RELATIONSHIP BETWEEN PARAMETERS OF THE DENTAL APPARATUS AND RESPIRATORY ORGANS IN ORTHODONTIC TREATMENT

The dental apparatus and the respiratory organs of the skull are closely related. Respiratory tract defects lead to mouth breathing and abnormalities in the development of the dental apparatus. Elimination of dental anomalies does not guarantee against recurrence of dental diseases and encourages the improvement of methods of comprehensive examination and diagnosis. There are many methods for determining the transverse parameters of the facial skull: by diagnostic models or by frontal teleradiography. These methods do not always reflect the true position of the facial skull. We have proposed a method of measuring the transverse dimensions of the upper jaw and upper respiratory tract using computed tomography, which through the use of appropriate mathematical modeling can improve the diagnosis of respiratory organs and dental apparatus during orthodontic treatment. In the clinic of the dental medical center of the National Medical University. O.O. Bogomolets underwent orthodontic treatment of children with the first form of gnatal mesial occlusion according to Betelman. Treatment of mesial occlusion was performed using a fixed device for transverse dilation of the upper jaw. From the patients treated, we selected a group of 17 boys and 20 girls. Children aged 7 to 12 years had the first molars, clinically established 3rd or 2nd grade molar defects, congestion of more than 3 millimeters and nasal breathing problems. Before and after treatment with computed tomography, three distances of the upper jaw were measured: between the medial-palatine mounds of the first permanent molars, between the bones of the alveolar arch at the level of the resistance center of the first permanent molar, and between the cortical plates of the basal arch at the resistance center of the first permanent molars. In addition, three distances of the upper respiratory tract were measured: between the lateral points of the nasal walls at the level of the large palatal canals, between the lateral points of the nasal walls at the level of the large palatal canals and between the rudiments of the canines at the level of the pear-shaped opening. The results of changes in these parameters of the facial skeleton were subjected to statistical processing to determine the maximum and minimum values, mean, confidence interval. Testing the hypothesis of the normal distribution of sample data by the Shapiro-Wilk test showed that the frequency distribution of measurement data in the samples is close to normal. The closeness of the relationship between the parameters of the facial skeleton was assessed by the correlation coefficient and the adequacy of these coefficients - by Student’s criterion. As a result, there was no statistically significant dependence of the change in the distance between the medial palatine mounds of the first permanent molars on changes in the distances between the bones of the alveolar arch at the resistance center of the first permanent molar, between the cortical plates of the basal arch at the level of the center of resistance of the first permanent molars and the lateral points of the nasal walls at the level of the large palatal canals. It is shown that the change in the distance between the lateral points of the nasal walls at the level of the large palatal canals is statistically weakly related to the change in the distance between the medial palatal mounds of the first permanent molars and is not related to other parameters considered. Linear regression equations were constructed between the parameters of the change in the transverse dimensions of the facial skeleton. Verification of these models by Fisher's parameter showed their adequacy in general. Additional verification of the adequacy of the constant coefficients included in these models, according to Student's test, showed that the free member in the model changes the distance of the upper respiratory tract between the lateral points of the nasal walls at the level of the large palatal canals from the change in the distance between the cortical plates of the basal arch at the level of the center of resistance of the first permanent molars is not statistically significant. The rejection of the free term in this regression dependence led to an increase in the Fisher and Student criteria, which indicates an increase in the adequacy of this equation. The obtained regression equations allow predicting the change of some transverse dimensions of the facial skeleton depending on the change of others in the treatment of mesial occlusion and thus can improve the diagnosis of patients.

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Evaluation of morphological relations between lower craniofacial skeletal structures and dimensions of upper respiratory tract in skeletal Classes I and III

Journal of Stomatology ◽

10.5604/00114553.1230585 ◽

2016 ◽

Vol 69 (6) ◽

pp. 647-658

Author(s):

Karolina Stelmańska ◽

Zbigniew Paluch ◽

Marta Twardokęs ◽

Katarzyna Ura-Sabat ◽

Hanna Frelich ◽

...

Keyword(s):

Cervical Spine ◽

Respiratory Tract ◽

Orthodontic Treatment ◽

Upper Respiratory Tract ◽

Facial Skeleton ◽

Upper Airways ◽

Skeletal Class ◽

The Face ◽

Upper Respiratory ◽

Cephalometric Measurements

Introduction. Review of the literature indicates the relationship between upper airways patency and lower jaw morphology. Aim of the study. To design multidimensional models to describe morphological relations of the linear and angular dimensions of hard tissues of the lower facial skeleton and the cervical spine (independent variables) with the linear dimensions of the upper respiratory tract (dependent variables). The obtained models took into consideration the age, gender and the skeletal Class I and III of the evaluated individuals. Material and method. The patients represented two skeletal classes: I (n = 97; 42.4%) and III (n = 53; 23.1%). Prior to orthodontic treatment, lateral cephalometric radiography (LCR) was performed in all patients. The obtained cephalometric measurements were evaluated statistically. Results. The statistical analysis pointed to significant differences between variables of the URT and dimensions of the facial skeleton and the cervical spine. It also revealed significant differences between variables of the URT and dimensions of the facial skeleton and the cervical spine. The independent variable Co-Gn emerged as an important predictor in regression of the nasopharynx. The anteroinferior height of the face and mandibular inclination were the factors relevant for oropharynx. Variables of the cervical spine were significant predictors in laryngopharyngeal models. Conclusions. The results illustrating morphological interrelations between the lower face and dimensions of the URT air space may prove helpful in planning orthodontic treatment, with or without teeth extraction, as well as orthognathic surgeries.

