RU2804589C1 - Method for preparing dental preparations for morphological studies of dental cement in scanning electron microscope - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: method for preparing dental preparations for morphological studies of cement in a scanning electron microscope. After extraction, the tooth is placed in a 40% formalin solution and then fixed with the possibility of cutting through all areas of cement from the cervical to the apical. Using a diamond disk with a diameter of 20 mm, a vertical separation of the tooth is carried out, obtaining a longitudinal section, cooled with distilled water. The resulting tooth fragment is placed in a cartridge placed on a horizontal surface, cut side down, and filled with two-component epoxy resin. After 24 hours, the resulting preparation is polished on an “MP-1BGrinderPolisher” machine, cooled with distilled water, using Dexter grinding wheels with a grain size of 1000 grit for 2 minutes, grinding off 0.5 mm of the preparation. Next, the preparation is polished with “Dexter” grinding wheels with a grain size of 1500, 2000 grit, alternately for 1 minute each, while another 0.5 mm of the preparation is grinded off. Control of the removed layer of the surface of the preparation is carried out using a caliper, then the preparation is cleaned in an ultrasonic bath for 1 minute, then polished on an “MP-1BGrinderPolisher” machine using a flannel polishing wheel with W52500 grit with diamond paste for 2 minutes, cooled with distilled water and clean in an ultrasonic bath for 2 minutes. After this, the preparation is dried using a cellulose napkin until traces of moisture disappear, the surface is etched with 37% orthophosphoric acid H₃PO₄ for 20 seconds, and washed under running distilled water for 15 seconds, and finally dried.

EFFECT: improving the method for making dental preparations for morphological studies of the structure of cement in various areas in a scanning electron microscope, under precise and objective control of grinding off the required thickness of hard tissues, which makes it possible to study cellular and acellular cement, the relief of the entire studied surface of the root part of the tooth.

1 cl, 2 ex

Description

The invention relates to medicine, in particular dentistry, morphology, histology, and can be used to study the morphological structure of dental cement in a scanning electron microscope, namely the cellular and acellular zones, their relationships over the entire surface of the cement in various areas on the longitudinal section of the tooth, the relief of the surface being studied. The data obtained can be used in highly accurate diagnosis of various forms of impaired eruption of third molars.

There is a well-known preparation method, which is a combination of methods for fixing tissues in a dense epoxy resin compound with known technical methods for making dental sections (Yu.P. Kostilenko, I.V. Boyko. Journal “Dentistry”, No. 5, 2005).

After removal, the teeth are washed in saline, dehydrated, impregnated with epoxy resin, and placed in it. After polymerization, the resulting block is cut with a separating disk, and the end surfaces are ground until a smooth section is obtained. Then the enamel is partially etched in a chelating agent (Trilon B) and a layer of electrically conductive substance is applied to the preparation. At this stage, the drug is suitable for study in a scanning electron microscope. To study the drug in a transmission electron microscope, fingerprints are taken using nitrocellulose, from which carbon replicas are prepared by sputtering spectrally pure graphite in a vacuum. Replicas are applied to object grids and examined (Kostylenko Yu.P., Boyko I.V. Method for making preparations of intravital teeth for multi-purpose studies. Clinical Anatomy and Operative Surgery 2004; 3:5:63-65).

The disadvantage of this method is the uncontrolled effect on the inorganic component, it requires a lot of time for preparation with the involvement of highly qualified specialists, and the anatomical and histological features of the structure of the root part of the teeth under study are not taken into account.

There is a known method for preparing preparations for examining teeth using a scanning acoustic microscope. The teeth are sawed using a diamond saw with a diameter of 50 mm, a thickness of 0.5 mm at a speed of 1500 rpm. The cut surface is processed on cast iron faceplates using free abrasive - corundum powder with an average grain size of 40 microns (M40). After preliminary leveling of the surface, the samples are polished manually on glass plates using abrasive powders of a smaller grain size - up to 5 microns (M5). (L.A. Denisova. Acoustic histology of dental tissues. http://www.mediasphera.ru/joumals/stomo/detail/261/3954).

