RU2714392C1 - Method of modifying the surface of methyl methacrylate of a dental prosthesis with low-temperature gas-discharge plasma of low-pressure oxygen by changing the contact angle of wetting on water and free surface energy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to a method of modifying the surface of methyl methacrylate of a dental prosthesis with low-temperature gas-discharge plasma of low-pressure oxygen by changing the contact angle of wetting on water and free surface energy. Method includes examination of surface characteristics of modified prosthesis in patient with involvement of oral mucosa. Modification of the patient's prosthesis is performed by placing the prosthesis in the region of high-frequency discharge of capacitive type, controlling temperature of the polymer during treatment by a contactless infrared pyrometer, edge angle measurement by falling drop method on optical device and standard determination of free surface energy by Owens-Wendt method with subsequent analysis of investigation results. Performing the methylmethacrylate surface modification follows the preliminary clinical diagnosis of a mucous membrane involvement. As a group of clinical control when modifying the surface of methylmethacrylate dental prosthesis patients are selected without disruption of the integrity of the oral mucosa, by determining the contact wetting angle on water, degrees (°θw) are selected, by determination of free surface energy is selected mJ/m² and their quantitative content is determined for modification of dental prosthesis surface from methyl methacrylate. Wetting contact angle measurement for the clinical control group is taken to be 60.5–90.0 °θw. Range of 18.2–40.5 mJ/m² is taken for measurement of free surface energy for a group of clinical control. If the inflammatory disease of the oral mucosa is diagnosed of infectious genesis, the modification of the surface of the dental prosthesis of methyl methacrylate corresponds to the wetting contact water surface characteristics in range of 26.0–42.0 °θw, and the surface free energy – in range of 55.3–65.6 mJ/m². If the non-infectious genital inflammatory disease of the oral mucosa is diagnosed, the surface modification of the dental prosthesis of methyl methacrylate corresponds to the wetting contact water surface characteristics in range of 96.7–125.8 °θw, and free surface energy – in range of 5.0–16.4 mJ/m². According to the selected parameters, when the contact wetting angle on water and free surface energy change, the tactics of the following dental orthopedic treatment of the patient are predicted.

EFFECT: high compatibility of the surface of methyl methacrylate dental prosthesis with the oral mucosa of the patient, high adaptability to the prosthesis, possibility of application of the prosthesis directly on the surgical table with involvement of the oral mucosa, simplified preparation of the patient, absence of discomfort and time costs.

3 cl

Description

The invention relates to medicine, namely to a method for modifying the surface of methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma by changing the contact angle of contact with water and free surface energy, and can be used for orthopedic jaw treatment in institutions involved in complex dental rehabilitation of patients with a disease of the oral mucosa.

A known method of modifying the surface of the polymer, which consists in the fact that the modification of the surface of the polymer is produced by pulsed plasma spraying of a graphite target. Spraying is carried out with a pulse frequency of 0.5-0.9 Hz. In the process of spraying, the surface is etched by an autonomous ion beam source in an oxygen-containing mixture with an inert gas with an oxygen concentration of 10-30 vol. parts. The invention allows to obtain hydrophilic-hydrophobic nanostructures on the surface of the polymer, the sizes of which are comparable with the sizes of biologically active molecules (RU 2325192 C2).

However, the known method in its use has the following disadvantages:

- a carbon coating is created on the polymer surface, which negatively affects the stabilization of the methyl methacrylate prosthesis,

- modification is carried out by an insufficient set of parameters, there is no indication of the range of surface energy values,

- the invention can only be used in implant surgery and there is no data on the use in the condition of orthopedic dental practice,

- preparation of the polymer is carried out at certain times, namely before the patient’s treatment, which increases the time costs,

- etching of the surface structure of the polymer reduces the strength properties of the orthopedic dental prosthesis from methyl methacrylate,

- the complexity of preparing the material to be modified,

- there is no verification of the temperature effect on the polymer,

- when using this method, no data were obtained for patients with inflammation of the oral mucosa, including a mucosal integrity defect.

The objective of the invention is to provide a method for modifying the surface of the methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma by changing the contact angle of contact with water and free surface energy.

