View clinical trials related to Anodontia.
Filter by:The aim of is to compare the survival rate and technical outcomes of cantilever implant-supported fixed denture prosthetics (cFDPs) made either out of monolithic zirconia bonded to a titanium base in a digital workflow, or porcelain fused-to metal using a gold abutment in a conventional workflow. In addition, biological outcomes, wear patterns, PROMs and time efficiency will be recorded. The null hypothesis is: the reconstruction type does not influence the survival rate and technical outcomes of 2-unit implant-supported cFDP.
To assess vertical bone height gain with Geistlich Bio-Oss Collagen used in conjunction with simultaneous implant installation in transcrestal approach sinus augmentation.
The primary aim of this study is to introduce a new effective and efficient 3D printed design of an intra-oral space maintainer. The secondary aim of the study is to: Evaluate the clinical performance of 3D printed space maintainer versus conventional metal band and loop over a period of 6 months regarding their functional , biological aspects and patient satisfaction.
Study the effect of neurectomy of nasopalatine nerve on the sensation of anterior palate in patients undergoing rehabilitation of anterior maxillary ridge with dental implant
Clinical trial to evaluate the success rate of autotransplantation of teeth with advanced or completed root growth with intraoperative extracorporeal root tip resection in 20 patients.
This study aims to provide information on the frequency of hypodontia in children cancer survivors receiving chemotherapy before 4 years of age.Patients who met the eligibility criteria will be given a structured questionnaire to fill followed by a radiographic examination (dental panorama) for confirmation and standardization of the results.
This study evaluates the success rate, as the biological and prosthesis complications, of posterior single-unit implants immediately loaded with a chair side Computer-Aided Design and Manufacturing (CAD-CAM) composite crown, after a follow-up period of 6 months,1,2,3,4 and 5 years. Complementary ex vivo analyses will be performed to evaluate the wear of restorations. The time and cost benefit of the presented digital workflow, as patient centered outcomes will also be evaluated.
The congenital absence of teeth, commonly referred to as hypodontia or tooth agenesis, is a common developmental anomaly of human dentition that affects approximately 20% of the population. Although new genetic and molecular approaches in humans and mice have increased our understanding of the molecules that control tooth patterning (number, position, shape and size), the precise nature of the genes involved in hypodontia in humans is poorly understood. Hence, understanding the molecular basis for missing teeth is an issue of paramount importance that is both timely and significant to the practice of dentistry. So far, only two genes have been associated with non-syndromic familial tooth agenesis: MSX1 and PAX9. Substitution mutations in the homeodomain region of MSX1 were linked to premolar agenesis while an insertion mutation in the paired box domain of PAX9 was shown to be responsible for molar oligodontia. The long-term goals of this research are to elucidate the molecular pathology of human tooth agenesis, in particular, to evaluate whether genes other than MSX1 and PAX9 (locus heterogeneity) are involved. Alternatively, as in the case of MSX1, it will be interesting to know whether allelic variations, different mutations in these genes, are associated with tooth agenesis. We propose to study a potentially large kindred that report the developmental absence of several posterior teeth. The fundamental hypothesis to be tested states that the gene responsible for the congenital absence of molar teeth in this kindred is a critical element in the genesis of molars. The specific goals are to perform linkage analysis followed by direct sequencing of PCR products to identify the gene and to characterize the nature of the underlying defect. Identifying the underlying gene defect in this family affected by tooth agenesis will add new knowledge to our understanding of the pathogenesis of this defect and will provide the basis for future studies.