RU2709684C1 - Method for measuring an apical basis of jaws - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and is intended for use in measuring an apical basis of jaws in orthopedic, surgical dentistry and orthodontics. A computed tomography of the jaws is preliminarily performed, the tomography data are converted to the STL format, a digital model of the teeth of each jaw is created, the crowns of which are connected to the block on the oral surface, and roots are released from jaw bone tissue, followed by printing physical patterns of upper and lower jaw teeth on 3D printer, along which measuring the width of the apical basis of jaws on tops of roots of the first premolars, calculating the length of the apical basis of two halves of the jaws separately along the arc from the top of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar on the upper jaw and from the apex of the root of the medial incisor of the lower jaw to the distal root of the first permanent molar on the lower jaw.

EFFECT: method enables providing more accurate measurement of the apical base of the jaws, eliminating the stages of removing impressions from the jaws and casting cast models of jaws.

1 cl, 1 ex

Description

The invention relates to medicine, namely to dentistry, and can be used to measure the apical basis of the jaws in orthopedic, surgical dentistry and orthodontics.

A known method of measuring the apical basis by measuring its length and width, proposed by Howes (1957). Measurement of the width of the apical basis in the upper jaw is carried out on a plaster model above the apex of the roots of the first premolar in the Fossa canina area. The length of the apical base is a perpendicular drawn along the midline from the top of the palatine incisor papilla in the upper jaw and the contact point between the medial incisors in the lower jaw from the lingual side of the lower jaw to the line connecting the distal surfaces of the first permanent molars [1].

The disadvantages of this method are: measuring the length of the apical base perpendicularly drawn along the midline from the top of the palatine incisal papilla in the upper jaw and the contact point between the medial incisors in the lower jaw from the lingual side of the lower jaw to the line connecting the distal surfaces of the first permanent molars, insufficient accuracy of measurements, the presence of stages of imprinting and casting of gypsum models of the jaws, the lack of account for the asymmetry of the halves of the jaws, low visibility of measurements, vat variativnoj jaw bone thickness when determining the width of the alveolar basis.

Also known is a method of measuring the apical basis in the modification of N.G. Snagina, taking into account the dependence of the mesiodistal size of 12 permanent teeth from each jaw with the length and width of the apical base. Measurement of the width of the apical basis in the upper jaw is carried out on a plaster model above the apex of the roots of the first premolar in the Fossa canina area. The length of the apical base is a perpendicular drawn along the midline from the top of the palatine incisor papilla in the upper jaw and the contact point between the medial incisors in the lower jaw from the lingual side of the lower jaw to the line connecting the distal surfaces of the first permanent molars. Normally, the width of the apical base of the upper jaw is 44%, the lower - 40% of the sum of the mesiodistal sizes of the permanent teeth on each jaw. According to N.G. Snagina, in the close position of the teeth there is a mismatch between the sum of the mesiodist sizes of 12 teeth and the parameters of the apical basis.

I degree - the width of the apical basis of the upper jaw is 42–39% of the width of the 12 teeth (norm is 44%), the length is 37-35% (norm is 39%), and the lower is 41-38%, respectively (norm is 43%) ) and 38-36% (norm - 40%).

II degree - the width of the apical basis of the upper jaw is 39–32% of the width of the 12 teeth, the length is 37–26%, and the lower jaw is 38–34% and 36–31%, respectively. In this case, the removal of individual teeth is shown in order to reduce the size of the dentition [2].

The disadvantages of this method are: measuring the length of the apical base perpendicularly drawn along the midline from the top of the palatine incisal papilla in the upper jaw and the contact point between the medial incisors in the lower jaw from the lingual side of the lower jaw to the line connecting the distal surfaces of the first permanent molars, insufficient accuracy of measurements, the presence of stages of imprinting and casting of gypsum models of the jaws, the lack of account for the asymmetry of the halves of the jaws, low visibility of measurements, vat variativnoj jaw bone thickness when determining the width of the alveolar basis.

This method is taken as a prototype.

The aim of the invention is to measure the length of the apical basis in an arc, increase the accuracy of measuring the apical basis of the jaw, the absence of stages of imprinting from the jaw and cast gypsum models of the jaw, taking into account the asymmetry of the halves of the jaw, increasing the visibility of measurements, measuring the width of the apical basis without capturing the bone tissue of the jaw.

This goal is achieved by pre-conducting computed tomography of the jaw, the tomography data is converted to STL format, a digital model of the teeth of each jaw is created, the crowns of which are connected to the block on the oral surface, and the roots are freed from the bone tissue of the jaws, followed by printing of physical models of the upper teeth and the lower jaw on a 3D printer, which measure the width of the apical basis of the jaw at the tops of the roots of the first premolar, calculate the length of the apical basis of the two halves of the jaws separately in an arc from the apex of the root of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar in the upper jaw and from the top of the root of the medial incisor of the lower jaw to the distal root of the first permanent molar in the lower jaw.