The technical result is to achieve a significant increase in the compatibility of the surface of the methyl methacrylate of the dental prosthesis with the oral mucosa in a patient with damage to the oral mucosa due to a change in the contact angle of contact with water and free surface energy on the day of the patient’s treatment, a significant increase in adaptability to an orthopedic dental prosthesis during surface modification achieving the possibility of applying an orthopedic dental prosthesis with modifits surface on the operating table for lesions of the oral mucosa, both for inflammatory diseases of the oral mucosa of infectious origin and for inflammatory diseases of the oral mucosa of non-infectious genesis, as well as a significant simplification of the preparation of the patient within a certain time frame for modifying the surface of the dental a methyl methacrylate prosthesis, the absence of discomfort and time-consuming to obtain a surface modification, which barks possible to obtain a result on the day of treatment the patient has sufficient resistance effect, because it does not depend on salivation and the chemical composition of saliva microelements; it does not require a specific time frame for modifying the surface of methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma.

The technical result is achieved by the fact that the proposed method for modifying the surface of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma by changing the contact angle of contact with water and free surface energy, including studying the surface characteristics of the modified prosthesis in a patient with damage to the oral mucosa, Patient prosthesis modifications are made when the prosthesis is placed in the RF area of the capacitance of the type, monitoring the polymer temperature during processing with a non-contact infrared pyrometer, measuring the contact angle using the falling drop method on an optical device, and performing a standard determination of free surface energy using the Owens-Wendt method, followed by analysis of the results of studies, while changing the contact angle of contact with water and free surface energy of the denture of methyl methacrylate in a patient with lesions of the oral mucosa, as a group of clinical cont Proportion in the modification of the surface of methyl methacrylate dental prosthesis is selected patients without disrupting the oral mucosa integrity, by definition of the contact wetting angle of water is selected degrees (° θw), to determine the surface free energy is selected mJ / m ² and determine their quantitative content for surface modification dental a prosthesis made of methyl methacrylate, while the range of 60.5-90.0 ° θw, for m for measuring the surface free energy for clinical control group receiving range 18,2-40,5 mJ / m ^2, wherein if the diagnosed inflammatory mucosal disease oral infectious genesis, the surface modification of a dental prosthesis corresponds methylmethacrylate surface characteristics of contact angle wetting by water in the range of 26,0-42,0 ° θw, and the surface free energy in the range of 55,3-65,6 mJ / m ^2, wherein if the diagnosed inflammatory mucosal disease n Lost mouth noninfectious origin, the surface modification of a dental prosthesis corresponds methylmethacrylate surface wetting characteristics of the contact angle of water in the range of 96,7-125,8 ° θw, and the surface free energy in the range of 5,0-16,4 mJ / m ^2, then, according to the selected parameters, when changing the contact angle of contact with water and free surface energy, the tactics of subsequent dental orthopedic treatment of the patient is predicted.

In this case, the prosthesis is modified under the temperature control of the polymer and does not exceed 40 ° C, which excludes its thermal destruction. In this case, the surface modification of the denture made of methyl methacrylate is performed at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 min.

The method is as follows. The method is as follows. A patient’s dental prosthesis is prepared from methyl methacrylate for inflammation of the oral mucosa to modify the surface at the stage of dental rehabilitation. The surface of the methyl methacrylate surface of the dental prosthesis is modified with a low-temperature gas-discharge low-pressure oxygen plasma in a patient with a lesion of the oral mucosa after a preliminary clinical diagnosis of damage to the oral mucosa, but before the prosthesis is applied to the oral cavity when the prosthesis is placed in the RF region of a capacitive type monitoring the polymer temperature during processing with a non-contact infrared pyrometer; measuring the contact angle using the pad method a droplet on an optical instrument, and the standard determination of free surface energy by the Owens-Wendt method followed by an analysis of the research results. In this case, the prosthesis is modified under the temperature control of the polymer and does not exceed 40 ° C, which excludes its thermal destruction. In this case, the surface modification of the denture made of methyl methacrylate is performed at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 min.

Patients without modifying the integrity of the oral mucosa are selected as a clinical control group when modifying the surface of the methyl methacrylate of the dental prosthesis, degrees (° θw) are selected by determining the contact angle of water contact, mJ / m ² is determined by determining free surface energy and their quantitative content is determined for modifying the surface of the dental prosthesis from methyl methacrylate, while measuring the contact angle of contact with water for the clinical control group I take the range 60.5-90.0 ° θw, while the measurement of free surface energy for the clinical control group takes the range 18.2-40.5 mJ / m ² .

If an inflammatory disease of the oral mucosa of an infectious genesis is diagnosed in a patient at the stage of dental rehabilitation, then the modification of the surface of the denture made of methyl methacrylate corresponds to the surface characteristics of the contact angle of water contact in the range 26.0-42.0 ° θw, and the free surface energy in the range 55.3-65.6 mJ / m ² .

