RU2400133C1 - Method of light-guide probe positioning in doppler floumetry in dentistry - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine and aims at the assessment of parodentium and pulp blood microcirculation by Laser Doppler flowmetry. A partial or complete dental impression of vestibular and oral sides of the jaws is flied. After an alginate is cured inside the impression, interdental spaces and angular clearances are cut out. An internal surface of the finished impression is inspected to detect zones whereon the examined gum or crown regions are projected. Through holes are formed in these zones in the impressions in a direction perpendicular to the examined gum or crown region. A light-guide probe is fixed in these holes; it enables maintained precise light-guide bridge positioning during one examination session.

EFFECT: method ensures an exact reproduction of a place and conditions of primary light-guide probe positioning and improves the reliability of the obtained data.

Description

The invention relates to medicine and can be used in dentistry to assess the microcirculation of blood in the periodontium and pulp of the tooth using laser Doppler flowmetry.

The essence of evaluating the microcirculation of blood in the periodontium and pulp of a tooth by laser Doppler flowmetry is that they determine the level of tissue blood flow by the value of microcirculation using a certain wavelength of coherent laser radiation passing through the tissues under study. The laser beam is directed to the test surface through a light guide probe, which is brought into contact with the test surface. Reflecting from red blood cells moving in the tissue under investigation, the laser radiation undergoes a frequency change in direct proportion to their speed. Radiation reflected from red blood cells enters through a light guide probe into the device of a laser analyzer of capillary blood flow, for example LAKK-02 - a computerized laser analyzer of capillary blood flow LAKK-02 (LLC Scientific-Production Enterprise "LAZMA", Russia, registration certificate of the Ministry of Health of the Russian Federation No. 29/03020703/5555 -03 from 09/11/2003) An analog signal is generated at the output of the device, which is proportional to the value of blood perfusion in the microvasculature of the tissue under study. Subsequently, the analog signal is processed by a computer program for recording parameters of blood microcirculation. Moreover, in order to obtain reliable information, it is necessary to strictly observe the conditions for standardizing measurements during the study, the most important of which include a fixed anatomical position of the sensor and minimizing the pressure of the sensor on the surface layer of tissues at the measurement site.

A known method for positioning a light guide probe using laser Doppler flowmetry in dentistry is described in a method for diagnosing vitality of a tooth pulp, in accordance with which an assessment of blood microcirculation in a tooth pulp is performed using laser Doppler flowmetry. A method for positioning a light guide probe is to install the probe perpendicular to the surface being examined without any pronounced pressure on it, while the position of the probe on the surface being studied is fixed by hand (RF Patent No. 2355292, АВВ 5/00, 05/20/2009).

Closest to the proposed is a method for positioning a light guide probe using laser Doppler flowmetry in dentistry, described in a method for evaluating blood microcirculation in periodontal and pulp of a tooth using laser Doppler flowmetry, in accordance with which a light guide probe is installed on the studied surface of the gum or crown of the tooth, providing contact the distal part of the probe with the test surface by holding the probe by hand ("Functional Diagnostics in Dentistry". Theo research and practice, edited by N.K. Loginova, © FSI TsNIIS Roszdrava, 2007, p. 34).

The main disadvantage of the known methods for positioning a light guide probe using laser Doppler flowmetry in dentistry is the inability to accurately repeat the primary positioning of the light guide probe. In addition, since the optical fiber probe is fixed in the tissue area under investigation for taking reliable information for 2 minutes, it is impossible to provide the same contact force with the studied surface for 2 minutes using the operator’s hand, and without pronounced pressure on it, it is impossible. The identity of the positioning conditions of the light guide probe is especially relevant when obtaining a complete microcirculation characteristic in periodontal tissues, when indicators are recorded in the frontal section of the alveolar section of both jaws, as well as in the area of chewing teeth. In each of these areas, microcirculation is assessed in 3 gum zones: marginal gum, attached gum and transitional fold. In this case, the registration of the response signal in each section is carried out for at least 2 minutes. In areas difficult to study (for example, periodontium in the field of chewing teeth), a series of measurements is carried out, in particular, 30 measurements per 2 minutes (“Functional diagnostics in dentistry.” Theory and practice, edited by N.K. Loginova, © FGU “ TSNIIS Roszdrav ", 2007, p. 34). The fixation of the light guide probe by hand does not ensure the preservation of the positioning conditions of the probe (pressure force, uniformity of pressure) during the study session of this tissue zone, which reduces the reliability of the information received and at the same time limits the duration of the studies due to operator fatigue. In addition, with the repeated control of microcirculation, the inability to accurately repeat both the initial positioning position of the fiber guide and the positioning conditions (clamp force, uniformity of the clip) due to the fixation of the fiber guide by the operator’s hand also reduces the reliability of the information received.