The disadvantage of this method is the high probability of obtaining distortions and many artifacts when using it due to the use of a manual grinding procedure at the final stage, and the insufficiently smooth and even surface of the samples due to the use of corundum powder with low abrasive properties.

There is a known method for preparing dental preparations for research using atomic force and inverted microscopes. The preparation is polished on a grinding and polishing machine using Hermes grinding wheels. After grinding, the preparation is washed with a stream of distilled water for 2 minutes, then polished on a Neiris grinding and polishing machine using a polyethylene polishing wheel with a diamond suspension and cooled under running distilled water for 2 minutes, the preparation is dried using a GP burner at a temperature of 35 °C for 3 minutes. Etch the surface of the preparation with 37% orthophosphoric acid H ₃ PO ₄ for 2 seconds and rinse under running distilled water for 2 seconds. The preparation is dried using a GP burner at a temperature of 39°C for 5 minutes and placed on an AFM stage or an inverted microscope stage for research (Patent RU 2458975 C1 dated 05/04/2011).

The disadvantages of this method are that its use is impossible when studying different areas of cement. To obtain thin sections of other layers, it is necessary to re-prepare the sample, which is labor-intensive and difficult to study serial groups. We took this method as a prototype.

The inventive method for producing dental cement preparations for morphological studies in a scanning electron microscope is simple and easy to use, is highly accurate and allows you to produce and simultaneously examine the highest quality samples of cement from various areas on a longitudinal cut of a tooth.

The technical result of the claimed invention is the improvement of a method for making dental preparations for morphological studies of the structure of cement in various areas in a scanning electron microscope, under precise and objective control of grinding off the required thickness of hard tissues, which makes it possible to study cellular and acellular cement, the relief of the entire surface of the root part of the tooth being studied.

The technical result is achieved by the fact that in the method of making dental preparations for morphological studies of cement in various areas in a scanning electron microscope, the tooth is longitudinally sawed with a water-cooled diamond disk, dosed grinding and combined polishing of the cement with wheels with diamond paste W52500grit, etching with 37% orthophosphoric acid for 20 seconds, which allows you to study the relief and the relationship between the cellular and acellular areas.

The method for making dental preparations for morphological studies of cement in various areas is carried out as follows. After extraction, the tooth is placed in a 40% formaldehyde solution, then it is fixed in a carpenter’s clamp so that the cut line passes strictly through all sections of cement from the cervical to the apical, using a diamond disk with a diameter of 20 mm and cooled with distilled water, a vertical separation of the tooth is performed, thereby This is where a longitudinal section is obtained. Prepare a cartridge from a polypropylene pipe with an internal diameter of 30 mm, a wall thickness of 5 mm, by cutting off a fragment using scissors for cutting PVC pipes, a workpiece with a height of 10 mm, an internal diameter of 30 mm, a wall thickness of 5 mm is obtained, the unevenness of the workpiece is removed with a diamond needle file, and with a caliper control height and parallelism. The previously prepared tooth fragment is placed in a cartridge placed on a flat horizontal surface, cut side down, filled with two-component epoxy resin for 24 hours, and a preparation is obtained.

At the second stage, the preparation is ground on an MP-1BGrinderPolisher grinding and polishing machine using Dexter grinding wheels with a grain size of 1000 grit for 2 minutes, cooled with distilled water, while 0.5 mm of the preparation is sanded off. Control of the ground layer is carried out using a caliper. After that, sequential processing is carried out with “Dexter” grinding wheels with a grain size of 1500, 2000 grit for 1 minute with each of them, cooled with distilled water, while another 0.5 mm of the preparation is sanded off. After grinding and thickness control, the preparation is cleaned in an ultrasonic bath for 1 minute, then polished on an MP-1BGrinderPolisher grinding and polishing machine using a flannel polishing wheel with W52500grit diamond paste for 2 minutes, cooled with distilled water. After polishing, the preparation is cleaned in an ultrasonic bath for 2 minutes. Dry it using a cellulose cloth until visible traces of moisture disappear. Etch the surface of the preparation with 37% orthophosphoric acid H ₃ PO ₄ for 20 seconds. Next, rinse under running distilled water for 15 seconds. Dry it using a cellulose napkin until visible traces of moisture disappear and place it on the stage of a scanning electron microscope for examination. The use of the described method makes it possible to study the morphology of cement in a longitudinal section in a scanning electron microscope. The use of W52500grit diamond paste can significantly reduce the polishing time of the preparation, improve the quality and relief of the surface being studied, and minimize the likelihood of contamination by coloring components.