If an inflammatory disease of the oral mucosa of non-infectious genesis is diagnosed in a patient at the stage of dental rehabilitation, then the modification of the surface of the denture made of methyl methacrylate corresponds to the surface characteristics of the contact angle of contact with water in the range of 96.7-125.8 ° θw, and the free surface energy in the range 5.0-16.4 mJ / m ² .

Then, according to the selected parameters, when changing the contact angle of contact with water and free surface energy, the tactics of subsequent dental orthopedic treatment of the patient is predicted.

In this case, the prosthesis is modified under the temperature control of the polymer and does not exceed 40 ° C, which excludes its thermal destruction. In this case, the surface modification of the denture made of methyl methacrylate is performed at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 min.

Among the essential features characterizing the proposed method for modifying the surface of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge plasma of low pressure oxygen by changing the contact angle of contact with water and free surface energy with damage to the mucous membrane of the oral cavity during inflammation of the mucous membrane of the alveolar process of the jaw, are distinguished:

- the lack of time for obtaining the final result of the modification, simplifying the preparation of the patient to obtain the final test result, significantly simplifying the preparation of the patient in a certain time frame for the modification of the methyl methacrylate of the dental prosthesis, determining the contact angle of wetting with water, select the degrees (° θw), determining the free surface energy choose mJ / m ² , has a sufficient stability of the effect, because does not depend on salivation and the chemical composition of saliva microelements, does not require a specific time frame for modifying the surface of methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma,

- the choice for modifying the surface of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge plasma of low pressure oxygen by changing the contact angle of water contact degrees (° θw) and free surface energy - mJ / m ² and determining their quantitative content for modifying the surface of the dental prosthesis from methyl methacrylate,

- in the absence of a defect in the oral mucosa, the surface of the methyl methacrylate dental prosthesis was modified according to the parameters of the surface characteristics of the contact angle of contact with water in the range of 60.5 - 90.0 ° θw, and the free surface energy in the range of 18.2-40.5 mJ / m ²

- when diagnosing an inflammatory disease of the oral mucosa of an infectious genesis, a modification of the surface of the denture made of methyl methacrylate corresponds to the surface characteristics of the contact angle of water contact in the range of 26.0-42.0 ° θw, and the free surface energy in the range of 55.3-65.6 mJ / m ²

- when diagnosing an inflammatory disease of the mucous membrane of the oral cavity of non-infectious genesis, the modification of the surface of the dental prosthesis made of methyl methacrylate corresponds to the surface characteristics of the contact angle of contact with water in the range of 96.7-125.8 ° θw, and the free surface energy in the range of 5.0-16.4 mJ / m ²

- forecasting the tactics of subsequent dental orthopedic treatment of the patient according to the selected parameters when changing the contact angle of wetting by water and free surface energy,

- temperature control of the polymer when modifying the surface of the methyl methacrylate of the dental prosthesis, which does not exceed 40 ° C, which excludes its thermal destruction,

additional implementation at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 min when the surface of the denture is modified from methyl methacrylate.

Experimental studies of the proposed method for modifying the surface of the methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge plasma of low-pressure oxygen by changing the contact angle of contact with water and free surface energy under clinical conditions showed its high efficiency. The method of modifying the surface of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge plasma of low pressure oxygen by changing the contact angle of contact with water and free surface energy when using it provides variability of the surface modification of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge plasma of low pressure oxygen by changing the contact angle of contact with water and water free surface energy to increase the compatibility of the surface of the methyl methacrylate of the dental prosthesis with the oral mucosa in a patient with damage to the oral mucosa due to a change in the contact angle of contact with water and free surface energy on the day the patient contacts, a significant increase in adaptability to an orthopedic dental prosthesis during surface modification, achieving the possibility of application an orthopedic dental prosthesis with a modified surface directly on the operating room ohm table in case of damage to the oral mucosa, both in case of inflammatory disease of the oral mucosa of infectious origin and inflammatory disease of the oral mucosa of non-infectious genesis, as well as a significant simplification of the preparation of the patient in a certain time frame for modifying the surface of the dental prosthesis from methyl methacrylate, lack of discomfort and time-consuming to obtain surface modifications, which makes it possible to obtain a result on the day of treatment the patient has sufficient stability of the effect, because it does not depend on salivation and the chemical composition of saliva microelements; it does not require a specific time frame for modifying the surface of methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma.

The implementation of the proposed method for modifying the surface of the methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge plasma of low-pressure oxygen by changing the contact angle of contact with water and free surface energy is illustrated by the following clinical examples.