Thus, the analogue and the closest to the proposed method for positioning the light guide probe using laser Doppler flowmetry in dentistry during implementation of a patent search do not provide the achievement of a technical result consisting in the possibility of maintaining accurate positioning of the light guide bridge during one study session and in the possibility of accurate repetition of the place and conditions of the primary positioning of the light guide probe, and therefore, in increasing the merit the accuracy of the information received, as well as the possibility of increasing the length of time and volume of the study.

The present invention solves the problem of creating a method for positioning a light guide probe using laser Doppler flowmetry in dentistry, the implementation of which allows to achieve a technical result consisting in the ability to maintain accurate positioning of the light guide bridge during one study session and in the ability to accurately repeat the place and conditions of the primary positioning of the light guide probe, and therefore, in increasing the reliability of the information received, as well as in the possibility of and increasing the length of time and scope of the study.

The essence of the claimed method for positioning a light guide probe using laser Doppler flowmetry in dentistry is that, in accordance with the method, a light guide probe is mounted on the gum surface of the tooth or crown of the tooth, providing the contact between the distal part of the probe and the test surface, while new is that by means of a dental impression material, silicone or polyester, a partial or complete impression of the dentition is removed from the patient, respectively of the gum or tooth crown adjacent to the studied area, and the adjacent mucous membrane of the alveolar ridge from the vestibular and oral sides of the jaw, after the impression has solidified, interdental spaces and undercut zones are cut out inside the impression, after which the zones on which the studied areas are projected are determined on the inner surface of the impression. gums or crowns of teeth, then through these holes in these areas, through holes are made in the direction perpendicular to the studied area of the gums or crown of the tooth, the through hole is made from the inside out, then a recess is formed around the hole on the inner surface of the same wall of the impression, the finished print is applied to the dentition, after which a fixing ring is put on the light guide probe and a light guide probe is installed on the surface to be examined, moving the probe through the fixing ring and through the hole in the print is in contact with the test surface, after which the ring is pressed tightly against the outer wall of the print, while the transverse size of the fixing ring tsa and the through hole is selected such that the probe enters into them by force.

The technical result is achieved as follows. The features of the claims: "... a light guide probe is installed on the studied surface of the gum or crown of the tooth, providing contact between the distal part of the probe and the test surface, ..." are the main ones for positioning the light guide probe when evaluating blood microcirculation in the periodontium and tooth pulp by laser Doppler flowmetry, and therefore, ensure the achievement of the claimed technical result.

Due to the fact that in the claimed method, a light guide probe is installed on the test surface in the through hole in the impression, which is an anatomical impression of the patient from the dentition and the adjacent mucous membrane of the alveolar process from the vestibular and oral sides of the jaw, and the through hole in the impression is located in the zone projection of the studied surface of the gum or crown of the tooth, this provides the ability to accurately position the probe on the studied surface. Moreover, since the print has a thickness, after installation in the print, the probe covers the side walls of the channel formed in the print after the through hole is made, and since the transverse size of the through hole is chosen so that the probe enters the hole with force, the probe’s mobility is eliminated both in the transverse and in the longitudinal directions, which ensures accurate and reliable positioning of the probe in the studied area. The introduction of the fixing ring, which is worn on the probe, as well as the fact that the probe is installed in the through hole, advancing the probe through the fixing ring and the through hole in the print until it touches the surface to be examined, after which the ring is pressed firmly against the outer wall of the print, is ensured by repeated the positioning of the probe in the same studied area the identity of the conditions of contact of the distal part of the probe with the investigated surface. Together, the foregoing allows you to reliably accurately position the probe, not only when examining a specific area of the tissue, but also if necessary to perform repeated studies, which increases the reliability of the information received from the probe. Since the transverse size of the retaining ring and the through hole is chosen so that the probe enters them with effort, there is no need to fix the probe by hand, which allows to increase the study time and the volume of the study using several optical fiber probes at the same time (LAKK-02 device allows simultaneous assessment of microcirculation simultaneously in three zones).

