on the lower jaw on the left in the area absent on the left 4, 5, 6. In a timely manner, a ceramic-metal orthopedic prosthesis was constructed based on existing implants and prepared 3 lower left tooth.

 During the use of the orthopedic design, there were no problems.

 Three weeks ago, after a trauma associated with a shock during a fall, a chip occurred on the ceramic coating of the prosthesis. The patient requested a new ceramic-metal prosthesis.

 When removing the orthopedic design, moderate pain and mobility of 2 of the installed 3 implants appeared and a diagnosis of peri-implantitis was made. A course of electrical stimulation with currents of 50 μA and magnetic stimulation with induction of 0.30 T. The course consisted of procedures for 30 minutes each 2 times a day for 14 days.

 During a repeated clinical examination, after a course of electrical stimulation and magnetostimulation, there were no complaints of pain and the mobility of the implants disappeared. This procedure allowed to achieve a persistent positive clinical result. Previously installed implants have been successfully reused as a support in a ceramic bridge.

Claims (1)

 A method of treating peri-implantitis, characterized in that in the peri-implantitis region directly to the implant and / or the tooth prosthesis installed through the implant is a through metal pin having galvanic contact with the implant and / or on the projection of the peri-implantitis region on the patient’s cheek skin through a porous pad, saturated with physiological saline, an electrode / electrodes are connected that are galvanically connected to one of the poles of an external source of electric current, the other electrode galvanically connected to the other pole of the external source of electric current, placed on the patient’s body and provide a current value of up to 100 μA, while the sessions of the electrical therapeutic effect are carried out 1-2 times a day for 15-30 minutes for 10-15 days with simultaneous exposure to a rotating magnetic field with induction of 0.25-0.35 T in the area of peri-implantitis, and at the beginning of each session, 20-30% of the time conduct electrical exposure with a positive polarity of the electrode / electrodes located in the peri-implantitis region and / or on the projection of the peri-implantitis region, the remaining 70-80% by changing its polarity.