1. When using the proposed method for orthodontic diagnosis, male and female patients should be compared to their respective dentofacial standards. 2. Validation of the proposed method and standards on an orthodontic population is underway to determine the scope its use.
Objective: To evaluate dental changes in cleft patients after undergoing orthodontic treatment for at least 2 years. Hypothesis: The dental change would decline significantly after 2 years of completing orthodontic treatment. Design: This is a retrospective study. Patient: Eighteen repaired cleft lip and palate patients from the Faculty of Dentistry, KhonKaen University, Thailand, participated in this study. Mean Outcome Measures: A dental model with before treatment (T0), completed treatment (T1), and retention period (T2) data was analyzed using the peer assessment rating (PAR) index. Result: The results showed that the PAR score improved enormously after treatment; from T0 to T1, it was 34.00 ± 10.01 to 4.67 ± 2.47, and there was a reversion in the retention period. There was statistical significance between T0, T1, and T2, with P values <.001, .005, and <.001 when comparing T0 with T1, T1 with T2, and T0 with T2, respectively. Conclusion: Occlusion in cleft lip and palate patients changed from the time of completing treatment to the final results after the retention period. To sustain satisfactory results, orthodontists should plan carefully for the retention period before performing the treatment.
Objectives: To determine the relationship between traditional cephalometric measurements and corresponding nonradiographic three-dimensional (3D) photogrammetry measurements. Materials and Methods: This was a cross-sectional study of 20 orthodontic patients (10 male and 10 female) who received lateral cephalometric radiographs and 3D dentofacial photogrammetric records with each subject serving as his or her own control for a total sample size of 40 images (20 per method). A 3D analysis that resembled a traditional cephalometric analysis was established using the eyes and natural head orientation as substitutes for the cranial base. Pearson correlation coefficients and multivariable linear regression plots were calculated to evaluate the relationship between the photogrammetry measurements and the cephalometric measurements. Results: The ANB angle, mandibular plane angle, lower anterior face height, upper incisor angle to SN, upper incisor angle to NA, and all measurements of lower incisor position and inclination had strong positive Pearson correlation coefficients with the corresponding 3D photogrammetry measurements (P , .004). Statistically significant regression plots demonstrated that cephalometric relationships between the jaws and incisor orientation can be predicted from corresponding 3D photogrammetry measurements. Conclusions: 3D photogrammetry measurements relating the jaws to each other and incisor orientation has a strong positive correlation with corresponding traditional cephalometric measurements and can serve as cephalometric predictors. Capturing the eyes using 3D photogrammetry can obviate the need to expose the cranial base and allow limiting the radiographic field to the area of interest.
Objectives: To determine the relationship between traditional cephalometric measurements and corresponding nonradiographic three-dimensional (3D) photogrammetry measurements. Materials and Methods: This was a cross-sectional study of 20 orthodontic patients (10 male and 10 female) who received lateral cephalometric radiographs and 3D dentofacial photogrammetric records with each subject serving as his or her own control for a total sample size of 40 images (20 per method). A 3D analysis that resembled a traditional cephalometric analysis was established using the eyes and natural head orientation as substitutes for the cranial base. Pearson correlation coefficients and multivariable linear regression plots were calculated to evaluate the relationship between the photogrammetry measurements and the cephalometric measurements. Results: The ANB angle, mandibular plane angle, lower anterior face height, upper incisor angle to SN, upper incisor angle to NA, and all measurements of lower incisor position and inclination had strong positive Pearson correlation coefficients with the corresponding 3D photogrammetry measurements (P < .004). Statistically significant regression plots demonstrated that cephalometric relationships between the jaws and incisor orientation can be predicted from corresponding 3D photogrammetry measurements. Conclusions: 3D photogrammetry measurements relating the jaws to each other and incisor orientation has a strong positive correlation with corresponding traditional cephalometric measurements and can serve as cephalometric predictors. Capturing the eyes using 3D photogrammetry can obviate the need to expose the cranial base and allow limiting the radiographic field to the area of interest.
Objective: This study aimed to observe and analyze the effects of nasoalveolar molding (NAM) on maxillary arch dimensions in patients with bilateral complete cleft lip and palate (BCLP) using 3-dimensional analyses. Design: Retrospective case series. Materials and Methods: Seventeen infants were treated using modified Khon Kaen University presurgical nasoalveolar molding devices (KKU-NAM). Dental casts were evaluated 3 dimensionally at 3 time points: pretreatment (T1), after using modified KKU-NAM for 2 weeks (T2), and before cheiloplasty (T3). Repeated-measures analysis of variance and Friedman test were used to compare the maxillary arch dimensions between time points. Results: Both sides of the cleft width, premaxilla deviation, and premaxilla protrusion had significantly reduced with the use of KKU-NAM. Premaxillary rotation had significantly improved, whereas the arch depth did not change significantly. Premaxilla width, posterior arch width, alveolar length, and height had significantly increased. The anterior arch width, intercanine width, and lateral sulcus width showed no significant changes. The intraclass correlation coefficient used to test the measurements indicated substantial reliability. Conclusion: The modified KKU-NAM is an effective device for reducing the severity of bilateral cleft deformities, especially in the premaxilla area.
Objectives: The objectives were to assess the treatment outcomes of unilateral cleft lip and palate after primary surgery on nasolabial soft tissue of children ages 4–5 years old as compared with unaffected children and to establish a nasolabial soft tissue norm within Khon Kaen. Study design: This cross-sectional study consisted of 60 unaffected subjects living in Khon Kaen province and 20 subjects with repaired complete unilateral cleft lip and palate who were treated at Srinagarind Hosipital, Khon Kaen, Thailand. 3D images were taken by a Morpheus 3D Scanner and measured by the Morpheus 3D program. Independent t-tests and paired t-tests were used to analyze the significant differences between subjects with cleft and unaffected subjects. Results: There were statistically significant differences (p<0.05) of nasolabial measurements between affected subjects and unaffected subjects. Unilateral measurements showed decreased nostril height, columella lengths, and nose protrusion from ala base and ala length in the affected group. In addition, bilateral measurements found decreased upper lip protrusion, philtrum length, upper lip height, upper vermillion thickness, and lip angle. Conclusion: This study attempted to establish a norm for evaluating the treatment outcome of cleft lip and cleft palate repair at Srinagarind Hospital in relation to unaffected or noncleft individuals. The results suggest that the noncleft side in affected patients is not an optimal surgical guide for cleft repair and the surgeon should correct both sides of lip and nose features according to the norms. A surgical treatment plan should emphasize correcting nostril height, columella length, nose protrusion from ala base, ala length, and upper lip features.
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