Example 1. Patient A. with infectious inflammation of the oral mucosa, 64 years old, was admitted to the Department of Orthopedic Dentistry with a presumptive diagnosis: “catarrhal stomatitis of bacterial genesis of the mucous membrane of the alveolar process of the upper jaw on the left”.

A patient’s dental prosthesis was prepared from methyl methacrylate for inflammation of the oral mucosa to modify the surface at the stage of dental rehabilitation. The surface of the methyl methacrylate surface of the dental prosthesis was modified with a low-temperature gas-discharge low-pressure oxygen plasma in a patient with a lesion of the oral mucosa after a preliminary clinical diagnosis was made regarding damage to the oral mucosa, but before the prosthesis was placed in the oral cavity when the prosthesis was placed in the RF region of a capacitive type monitoring the polymer temperature during processing with a non-contact infrared pyrometer; measuring the contact angle using the pad method a droplet on an optical device, and the standard determination of free surface energy was carried out according to the Owens-Wendt method with subsequent analysis of the research results.

As a modification of the surface of the methyl prostate methyl methacrylate of the prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma, at the stage of dental rehabilitation of a patient with a disease of the oral mucosa, degrees (° θw) were determined by determining the contact angle of water contact, mJ / m ^{2 was} determined by determining the free surface energy and determined their quantitative content for surface modification of the denture of methyl methacrylate.

According to the results of the preliminary clinical diagnosis, inflammation of the oral mucosa of an infectious genesis was established. Based on the obtained clinical data, the surface of the denture methyl methacrylate was modified with a low-temperature gas-discharge low-pressure oxygen plasma with the surface characteristics of the contact angle of water contact of 38.6 ° θw, and the free surface energy of 57.2 mJ / m ² . Clinically, a decrease in the inflammatory response and improvement in the patient’s oral mucosa in the short adaptation period were observed. In connection with the data obtained, the patient underwent a correction of dental treatment of the mucous membrane of the alveolar process of the upper jaw on the left.

Example 2. Patient E. with non-infectious inflammation of the oral mucosa, 76 years old, was admitted to the Department of Orthopedic Dentistry with a presumptive diagnosis: “squamous cell carcinoma of the mucous membrane of the alveolar process of the upper jaw on the right”.

A patient’s dental prosthesis was prepared from methyl methacrylate for inflammation of the oral mucosa to modify the surface at the stage of dental rehabilitation. The surface of the methyl methacrylate surface of the dental prosthesis was modified with a low-temperature gas-discharge low-pressure oxygen plasma in a patient with a lesion of the oral mucosa after a preliminary clinical diagnosis was made regarding damage to the oral mucosa, but before the prosthesis was placed in the oral cavity when the prosthesis was placed in the RF region of a capacitive type monitoring the polymer temperature during processing with a non-contact infrared pyrometer; measuring the contact angle using the pad method a droplet on an optical device, and the standard determination of free surface energy was carried out according to the Owens-Wendt method with subsequent analysis of the research results.

As a modification of the surface of the methyl prostate methyl methacrylate of the prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma, at the stage of dental rehabilitation of a patient with a disease of the oral mucosa, degrees (° θw) were determined by determining the contact angle of water contact, mJ / m ^{2 was} determined by determining the free surface energy and determined their quantitative content for surface modification of the denture of methyl methacrylate.

According to the results of the preliminary clinical diagnosis, inflammation of the mucous membrane of the oral cavity of non-infectious origin was established. Based on the obtained clinical data, the surface of the denture methyl methacrylate was modified with a low-temperature gas-discharge low-pressure oxygen plasma with the surface characteristics of the contact angle of water contact of 120.7 ° θw, and the free surface energy of 15.8 mJ / m ² . A modified prosthesis was applied directly to the operating table. Clinically observed the absence of an inflammatory reaction in the immediate postoperative period in the patient. In connection with the data obtained, the patient underwent a correction of the dental treatment of the mucous membrane of the alveolar process of the upper jaw on the right.

Example 3. Patient K. with foci of hyperemia without compromising the integrity of the oral mucosa, 62 years old, was admitted to the Department of Orthopedic Dentistry with a presumptive diagnosis: "inflammation of the mucous membrane of the alveolar process of the lower jaw on the left."

