RU2814388C1 - Method of treating maxillary sinusitis - Google Patents

Abstract

FIELD: medicine; surgical dentistry.

SUBSTANCE: electrode with an interlayer saturated with physiologic saline is inserted into a patient’s nostril from the side of the installed zygomatic implant passing through the maxillary sinus until the interlayer is brought into contact with the mucosa. Tampon is used as an interlayer. Electrode with a different polarity of electric current is connected directly to the above zygomatic implant. Electrode is placed in the patient’s nostril on the side of the involved zygomatic implant. Thereafter, the required current is provided from 5 mA to 15 mA. Sessions of electric therapeutic effect are performed 1–2 times day for 15–30 minutes during 10–15 days. At the beginning of each session 20–30% of the time, an electric exposure is carried out with a positive polarity of the electrode placed in the patient's nostril, and rest 70–80% of the time—at change of their polarity.

EFFECT: method provides higher clinical effectiveness in maxillary sinusitis.

1 cl, 3 ex

Description

The invention relates to medicine, namely to surgical dentistry, and can be used to treat sinusitis.

A gentle method of treating odontogenic sinusitis is known, which consists of conservative treatment of the mucous membrane by washing the cavity with antiseptic solutions, followed by closing the fistula using plastic surgery with local tissues without performing a radical maxillary sinusotomy /Melnikov A.V. “Possibilities of gentle methods of treating sinusitis associated with oral pathology.”, journal “Bulletin of Otorhinolaryngology”, 1984, No. 3, p. thirty.

The disadvantages are that superficial and short-term exposure to the drug leads to low effectiveness of treatment and relapse of the disease.

There is a known method of treating peri-implantitis by surgically opening the pathological area and treating the tissue directly with antiseptics (Zhusev A.I., Remov Yu.A. “Dental pathology”, Moscow, 1999).

The disadvantages of this method are that during surgery in close proximity to the source of pathology, i.e. in close proximity to the implant, difficulties arise for the patient, especially with relapse of peri-implantitis, repeated opening and treatment of the pathology site is necessary, which is traumatic for the patient.

There is a known method of treating peri-implantitis, according to which the peri-implantitis area is directly to the implant and/or the dental prosthesis installed on the implant through a built-in through metal pin that has galvanic contact with the implant and/or to the projection of the peri-implantitis area on the skin of the patient’s cheek through a porous gasket saturated saline solution, an electrode/electrodes galvanically connected to one of the poles of an external source of electric current are supplied, another electrode galvanically connected to the other pole of an external source of electric current is placed on the patient’s body and a current value of up to 100 μA is provided, during which sessions of electrical therapeutic effects 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 area of peri-implantitis, and at the beginning of each session, 20-30% of the time, electrical exposure is carried out with a positive polarity of the electrode/electrodes placed in the area of peri-implantitis and/or on the projection of the area of peri-implantitis, and the remaining 70-80% when changing their polarity. (RF patent for invention No. 2181989, Application: 2001103255/14, 02/07/2001, IPC: A61C 8/00, A61N 1/32).

The disadvantages are the need to use a significant amount of drugs, the complexity and low effectiveness of treatment and possible relapses of the disease.

There is a known method of treating odontogenic sinusitis with oroantral communication by washing the maxillary sinus with solutions of medicinal substances and closing the fistula with local tissues, while additionally intrasinus electrophoresis with a 1-3% dimethyl sulfoxide solution is performed through the oroantral opening with a gradual increase in exposure from 15 to 25 minutes, force current 1-3 µA, 5-7 sessions, (RF patent for invention No. 2131751, application: 97109896/14, 06/11/1997, IPC: A61N 1/20, A61B 17/24 - prototype).

The disadvantages are the need to use a significant amount of drugs, the complexity and low effectiveness of treatment and possible relapses of the disease.

The objective of the proposed invention is to increase the effectiveness of treatment of sinusitis.

The solution to this problem is achieved by the fact that in the proposed method of treating sinusitis in patients who have at least one installed zygomatic implant passing through the maxillary sinus, which consists in installing electrodes connected to the poles of an external source of electric current on the patient’s body and delivering electrical impulses a certain current strength with a change in their polarity for a given period of time, while one electrode is installed through a layer saturated with saline solution in his nasolabial area, according to the invention, the specified electrode with a layer saturated with saline solution is installed in the patient’s nostril from the installation side of the said zygomatic implant passing through the maxillary sinus until said layer is in contact with the mucous membrane, and a tampon is used as a layer, while an electrode with a different polarity of electric current is connected directly to said zygomatic implant, and/or dental prostheses installed on the implant through a built-in prosthesis tooth through metal pin having galvanic contact with the implant, while the electrode in the patient’s nostril is installed on the side of the involved zygomatic implant, after which the required current value is provided from 5 mA to 15 mA, while electrical therapeutic sessions are carried out 1-2 times per a day for 15-30 minutes for 10-15 days, and at the beginning of each session, 20-30% of the time, electrical stimulation is carried out with the positive polarity of the electrode placed in the patient’s nostril, and the remaining 70-80% of the time - when their polarity is changed.

In the embodiment of the method, in the presence of two zygomatic implants, the procedure is carried out separately with each of them.

An important advantage of administering drugs using electrophoresis is the activation of active substances due to dissociation into active ions.

As an external source of electric current, either a direct current generator or electric current in the form of pulses with an average current value over time of no more than 15 mA and a pulse duration of 0.3-1.0 ms can be used.

The authors carried out the necessary work, which made it possible to determine the necessary parameters of the electric current when carrying out medical procedures in the treatment of sinusitis using the proposed method.

The authors were the first to propose and experimentally confirm the current criterion from 5 mA to 15 mA.