The relief obtained during the preparation process is suitable for the morphological study of cement. The preparations obtained by this method make it possible to study the structure of various sections of cellular and acellular cement, their relationship and surface topography. This method is convenient for the production of up to 25 high-quality preparations per laboratory day by one preparator, which makes it possible to control the morphology of cement on large samples. The data obtained can be used in highly accurate diagnosis of various forms of impaired eruption of third molars.

Example 1. Patient P., 27 years old.

Complaints: came for oral sanitation and preventive examination.

Treatment plan: 1. Sanitation of the mouth. 2. Removal of tooth 48. 3. Preparation and morphological examination of a preparation of tooth 48 in a scanning electron microscope.

The patient underwent extraction of tooth 48, which was placed in a 40% formaldehyde solution. The tooth was fixed in a carpenter's clamp in such a way that the cutting line passed strictly through all sections of the cement from the cervical to the apical; using a diamond disk with a diameter of 20 mm and cooled with distilled water, a vertical separation of the tooth was made, thereby obtaining a longitudinal section. We made a cartridge, using scissors for cutting PVC pipes, cut it from a polypropylene pipe with an internal diameter of 30 mm, a wall thickness of 5 mm, a blank 10 mm high with an internal diameter of 30 mm, a wall thickness of 5 mm, sanded off the irregularities with a diamond needle file, and checked the thickness and parallelism workpiece using a caliper. The cartridge was placed on a flat horizontal surface, a tooth fragment was placed in it with the cut down, and filled with two-component epoxy resin for 24 hours.

We carried out step-by-step and sequential grinding of the preparation on an MP-1B GrinderPolisher machine using Dexter grinding wheels with a grain size of 1000, 1500, 2000grit, cooling with distilled water and precise control of the removed layer of the surface of the preparation using a caliper, while using a Dexter grinding wheel with a grain size of 1000 grit 0.5 mm of the preparation was ground, after which it was treated with “Dexter” grinding wheels of 1500, 2000 grit, another 0.5 mm of the preparation was sanded, the preparation was cleaned in an ultrasonic bath for 1 minute, then polished on an MP-1B grinding and polishing machine GrinderPolisher" using a flannel polishing wheel with diamond paste W52500grit for 2 minutes, cooled and washed with distilled water, cleaned in an ultrasonic bath for 2 minutes, the preparation was dried using a cellulose cloth until visible traces of moisture disappeared, the surface was etched with 37% orthophosphoric acid H ₃ PO ₄ 20 seconds, rinsed under running distilled water for 15 seconds, dried using a cellulose cloth until visible traces of moisture disappeared.

The resulting preparation of tooth 48 was placed in the field of view of a Jeol JCM-5700 scanning electron microscope, a number of images were obtained, and the morphological structure of the cement of tooth 48 was described. The resulting description made it possible to objectively confirm the delay in the eruption of tooth 48 and the need for its planned removal. An appropriate entry was made in the medical record of the dental patient.

Consequently, the proposed method for preparing dental preparations for morphological studies of cement in a scanning electron microscope makes it possible to prepare high-quality preparations for research with maximum preservation of the relief in a shorter time.

Example 2. Patient V., 21 years old.

Complaints: I applied for the purpose of preparing for orthodontic treatment.

Treatment plan: 1. Sanitation of the mouth. 2. Removal of tooth 38. 3. Preparation and morphological examination of a preparation of tooth 38 in a scanning electron microscope.