A patient’s dental prosthesis was prepared from methyl methacrylate for inflammation of the oral mucosa to modify the surface at the stage of dental rehabilitation. The surface of the methyl methacrylate surface of the dental prosthesis was modified with a low-temperature gas-discharge low-pressure oxygen plasma in a patient with a lesion of the oral mucosa after a preliminary clinical diagnosis was made regarding damage to the oral mucosa, but before the prosthesis was placed in the oral cavity when the prosthesis was placed in the RF region of a capacitive type monitoring the polymer temperature during processing with a non-contact infrared pyrometer; measuring the contact angle using the pad method a droplet on an optical instrument, and the standard determination of free surface energy by the Owens-Wendt method followed by an analysis of the research results.

As a modification of the surface of the methyl prostate methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma, at the stage of dental rehabilitation of a patient with a disease of the oral mucosa, the degrees ° θw were determined by determining the contact angle of water contact, mJ / m ^{2 was} determined by determining the free surface energy and quantified contents for surface modification of the denture of methyl methacrylate.

According to the results of the preliminary clinical diagnosis, inflammation was established without violating the integrity of the oral mucosa. Based on the obtained clinical data, the surface of the dental prosthesis methyl methacrylate was modified with a low-temperature gas-discharge low-pressure oxygen plasma with the surface characteristics of the contact angle of water contact of 78.3 ° θw, and the free surface energy of 26.4 mJ / m ² . Clinically observed the disappearance of hyperemia of the mucous membrane of the patient’s oral cavity and improved adaptability. In connection with the data obtained, the patient underwent correction of the dental therapeutic treatment of the mucous membrane of the alveolar process of the lower jaw on the left.

Then, according to the selected parameters, when changing the contact angle of contact with water and free surface energy, the tactics of subsequent dental orthopedic treatment of the patient is predicted.

In this case, the prosthesis is modified under the temperature control of the polymer and does not exceed 40 ° C, which excludes its thermal destruction. In this case, the surface modification of the denture made of methyl methacrylate is performed at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 min.

Moreover, in the process after the end of dental orthopedic treatment of a patient with inflammation of the oral mucosa, an additional clinical follow-up examination of the patient’s oral cavity is carried out, the results of which judge the effectiveness of the selected treatment for a patient with inflammation of the oral mucosa.

Claims (3)

1. A method for modifying the surface of methyl methacrylate of a dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma by changing the contact angle of contact with water and free surface energy, including studying the surface characteristics of the modified prosthesis in a patient with lesions of the oral mucosa, while modifying the patient’s prosthesis placing the prosthesis in the RF region of the capacitive type, controlling the polymer temperature during working with a non-contact infrared pyrometer, measuring the incident angle by the falling drop method on an optical device and performing a standard determination of free surface energy using the Owens-Wendt method followed by analysis of the research results, characterized in that the surface modification of the methyl methacrylate of the dental prosthesis with a low-temperature gas-discharge low-pressure oxygen plasma in a patient with damage to the oral mucosa occurs after a preliminary clinic diagnosis of lesions of the oral mucosa, patients are selected as a clinical control group when modifying the surface of the methyl methacrylate of the dental prosthesis without compromising the integrity of the oral mucosa, degrees (° θw) are determined by determining the contact angle of water contact, and free surface energy is determined by definition choose MJ / m ² and determine their quantitative content to modify the surface of the dental prosthesis from methyl methacrylate, while for measuring the contact angle of water wetting for the clinical control group is taken to be the range 60.5-90.0 ° θw, while the measurement of free surface energy for the clinical control group is taken to be 18.2-40.5 mJ / m ² , if diagnose an inflammatory disease of the oral mucosa of infectious origin, then the modification of the surface of the denture made of methyl methacrylate corresponds to the surface characteristics of the contact angle of contact with water in the range of 26.0-42.0 ° θw, and free surface energy I - in the range of 55.3-65.6 mJ / m ² , while if an inflammatory disease of the mucous membrane of the oral cavity of non-infectious origin is diagnosed, then the modification of the surface of the dental prosthesis from methyl methacrylate corresponds to the surface characteristics of the contact angle of contact with water in the range of 96.7 -125,8 ° θw, and the surface free energy - in the range of 5,0-16,4 mJ / m ^2, followed by selected parameters when changing the wetting contact angle of water and the surface free energy predict subsequent tack dental surg nical prosthetic treatment of the patient. 2. The method according to p. 1, characterized in that the prosthesis is modified under the temperature control of the polymer and does not exceed 40 ° C, which excludes its thermal degradation. 3. The method according to p. 1, characterized in that the surface modification of the dental prosthesis from methyl methacrylate is performed at an effective RF power of 50 W and an oxygen pressure of 0.5 Torr for 10 minutes