When the direct current value is below 5 mA or on average with pulsed current, the effectiveness of the therapeutic effect is significantly reduced, and at values above 15 mA direct or on average with pulsed current, patient discomfort appears in the form of burning, tissue twitching, etc.

During the therapeutic effect of current, the total electrical charge introduced into the patient can be measured.

The method is carried out as follows.

Having previously disconnected the current source, one of the electrodes is connected to the zygomatic implant in the patient’s jaw, and another electrode is installed in the patient’s nostril through a tampon saturated with saline solution. This order is desirable to reduce the discomfort of the patient who is forced to breathe through one nostril when performing manipulations with the zygomatic implant.

After installing the electrodes, they are connected to the current source, respectively, the electrode placed in the patient’s nostril is to the positive pole, and the second one, connected to the zygomatic implant, is to the negative pole of the current source, having previously reset it to zero. Then the current is increased to a value corresponding to the patient’s comfort limit, and the current strength is provided from 5 mA to 15 mA.

At the beginning of each session, 20-30% of the time, electrical stimulation is carried out with the positive polarity of the electrode placed in the patient’s nostril, and the remaining 70-80% of the time when their polarity is changed.

The remaining session time is spent after changing the polarity of the electrodes. Sessions are carried out once or twice a day for 15-30 minutes for 10-15 days.

Example of practical application.

The method is illustrated by the following examples.

Example 1.

Patient V., 52 years old, underwent dental implantation surgery on the upper jaw about 6 months ago. Four zygomatic screw implants of the Noris system were installed in the area of 25, 23, 13, 15 teeth in the upper jaw.

The postoperative period was uneventful.

There was no inflammatory reaction; the sutures were removed on the 8th day after surgery. Before the 2nd stage, the patient was under dynamic observation at her place of residence.

During the second stage, slight hyperemia and swelling of the soft tissues of the mucous membrane of the alveolar process in the area 24-25 of the upper right was detected. An x-ray taken before the intervention revealed a darkening characteristic of sinusitis in the left maxillary sinus. A diagnosis was made of postoperative left-sided sinusitis and a decision was made to conduct a course of electrophoresis with calcium chloride with a current of 15 mA according to the author’s method described above. The course included 15 daily procedures of 25-30 minutes each.

After the treatment measures, before the stage of fixation of the orthopedic structure, a repeat clinical and x-ray examination was carried out. Clinically and radiologically, no inflammatory phenomena were detected.

Thus, the proposed and implemented method of electrical stimulation made it possible to solve a rather complex clinical problem without surgical intervention.

Example 2.

Patient E., 67 years old. About 2 years ago, dental implantation surgery was performed on the upper jaw in the area of 15, 12, 22, 25 teeth. Zygomatic screw implants "Noris" were installed, with immediate prosthetics with a metal-acrylic prosthesis supported by 15, 12, 22, 25 implants.

Patient E. complained of moderate pain in the area of the right maxillary sinus when tilting the head, slight swelling of the cheek in the right infraorbital region.

On external examination: there is hyperemia and swelling of the mucous membrane in the area of 15-13 missing teeth. An x-ray of the upper jaw in the area of the left maxillary sinus revealed a darkening characteristic of sinusitis. A diagnosis of right-sided sinusitis was made.

A careful history revealed that the patient became hypothermic 5 days ago in ice water. The patient underwent a course of electrophoresis according to the author's method with currents of 15 mA and daily for 20-30 minutes for 14 days. The patient's health improved significantly. After 15 days, a repeat X-ray was performed, which, in turn, confirmed a positive result. Thus, the course of electrophoresis made it possible, without removing the orthopedic structure, to stop the inflammatory reaction and continue the successful use of implants.

Example 3.

Patient E., 69 years old, underwent zygomatic implantation with the Noris implant system on the upper jaw in the area of 15, 13, 23, 25 teeth. Total prosthetics with a metal-ceramic orthopedic design supported by existing implants were performed within the established time frame.

During the use of the orthopedic design, no problems arose.

During a routine preventive examination, moderate pain was revealed in the area of 23-25 implants. The radiograph showed darkening of the left maxillary sinus, characteristic of sinusitis. A diagnosis of right-sided sinusitis was made and a course of electrophoresis was carried out using the author's method with currents of 15 mA. The course consisted of procedures of 20 minutes each, 2 times a day, for 14 days.

During a repeated clinical examination, after a course of electrophoresis, patient E. had no complaints of pain, which was confirmed by x-ray examination. This procedure allowed us to achieve a stable positive clinical result.

The use of the proposed method will improve the effectiveness of the treatment of sinusitis.

Claims (2)

1. A method for treating sinusitis in patients who have at least one installed zygomatic implant passing through the maxillary sinus, including installing electrodes connected to the poles of an external source of electric current on the patient’s body and delivering electrical impulses of a certain current strength with changing their polarity for a given period period of time, while one electrode is installed through a layer saturated with saline solution in the nasolabial area, characterized in that said electrode with a layer saturated with saline solution is installed in the patient’s nostril from the installation side of said zygomatic implant passing through the maxillary sinus, until contact of the said layer with the mucous membrane, and a tampon is used as a layer, while an electrode with a different polarity of the electric current is connected directly to the specified zygomatic implant, while the electrode in the patient’s nostril is installed on the side of the involved zygomatic implant, after which the required current value is provided from 5 mA to 15 mA, while electrical treatment sessions are carried out 1-2 times a day for 15-30 minutes for 10-15 days, and at the beginning of each session, 20-30% of the time electrical treatment is carried out with the positive polarity of the electrode placed in the patient's nostril, and the remaining 70-80% of the time - when changing their polarity. 2. The method according to claim 1, characterized in that if there are two zygomatic implants, the procedure is carried out separately with each of them.