RU2565816C1 - Diagnostic technique for atrophy in toothless jaws - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: individual trays are prepared, and functional imprints in corrective silicone pastes are made according to common technique. The above imprints are used to cast diagnostic models in high-strength dental plaster. The next stage involves marking the model, i.e. drawing lines in the middle of an alveolar crest and in the middle of a neutral area, and then control measurement points are plotted. On the upper jar model, perpendicular lines are drawn from the points A1, B1, B2, K1, K2 until intersecting a mid-line of the neutral area to mark the reference points D, D1, D2, D3, D4 on the mid-line of the neutral area. Vertical dimensions of the upper jaw line are evaluated by measuring the distances B1-D3 and B2-D4 between the mid-points of maxillary prominences and the middle of the neutral area, the distances K1-D1, K2-D2 between the intersection points of the line drawn through outer borders of first lateral palatine folds to the mid-line of the alveolar crest and the middle of the neutral area, and the distance A1-D between the mid-point of an incisive papilla and the mid-line of the neutral area. On the lower jar model, perpendicular lines are drawn from the points V1, S1, S2, G1, G2 until intersecting a mid-line of the neutral area to mark the reference points E, E1, E2, E3, E4 on the mid-line of the neutral area. Vertical dimensions of the lower jar model are evaluated by measuring the distances S1-E3, S2-E4 between the mid-points of mucous prominences and the middle of the neutral area, the distances G1-E1, G2-E2 between the apex points of the alveolar crest at the mid-distance from a symphysis point to the middles of the mucous prominences and the middle of the neutral area, and the distance V1-E between the symphysis point and the mid-line of the neutral area, an atrophy in the jaw is diagnosed by the time changes of the reference point distances.

EFFECT: method enables measuring in three mutually perpendicular planes with the atrophy in the jaws detected by the time changes of the reference point distances; it increases the informational value of the examination.

1 tbl, 2 dwg, 1 ex

Description

The method relates to medicine, namely to orthopedic dentistry, provides an increase in the effectiveness of orthopedic treatment of patients with a complete absence of teeth and can be used to monitor the condition of the alveolar processes of the edentulous jaw in order to determine the degree of bone atrophy, to clarify the diagnosis, and select a treatment plan.

A known method for determining atrophy of the jaws (copyright certificate for the invention 1673104 A1).

With this method, complete removable laminar dentures on the upper and lower jaws are made according to the generally accepted technique. Using them, the silicone impression mass is used to remove functional impressions and cast models from high-strength gypsum. Then they start marking up the models. To do this, the leg of the compass with a needle is installed on the incisal papilla (upper jaw) or at a point on the top of the alveolar process lying on the line connecting the frenum of the tongue and lower lip (lower jaw), and points are applied with a pencil of compass to the tops of the alveolar processes, symmetrically from both parties, at regular intervals. Then measure the distance from the line corresponding to the edge of the prosthesis to the corresponding point of the apex of the alveolar process, determining their vertical height. Comparison of the obtained data over a time interval will determine the atrophy of the jaws by changing the difference in the indicators of control points.

The disadvantage of this method is the measurement in only one plane (vertical), while for greater reliability and information content of the obtained results, the spatial orientation of the toothless jaws in three mutually perpendicular planes is necessary. In addition, the vertical dimensions are tied to existing prostheses, which can be replaced repeatedly, which leads to measurement inaccuracies.

Closest to the proposed is a method for diagnosing atrophy of toothless jaws (patent No. 2459595), which includes obtaining functional impressions and making models of the upper and lower jaws, characterized in that on the model of the upper jaw measure the distance between the midpoints of the maxillary tubercles, the distance between the points of intersection of the line, drawn through the outer edges of the first transverse palatine folds to the line of the middle crest of the alveolar process, the distance between the middle of the incisal papilla and the point of intersection the line drawn from the incisal papilla to the line between the maxillary tubercles, the distance between the points of intersection of the line drawn through the outer edges of the first transverse palatine folds to the midline of the crest of the alveolar ridge and the midpoints of the maxillary tubercles, and on the model of the lower jaw measure the distance between points located on the top of the ridge of the alveolar process in the middle of the distance from the symphysis point to the middle of the mucous tubercles, the distance between the midpoints of the mucous tubercles, the distance between at the points located on the top of the ridge of the alveolar process in the middle of the distance from the symphysis point to the midpoints of the mucous tubercles and the midpoints of the mucous tubercles, the distance between the symphysis point and the intersection point of the line drawn from the symphysis point to the middle of the line connecting the mucous tubercles and diagnose jaw atrophy the change over time between the control points.

The disadvantage of this method is the measurement in only two planes (sagittal and transverse), while for greater reliability and information content of the obtained results, the spatial orientation of the toothless jaws in three mutually perpendicular planes is necessary: sagittal, transverse and vertical.

We first proposed the following method. Individual spoons are made and, according to the generally accepted method, functional impressions are made with corrective silicone masses. Diagnostic models from high-strength gypsum are cast on the obtained impressions.

The next step is to start marking the models on which lines are drawn in the middle of the ridge of the alveolar ridge and the middle of the neutral zone, and then proceed to the application of control points of measurement:

In FIG. 1 shows a model of the upper jaw, where:

A1 - the middle of the incisal papilla;

B1 and B2 - the middle of the maxillary tubercles on the right and left;

H1 and H2 - the outer edge of the first transverse palatal folds on the right and left;

K1 and K2 are the points of intersection of the line drawn through points H1 and H2 to the intersection with the line of the middle of the crest of the alveolar process on the right and left;

A2 - the point of intersection of the line drawn from point A1 to the middle of the line B1-B2.