Since a partial or complete impression is removed from the patient’s dentition corresponding to the studied area of the gum or crown of the tooth and the adjacent mucous membrane of the alveolar ridge from the vestibular and oral sides of the jaw, it is possible to use the same print to evaluate the microcirculation of periodontal tissues from both the vestibular and oral sides, as well as, if necessary, perform studies of the microcirculation of the pulp of all the teeth included in the impression, which allows for one It is important for the patient to increase the number of examined areas of both the periodontal tissues and the pulp of the teeth, and therefore, increase the time and volume of the study. In addition, this increases the reliability of the information received, since in this case the basic conditions of the research: the patient’s health during the study, blood pressure, ambient temperature, are the same for each result obtained.

The implementation of through holes in the direction perpendicular to the studied area of the gum or crown of the tooth, ensures parallelism of the radiating surface of the distal end of the light guide probe relative to the studied surface. In this case, uniform irradiation of the test surface is ensured, while the contact surface of the probe captures the maximum area of the test surface. This ensures the accuracy of the information received. In this case, the implementation of the through hole from the inside out increases the accuracy of the spatial position of the positioning holes on the print, as this allows visual control of the place of their execution. In turn, this increases the accuracy of the positioning of the probe, and hence the reliability of the information received.

Due to the fact that after solidification of the impression mass, the interdental spaces and undercut zones are cut out inside the impression, the possibility of squeezing the impression material of the alveolar process is excluded, which does not violate the natural blood flow in the olveolar process and does not introduce distortions into the obtained research results. Since a recess is formed on the inner surface of the wall of the print around the hole, this eliminates the possibility of squeezing the print of the material directly on the surface being examined, which also does not violate the natural blood flow in the surface being studied. The result is the reliability of the information received.

The use of silicone or polyester dental impression material allows, thanks to their plasticity and quick setting, to accurately and quickly obtain the required impression, which, in the future, increases the reliability of the information received.

The claimed method of positioning a light guide probe in an individual impression of the patient from the dentition and the adjacent mucous membrane provides the possibility of reuse of the impression during the study, while ensuring the ability to maintain accurate positioning of the light guide bridge during one study session, the ability to accurately repeat the primary positioning of the probe, the possibility of research new areas of the gum or crown of the tooth using additionally made through holes in any place of interest to researchers. At the same time, it is possible to increase the time and volume of the study with reliable information. In addition, the claimed method for positioning a light guide probe using laser Doppler flowmetry in dentistry takes into account the individual anatomical features of the mucous membrane of the alveolar bone and teeth of the patient under study. This is ensured by the fact that the positioning of the light guide probe is carried out in an imprint, partial or complete, taken from the patient’s dentition corresponding to the studied area of the gum or crown of the tooth, and the adjacent mucous membrane of the alveolar ridge from the vestibular and oral sides of the jaw. As a result, the physiological nature of the claimed method is provided and increased, and therefore, the reliability of the information obtained increases.

Thus, from the foregoing, it follows that the claimed method for positioning a light guide probe using laser Doppler flowmetry in dentistry during implementation ensures the achievement of a technical result, which consists in the possibility of maintaining accurate positioning of the light guide bridge during one study session and in the possibility of accurately repeating the place and conditions of the primary positioning of the light guide probe, and therefore, in increasing the reliability of the information received, as well as the possibility of increasing the length of time and volume of the study.