The proposed method is applied as follows. Computed tomography of the jaws is preliminarily performed, tomography data is converted to STL format, the digital boundaries of the roots of the teeth are determined from the obtained digital models of the jaws, the digital structure corresponding to the bone tissue of the jaws is removed, the connecting block is modeled on the oral surface of the teeth, and a digital model of the teeth of each jaw is obtained separately liberated roots, followed by printing physical models of the teeth of the upper and lower jaws on a 3D printer. According to physical models, the width of the apical basis of the jaw is measured from the tops of the roots of the first premolars. The length of the apical basis of the two halves of the jaw is calculated separately along the arc from the apex of the root of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar in the upper jaw and from the top of the root of the medial incisor of the lower jaw to the distal root of the first permanent molar in the lower jaw. The sum of the mesiodist sizes of the twelve teeth on each jaw between the contact points is determined. According to the data obtained, a conclusion is drawn about the degree of narrowing of the dentition and the need for tooth extraction during orthodontic treatment, taking into account the number and side of the teeth removed.

A group of 26 patients was measured apical basis of the jaw. Computed tomography of the jaws was preliminarily performed, the tomography data was converted to the STL format, the digital boundaries of the tooth roots were determined, the digital structure corresponding to the bone tissue of the jaws was removed, the connecting block was modeled on the oral surface of the teeth, digital models of the teeth of each jaw were separately obtained with the roots removed, followed by printing physical models of teeth of the upper and lower jaws on a 3D printer. Physical models were used to measure the width of the apical base of the jaw from the tops of the roots of the first premolars. The length of the apical basis of two halves of the jaw was calculated along an arc from the apex of the root of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar in the upper jaw and from the apex of the root of the medial incisor of the lower jaw to the distal root of the first permanent molar in the lower jaw. The sum of the mesiodistal sizes of twelve teeth on each jaw between the contact points was determined. According to the data obtained, a conclusion was drawn about the degree of narrowing of the dentition and the need for tooth extraction during orthodontic treatment, taking into account the number and side of the teeth removed.

Clinical case. Patient C, 17 years old, sought orthodontic care for crowding of the front teeth of the upper jaw. A clinical examination revealed crowding of the teeth of the upper jaw and mismatch of the center line of the face and the center line of the upper jaw by 2 mm with a shift to the left. The center line of the lower jaw coincides with the center line of the face. Computed tomography of the jaws was preliminarily performed, the tomography data was converted to the STL format, the digital boundaries of the tooth roots were determined, the digital structure corresponding to the bone tissue of the jaws was removed, the connecting block was modeled on the oral surface of the teeth, digital models of the teeth of each jaw were separately obtained with the roots removed, followed by printing physical models of teeth of the upper and lower jaws on a 3D printer. Physical models were used to measure the width of the apical base of the jaw from the tops of the roots of the first premolars. The length of the apical basis of two halves of the jaw was calculated along an arc from the apex of the root of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar in the upper jaw and from the apex of the root of the medial incisor of the lower jaw to the distal root of the first permanent molar in the lower jaw. The sum of the mesiodistal sizes of twelve teeth on each jaw between the contact points was determined. Measurement of the length and width of the apical base and mesiodistal dimensions of twelve permanent teeth on the upper and lower jaws made it possible to establish a shortage of crowded teeth in the right half of the upper jaw by 9 mm, in the left half of the upper jaw there was no shortage of space, and no shortage of space was found in the lower jaw. The treatment was performed by removing the first premolar on the upper jaw on the right side and shifting the center line of the upper jaw 2 mm to the right to combine the center line of the upper jaw with the center line of the face and lower jaw using a bracket system. The treatment result is satisfactory. The retention period is 2 years. No relapse.

The positive effect of using the proposed method is expressed in measuring the length of the apical base along the arc, increasing the accuracy of measuring the apical basis of the jaws, the absence of steps for imprinting the jaws and casting gypsum models of the jaws, taking into account the asymmetry of the halves of the jaws, increasing the visibility of measurements, measuring the width of the apical basis jaw tissue.

The proposed method for measuring the apical basis of the jaw can be used in orthopedic, surgical dentistry and orthodontics in outpatient dental institutions.

SOURCES OF INFORMATION

1. Abolmasov N.G., Abolmasov N.N. Orthodontics. MEDpress-Inform, 2008, 424 pp.

2. Samples Yu.L., Larionov S.N. Propaedeutic orthodontics: a training manual. SpetsLit, 2007, 160 p.

Claims (1)

A method for measuring the apical basis of the jaws, including determining the length, width of the apical basis and the sum of the mesiodistal dimensions of the twelve teeth, is different in that they perform preliminary computed tomography of the jaws, the tomography data is converted to STL format, a digital model of the teeth of each jaw is created, the crowns of which are connected in a block oral surface, and the roots are freed from the bone tissue of the jaws, followed by printing physical models of the teeth of the upper and lower jaws on a 3D printer, which are used to measure the width of the apical basis of the jaw at the apex of the roots of the first premolar, calculate the length of the apical basis of two halves of the jaw separately in an arc from the apex of the root of the medial incisor of the upper jaw to the distal-buccal root of the first permanent molar in the upper jaw and from the top of the root of the medial incisor of the lower jaw to the distal root first permanent molar in the lower jaw.