Objective: The aim of the current study was to introduce and measure the effectiveness of a new 3D-printed nasoalveolar molding (D-NAM) appliance on improving the maxillary arch dimensions (MADs) in infants with unilateral complete cleft lip and palate (UCLP) before surgical lip repair. Design: A prospective, balanced, randomized, parallel groups, single-blinded, controlled trial. Setting: All the steps of the current study were carried in the Department of Orthodontics, Cairo University in Egypt. Participants: Thirty-four, nonsyndromic infants with UCLP. Interventions: The eligible infants were randomly assigned into either no-treatment (control) or to the new D-NAM groups. In D-NAM group, the maxillary models were 3D scanned into virtual models onto which segmentation and alveolar segments approximation were performed. Approximation movements were divided into 3 models representing 3 activation steps. On each of these models, virtual appliance construction was performed followed by 3D printing of the appliance. Nasal stent was added manually to the appliances of the second and third steps. Horizontal tapes were applied to infants in the D-NAM group only. Main Outcomes Measures: A Blinded assessors carried all the MADs measurements virtually on digital models collected at the beginning (T1) and after (T2) treatment. Results: Clinically and/or statistically significant improvements in all the measured MADs were recorded in D-NAM group at T2 before surgical lip repair in comparison to control group. Conclusions: The introduced D-NAM/3D-printed appliance is a simple and efficient technique to improve the MADs in infants with UCLP before surgical lip repair.
Objective: The aim of the current randomized controlled trial (RCT) was to assess the effectiveness of taping alone in changing the maxillary arch dimensions (MADs) in infants with unilateral complete cleft lip and palate (UCLP) before surgical lip repair. Design: A prospective, balanced, randomized, parallel-group, single-blinded, controlled trial. Setting: All the steps of the current study were carried in the Department of Orthodontics, Cairo University in Egypt. Participants: Thirty-one, nonsyndromic infants with UCLP. Interventions: The eligible infants were randomly assigned to either no-treatment (control) or taping groups. In the taping group, all the infants received horizontal tape between the 2 labial segments aiming to decrease the cleft gap. No other interventions were performed to infants included in this group. Rubber base impressions were made to all the included infants in both groups at the beginning of the treatment (T1) and directly before surgical lip repair (T2). All the produced models were scanned using a desktop scanner producing digital models for outcome assessment. Main Outcomes Measures: A blinded assessor carried out all the MAD measurements virtually on the produced digital models at the beginning (T1) and after (T2) treatment. Results: Clinically and/or statistically significant changes in all the measured MADs were recorded in the taping group at T2 before surgical lip repair in comparison to the control group. Conclusions: It seems that taping alone is an efficient tool in changing the MADs before surgical lip repair in infants with UCLP.
Background: The aim of this randomized controlled trial was to assess the effectiveness of taping alone in changing nose and lip aesthetics in infants with unilateral complete cleft lip and palate before and after surgical lip repair. Methods: The study design was a prospective, balanced, randomized, parallel-group, single-blinded, controlled trial. All the steps were carried out in the Department of Orthodontics of Cairo University in Egypt. Thirty-one infants with nonsyndromic unilateral complete cleft lip and palate were randomly assigned to either no treatment (control) or taping groups. In the taping group, all infants received horizontal tape between the two labial segments, aiming to decrease the cleft gap. No other interventions were performed in this group. Standardized photographs and videos were taken of the infants in both groups at the beginning of the treatment (T1), directly before surgical lip repair (T2), and 2 weeks after surgical lip repair (T3). Photographs and shots from videos were calibrated and used for outcome assessment. Blinded assessors carried out all the measurements digitally on the standardized photographs at T1, T2, and T3 using computer software. Results: Significant changes in all the measurements were recorded in the taping group at T2 before surgical lip repair in comparison with the control group. At T3, no differences were found between the two groups. Conclusions: Taping is a successful intervention in changing nose and lip aesthetics before surgical lip repair. After surgical lip repair, both groups had matching aesthetics. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, I.
Background: Accurate root position is integral for successful orthodontic treatment. Current methods of monitoring root position are either inaccurate, exhibit poor resolution, or use relatively large amount of radiation relative to the benefits for the patient. The purpose of this study was to present an approach that can monitor root position during orthodontic treatment with minimal radiation. Methodology: At "Timepoint 0" a Cone-Beam Computed Tomography (CBCT) was taken for the patient before the start of the treatment. At "Timepoint 1" a CBCT was taken as a Reference Standard along with a digital extra-oral scan. A Predicted Root Position (PRP) assembly was made and compared to the Reference Standard to detect discrepancies between both. Results: Mesiodistal tip analysis after indirect superimposition found displacement differences of 1.85± 1.09mm for the maxillary roots and 1.79 mm ± 1.16 mm for the mandibular roots. For buccolingual torque, displacement differences of 2.13± 1.52mm for the maxillary roots and 2.29 mm ± 1.59 mm for the mandibular roots. For root tip displacement, displacement differences of 1.57± 0.86mm for the maxillary roots and 1.44 mm ± 0.82 mm for the mandibular roots. Conclusions: This method was found to have the potential to accurately predict the root position during treatment in three dimensions.
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