The claimed method for positioning a light guide probe using laser Doppler flowmetry in dentistry is as follows. A light guide probe is installed on the test surface of the gum or tooth crown, providing contact between the distal part of the probe and the test surface. Previously, using a dental impression material, silicone or polyester, a partial or complete impression is taken from the patient’s dentition corresponding to the studied area of the gum or crown of the tooth and the adjacent mucous membrane of the alveolar ridge from the vestibular and oral sides of the jaw. After the solidification of the impression mass, the interdental spaces and areas of undercut are cut out inside the impression. After that, on the inner surface of the print determine the zones on which the studied areas of the gums or crowns of the teeth are projected. In these areas, through holes are made in the impression wall in a direction perpendicular to the area of the gum or crown of the tooth being studied, and the through hole is made from the inside out. On the inner surface of the same wall of the print around the hole obtained form a recess. The finished impression is applied to the dentition. A fixing ring is put on the light guide probe and a light guide probe is mounted on the test surface, advancing the probe through the locking ring and the through hole in the print until it touches the test surface. After which the ring is pressed tightly against the outer wall of the print. In this case, the transverse dimension of the retaining ring and the through hole are selected so that the probe enters them with force.

To implement the claimed method, the patient is removed a partial or complete impression of the dentition and adjacent mucous membranes with an impression spoon (standard metal perforated, non-perforated, standard plastic, individual) and dental silicone (K-silicone or A-silicone) or polyester material. When using silicone masses, it is preferable to take a two-layer impression, preferably a one-stage impression. This increases the accuracy of tissue imaging and reduces compression on the mucosa. Single-stage and single-layer prints are also applicable. When fitting the impression tray with the material, it must be shifted to the area of the investigated area so that a thicker layer of material forms there, for better fixation of the probe. After the material has hardened and the spoon is removed from the oral cavity, it is necessary to separate the material from the spoon. An opening is made in the impression material perpendicularly to the examined area, interdental spaces and undercut zones are cut out for an unimpeded application of the impression on the dentition. The hole is performed by a mill. Then, with the help of a cutter, a recess is formed around the hole obtained from the inner wall of the print, as experience has shown, with a radius of 1-1.5 mm and a depth of 1-1.5 mm in order to exclude the pressure of the print and the probe on the studied area. The finished impression is applied to the dentition. For research, we used the LAKK-02 computerized laser analyzer of capillary blood flow (LAZMA Research and Production Enterprise LLC, Russia, registration certificate of the Ministry of Health of the Russian Federation No. 29/03020703 / 5555-03 of September 11, 2003).

A fixing rubber ring is put on the probe to visualize the immersion depth of the probe in the impression material. The probe is inserted into the hole and advanced until it contacts, for example, the mucous membrane, focusing on the patient’s sensations. The retaining ring is pressed firmly against the impression mass.

Claims (1)

A method for positioning a light guide probe using laser Doppler flowmetry in dentistry, in accordance with which a light guide probe is mounted on the gum surface of the tooth or crown of the tooth, providing the contact of the distal part of the probe with the test surface, characterized in that it is preliminarily by means of a dental impression material, silicone or polyester, a partial or complete impression is removed from the patient’s dentition corresponding to the examined area of the gum or crown of the tooth, the mucous membrane of the alveolar ridge adjacent to it from the vestibular and oral sides of the jaw, after solidification of the impression mass, cut out interdental spaces and areas of undercut inside the impression, after which the zones on which the studied gum or crown areas are projected are determined, then in these areas through holes are made in the imprint wall in a direction perpendicular to the studied area of the gum or crown of the tooth, and the through hole is made from the inside out, then into a groove is formed around the inner surface of the same imprint wall around the hole obtained, the finished imprint is placed on the dentition, after which a fixing ring is put on the light guide probe and a light guide probe is installed on the surface to be examined, moving the probe through the fixing ring and the through hole in the print until it touches the surface to be examined after which the ring is pressed tightly against the outer wall of the print, while the transverse dimension of the retaining ring and the through hole are chosen so that the probe enters yl therein with force.