Clinical and Microbial Study of Reinforced 3D Printed Maxillary Denture Base Resin (dimensions)

This study aims to compare the effect of 3D printed denture base without nanoparticles and 3D printed denture base reinforced with ZrO2 and TiO2 nanoparticles on completely edentulous patients, as regards:

1. Microbial colonization.
2. Patient satisfaction.

The following steps will be carried out for all patients:

1. Conventional primary and final impressions will be made for each patient
2. Master casts (upper and lower) and occlusion blocks will be scanned by an extra-oral scanner.
3. Files in standard tessellation language (STL) format of master casts and jaw relation records will be imported to the software platform. The software will enable virtually simultaneous mounting and aligning. Each denture will have two STL files that will be printed separately: one for the denture base and one for the teeth, using a 3D printer.29
4. For Group Ι, the designed dentures STL files will be sent to the 3D printer software. Pink denture base resin will be used to print denture bases without nanoparticles.
5. For Group II, Pink denture base resin reinforced by Nanoparticles (ZrO2) will be used to print denture bases.
6. For Group Ш, Pink denture base resin reinforced by Nanoparticles (TiO2) will be used to print denture bases.
7. White teeth resin will be utilized for teeth printing for all groups. Finally, teeth will be attached to recessed pockets in the dentures bases via resin. Followed by finishing. Eventually, dentures will be placed in the post-curing unit.

All patients will be given similar post insertion instructions and a regular oral and denture hygiene protocol.