Perpendicular lines are drawn from points A1, B1, B2, K1, K2 until they intersect with the line of the middle of the neutral zone, receiving control points D, D1, D2, D3, D4 located on the line of the middle of the neutral zone.

In FIG. 2 shows a model of the lower jaw, where:

B1 - symphysis point, located on top of the crest of the alveolar ridge between the frenum of the lower lip and tongue;

C1 and C2 - points of the middle of the mucous tubercle on the right and left;

G1 and G2 - points located on the top of the ridge of the alveolar process in the middle of the distance between points B1, C1 and C2;

B2 - the point of intersection of the line drawn from point B1 to the middle of the line C1-C2.

Perpendicular lines are drawn from points B1, C1, C2, G1, G2 until they intersect with the line of the middle of the neutral zone, receiving control points E, E1, E2, E3, E4 located on the line of the middle of the neutral zone.

The dimensions of the model of the upper jaw in the transversal plane are estimated by measuring the distance K1-K2 between the points of intersection of the line drawn through the outer edges of the first transverse palatine folds to the line of the middle crest of the alveolar ridge, and the distance B1-B2 between the midpoints of the maxillary tubercles

The dimensions of the lower jaw model in the transversal plane are estimated by measuring the distance G1-G2 between the points located on the top of the crest of the alveolar process in the middle of the distance from the symphysis point to the midpoints of the mucous tubercles, and the distance C1-C2 between the midpoints of the mucous tubercles.

The dimensions of the model of the upper jaw in the sagittal plane are estimated by measuring the distance K1-B1, K2-B2 between the points of intersection of the line drawn through the outer edges of the first transverse palatine folds to the midline of the crest of the alveolar process and the midpoints of the maxillary tubercles and the distance A1-A2 between the point the middle of the incisal papilla and the point of intersection of the line drawn from the middle of the incisal papilla to the middle of the line between the maxillary tubercles.

The sizes of the model of the lower jaw in the sagittal plane are estimated by measuring the distance G1-C1, G2-C2 between the points located on the top of the crest of the alveolar process in the middle of the distance from the symphysis point to the middle of the mucous tubercles and the midpoints of the mucous tubercles and the distance B1-B2 between the symphysis point and the point of intersection of the line drawn from the symphysis point to the middle of the line connecting the mucous tubercles.

The dimensions of the model of the upper jaw in the vertical plane are estimated by measuring the distance B1-D3, B2-D4 between the midpoints of the maxillary tubercles and the middle of the neutral zone, the distance K1-D1, K2-D2 between the points of intersection of the line drawn through the outer edges of the first transverse palatal folds to lines of the middle of the crest of the alveolar process, and the middle of the neutral zone and the distance A1-D between the midpoint of the incisal papilla and the midline of the neutral zone.

The dimensions of the model of the lower jaw in the vertical plane are estimated by measuring the distance C1-E3, C2-E4 between the points of the middle of the mucous tubercles and the middle of the neutral zone, the distance of G1-E1, G2-E2 between the points located on the top of the crest of the alveolar ridge in the middle of the distance from the symphysis point to the middle of the mucous tubercles and the middle of the neutral zone, and the distance B1-E between the symphysis point and the line of the middle of the neutral zone.

Example: Patient S. 73. Diagnosis: complete absence of teeth of the upper jaw type I according to Schroeder, complete absence of teeth of the lower jaw type II according to Keller.

Comparison of the measurement results allows us to conclude that the processes of atrophy are expressed both on the upper and lower jaws, therefore prostheses on the upper and lower jaw need to be relocated.

The proposed method allows measurement in three mutually perpendicular planes, determining the jaw atrophy by changing the distance between the control points over time, increases the information content of the study, more accurate, since the control points are attached to anatomical formations. The obtained data can be used to assess the dental status, and analyzing the results and studying the processes of bone atrophy of the alveolar processes, it is possible by targeted distribution of chewing pressure transmitted from the bases of complete removable laminar dentures, to prevent the atrophy of toothless jaws, to determine the optimal terms for using removable laminar dentures .

Claims (1)

A method for diagnosing atrophy of edentulous jaws comprising obtaining functional impressions and making models of the upper and lower jaws, measuring on the model of the upper jaw the distance between the midpoints of the maxillary tubercles, the distance between the points of intersection of the line drawn through the outer edges of the first transverse palatal folds to the midline of the crest of the alveolar process , the distance between the middle of the incisal papilla and the point of intersection of the line drawn from the incisal papilla to the line between the maxillary tubercles mi, the distance between the points of intersection of the line drawn through the outer edges of the first transverse palatal folds to the line of the middle crest of the alveolar process, and on the model of the lower jaw, the distance between the points located on the top of the crest of the alveolar process in the middle of the distance from the symphysis point to the middle of the mucous tubercles, the distance between the midpoints of the mucous tubercles, the distance between the points located on top of the crest of the alveolar process in the middle of the distance from the symphysis point to the midpoints mucous tubercles, and the midpoints of the mucous tubercles, the distance between the symphysis point and the point of intersection of the line drawn from the symphysis point to the middle of the line connecting the mucous tubercles, characterized in that they further determine the middle of the neutral zone, measure the distance between the control points on the model of the maxilla, located on the midline of the neutral zone, and points on the midline of the alveolar bone, the distance between the midpoints of the maxillary tubercles and the control points, located the distance between the control points located on the midline of the neutral zone and the points on the midline of the alveolar process, the distance between the control points located on the midline of the neutral zone and the midpoints of the mucous tubercles and diagnose jaw atrophy by changes that have occurred over time, the distance between the control points.

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