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Effects of the upper respiratory tract cross-section on the vertical and sagittal dimension and the facial axis according to Ricketts

Forum Ortodontyczne ◽

10.5604/01.3001.0012.7215 ◽

2018 ◽

Vol 14 (3) ◽

pp. 178-191

Author(s):

Anna Duda ◽

Wojciech Stós ◽

Magdalena Wiosna

Keyword(s):

Respiratory Tract ◽

Subjective Evaluation ◽

Threshold Value ◽

Control Group ◽

Upper Respiratory Tract ◽

Facial Skeleton ◽

Basic Parameters ◽

Upper Respiratory ◽

And Control ◽

Anterior Angle

This study assesses the effects of the upper respiratory tract width at the level of the adenoid in patients with a normal and abnormal breathing route on basic parameters of the morphology of the facial skeleton. Aim. Comparison of skeletal parameters determining vertical (SNL/ML, NL/ML, NL/ML), sagittal (SNA, SNB) dimensions and type of facial rotation (the angle of the facial axis according to Ricketts) in the study and control groups and determination of the threshold value (a cut-off point) of width according to Holmberg, at which there is a deviation from the average values of basic parameters of morphology of the facial skeleton. Material and methods. The study included 221 patients treated at an orthodontic clinic in Kielce. Based on the medical history taken, clinical examination and subjective evaluation of the upper respiratory tract width according to Holmberg 112 patients were enrolled into the study group and 109 patients into the control group. The width of the upper respiratory tract was measured using the modified Holmberg method and parameters assessing the vertical (SNL/ML, NL/ML) and sagittal (SNA, SNB) dimensions, as well as the anterior angle of the Ricketts’ axis were measured using the analysis of lateral teleroentgenograms of the head. Results. All compared skeletal parameters indicated significant statistical differences between the study and control group. These differences were: Ricketts’ angle 6.5°, SNL/ML 8.5°, NL/ML 9.7°, SNA 2.4°, SNB 1.4°. Conclusions. The width of the upper respiratory tract at the level of the adenoid significantly affects values of skeletal parameters evaluating the vertical (SNL/ML, NL/ML) and sagittal (SNA, SNB) dimensions and the type of rotation of the facial axis. There is a correlation between a gradual decrease in the airway dimension according to Holmberg and an increase in the vertical dimension (SNL/ML, NL/ML) and anterior angle of the Ricketts’ facial axis (posterior rotation of the mandible) and a decrease in the sagittal dimension (SNA, SNB).

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Assessment of the upper respiratory tract in patients eligible for treatment with transverse maxillary expansion

Forum Ortodontyczne ◽

10.5604/01.3001.0012.2029 ◽

2018 ◽

Vol 14 (2) ◽

pp. 5-13

Author(s):

Ewelina Dargiewicz ◽

Izabela J. Szarmach ◽

Magdalena Sawczuk

Keyword(s):

Respiratory Tract ◽

Control Group ◽

Study Group ◽

Upper Respiratory Tract ◽

Maxillary Expansion ◽

Facial Skeleton ◽

Upper Airways ◽

Actual Length ◽

Maxillary Hypoplasia ◽

Upper Respiratory

Transverse maxillary hypoplasia may negatively affect respiration. Maxillary narrowing has to be treated early. An appliance for Rapid Maxillary Expansion (RME) is the most common method, and it aims to expand the skeletal base and maintain this width until a new bone has been formed to fill in the fissure. Aim. Comparison of the results of measurements of bone structures and of the upper airways on lateral teleroentgenograms of the head in patients with transverse maxillary hypoplasia and in patients with normal dimensions of the maxilla. Material and methods. The study was carried out in a group of 20 people with maxillary narrowing (10 girls and 10 boys) aged 7 to 10 years. The control group consisted of 20 lateral teleroentgenograms of patients (9 girls and 11 boys) of similar age treated for other malocclusions. The structures of the facial skeleton and the upper respiratory tract were assessed in teleroentgenograms after earlier determination of measurement points and planes according to selected parameters of the McNamara and Preston et al. methodology. The obtained results were analysed statistically using the Mann-Whitney's test. Results. Angular measurements showed statistically significantly smaller SNA and SNB angles in the study group compared to the control group. The analysis of linear measurements indicated a statistically significant larger dimension of the actual length of the midfacial segment (Co-A) and distance between the Sella point and the posterior nasal spine (PNS-S), and a smaller dimension of the posterior facial height (PFH) in the study group compared to the control group. The highest differences in upper respiratory tract measurements were noted in the Ba-ho-PNS angle, which was lower in the study group. The result was not statistically significant. Conclusions. No significant differences in cephalometric measurements of the upper airways were observed. There is a need to extend studies to include groups of patients with features of night apnoea and maxillary narrowing. (Dargiewicz E, Szarmach IJ, Sawczuk M. Assessment of the upper respiratory tract in patients eligible for treatment with transverse maxillary expansion. Orthod Forum 2018; 14: 97-105)

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