Abstract
This case study investigates the use of an ovate pontic design in simulated tissue contouring, a technique intended to produce the best possible functional and aesthetic results in dental prostheses. The edentulous ridge and normal gingival architecture must be preserved and maintained, as they frequently collapse after tooth extraction. In today's aesthetic dentistry, preserving interproximal tissue contour and preventing alveolar bone collapse are highly desirable. This case report presents a 25-year-old male patient with a missing anterior tooth due to trauma. The patient's missing anterior maxillary tooth caused both functional and aesthetic problems. The patient was presented with two options: an implant-supported prosthesis or a three-unit fixed partial denture (FPD). Due to economic constraints, the patient opted for a three-unit FPD. A clinical examination revealed that the adjacent teeth were intact and that the edentulous ridge was well-maintained. This necessitated a careful prosthetic approach to achieve harmonious integration with the surrounding soft tissues. A transfer impression technique was used to attain the desired result. A three-unit FPD was selected to restore the patient's edentulous area and provide an anatomical imitation of normal gingival architecture, incorporating an ovate pontic and porcelain-fused-to-metal crowns on both adjacent teeth. Because of its natural appearance and improved integration with the edentulous ridge, the ovate pontic design is preferable to other pontic designs, such as the modified ridge lap or the saddle pontic. Compared to bulkier or ill-fitting designs, its shape closely resembles the contour of a natural tooth, improving cleanliness and aesthetics by reducing plaque retention. The results demonstrated that dental aesthetics and functional occlusion could be successfully restored, and the patient was satisfied with the prosthesis's natural-looking appearance. This case highlights the crucial role of custom prosthetic methods in creating natural-looking dental restorations, particularly through ovate pontic design and simulated tissue contouring. It underscores the importance of combining patient-centered care with cutting-edge prosthodontic concepts such as digital technology, 3D printing, and artificial intelligence to optimize outcomes in dental practice. From an educational perspective, this paper provides valuable insights into how a three-unit FPD with an ovate pontic enhances the functional and aesthetic aspects of dental prostheses.