The patient underwent extraction of tooth 38, which was placed in a 40% formaldehyde solution. The tooth was fixed in a carpenter's clamp in such a way that the cutting line passed strictly through all sections of the cement from the cervical to the apical; using a diamond disk with a diameter of 20 mm and cooled with distilled water, a vertical separation of the tooth was made, thereby obtaining a longitudinal section. We made a cartridge, using scissors for cutting PVC pipes, cut it from a polypropylene pipe with an internal diameter of 30 mm, a wall thickness of 5 mm, a blank 10 mm high with an internal diameter of 30 mm, a wall thickness of 5 mm, sanded off the irregularities with a diamond needle file, and checked the thickness and parallelism workpiece using a caliper. The cartridge was placed on a flat horizontal surface, into which a tooth fragment was placed, cut side down, and filled with two-component epoxy resin for 24 hours.

We carried out step-by-step and sequential grinding of the preparation on an MP-1B GrinderPolisher machine using Dexter grinding wheels with a grain size of 1000, 1500, 2000grit, cooling with distilled water and precise control of the removed layer of the surface of the preparation using a caliper, while using a Dexter grinding wheel with a grain size of 1000 grit 0.5 mm of the preparation was ground, after which it was treated with “Dexter” grinding wheels of 1500, 2000 grit, another 0.5 mm of the preparation was sanded, the preparation was cleaned in an ultrasonic bath for 1 minute, then polished on an MP-1B grinding and polishing machine GrinderPolisher" using a flannel polishing wheel with diamond paste W52500 grit for 2 minutes, cooled and washed with distilled water, cleaned in an ultrasonic bath for 2 minutes, the preparation was dried using a cellulose cloth until visible traces of moisture disappeared, the surface was etched with 37% orthophosphoric acid H ₃ PO ₄ 20 seconds, rinsed under running distilled water for 15 seconds, dried using a cellulose cloth until visible traces of moisture disappeared.

The resulting preparation of tooth 38 was placed in the field of view of a Jeol JCM-5700 scanning electron microscope, a series of images were obtained, and the morphological structure of the cement of tooth 38 was described. The resulting description made it possible to objectively confirm the delay in the eruption of tooth 38 and the need for its planned removal. An appropriate entry was made in the medical record of the dental patient.

Consequently, the proposed method for preparing dental preparations for morphological studies of cement in a scanning electron microscope makes it possible to prepare high-quality preparations for research with maximum preservation of the relief in a shorter time.

Claims (1)

The method of preparing dental preparations for morphological studies of cement in a scanning electron microscope is carried out as follows: after removal, the tooth is placed in a 40% formaldehyde solution, and then fixed with the possibility of cutting through all areas of the cement from the cervical to the apical, after which, using a diamond disc with a diameter of 20 mm, a vertical separation of the tooth is carried out, obtaining a longitudinal section, cooled with distilled water, the resulting tooth fragment is placed in a cartridge placed on a horizontal surface, cut down and filled with two-component epoxy resin, after 24 hours the resulting preparation is polished on an MP-1BGrinderPolisher machine. , with cooling with distilled water, “Dexter” grinding wheels - with a grit of 1000 grit for 2 minutes, grinding off 0.5 mm of the preparation, then the preparation is ground with “Dexter” grinding wheels with a grit of 1500, 2000 grit alternately for 1 minute each , while another 0.5 mm of the preparation is ground off, control of the removed layer of the surface of the preparation is carried out using a caliper, then the preparation is cleaned in an ultrasonic bath for 1 minute, then polished on an MP-1BGrinderPolisher machine using a flannel polishing wheel with W52500 grit diamond paste and for 2 minutes, cool with distilled water and clean in an ultrasonic bath for 2 minutes, after which the preparation is dried using a cellulose napkin until all traces of moisture disappear, the surface is etched with 37% phosphoric acid H ₃ PO ₄ for 20 seconds, and washed under running distilled water 15 seconds, completely dry.