Cleft Lip and Palate Clinical Trial
Official title:
Three Dimensional Analysis of Maxillofacial Growth in Patients With Cleft Lip and Palate
Cleft lip and palate is the most common facial birth defect affecting one in 700 babies, and frequently leads to problems in feeding, breathing, speech and/or hearing, and aesthetic problems often leading to social and psychological problems. Poor growth of the upper jaw affects nearly all patients with the condition, and can result in substantial misalignment of the teeth requiring corrective surgery and associated dental treatment in early adulthood. Surprisingly there is little evidence to support the current practice of delaying surgery until early adulthood. It is apparently left until then because it is assumed this is when the skull and face have stopped growing, but there is little available information on that growth and when the different parts of the face and skull stop growing. The goal of this study is to develop and test new computer-based methods to quantify skull growth and related soft- tissues changes. This pilot work will demonstrate whether it is possible to measure these developments and prepare the tools for a larger clinical study. That clinical study will determine the full nature and extent of bone growth and related soft-tissue changes during late adolescence, to identify if/when earlier surgery could be carried out to correct any deformity and minimise the associated social stigmas of the condition.
OVERVIEW The study will involve a three arm parallel cohort study considering patients with the following conditions: 1. Class I malocclusion with no vertical facial anomalies, and no facial asymmetry or other pathology; 2. Class III malocclusion with maxillary deficiency but no other vertical facial anomalies, and no facial asymmetry or other pathology; 3. Patients with cleft lip and/or palate and a Class III malocclusion and no other pathology. DATA CAPTURE a. MRI data will be obtained (for 10 subjects in each group) at age T0 and one year afterwards (T1). This will provide accurate geometries to properly test the techniques. The use of MRI scan data avoids the need for unnecessary exposure of patients to ionizing radiation, it also allows the relationship between hard and soft tissues to be observed. b. The same 10 patients in (a) will undergo an intra-oral scan captured using a Trios intraoral scanner (3Shape, Aarhus, Denmark) which uses ultrafast optical sectioning technology (non-invasive) to provide a 3D image of the dentition and dental occlusion and facial stereophotogrammetry scan (Vectra H1 3D camera) for soft-tissue texture information at ages T0 and T1. 3D DATA ANALYSIS 1. Reconstructed 3D geometries of the MRI scans at ages T0 and T1 will be superimposed to determine the areas of skeletal and dental change in each subject. The scans will be reconstructed and processed for the downstream 3D volume subtraction, using the methodologies developed by the investigators and collaborators in similar dental and skull biomechanics applications The T0 data will then be subtracted from the T1 data to visualize and quantify the geometric changes in hard tissues arising from growth. 2. To investigate the external changes in soft tissues, 3D stereophotogrammetry scans will be converted to shells. Colour-mapping will then provide quantification of the temporal change in the soft tissues by 3D subtraction. Furthermore, to quantify the changes in areas of complex-curvature e.g. the labiomental fold, 3D curvatures will be computed and differences analysed using methods developed by the investigators. 3. To determine the growth correlation between soft- and hard-tissues, geometric morphometric algorithms and bespoke computational methods will be developed. Firstly, homologous landmarks will be identified automatically and 3D landmark templates will be created to capture the surface geometries. Thereafter, discriminant function analysis will be performed to compare the shape changes in each category for each age. 4. The intraoral scans will also be converted to shells along with the hard- and soft-tissue information. Using Avizo software, subtraction and colour-mapping of the intraoral images will then again provide quantification of the temporal change in the occlusal relationships. ;
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