In patients using Inlay restorations will the use of 3D printed PEEK material and technique have superior clinical performance to milled PEEK one or to milled composite resin inlays, evaluation of restorations will be done at baseline, six months and 12 months using the modified US Public Health Service (USPHS) evaluation system
The study will be conducted in Conservative Dentistry Department, Faculty of Dentistry, Cairo University; The operator in charge will be Donia Mamdouh Elshafey Patients will be selected from the outpatient clinic of the department Conservative Dentistry Department, Faculty of Dentistry, Cairo University All cavity preparations will be performed with fine inlay burs according to inlay cavity principles. The walls facing each other will be prepared 5 to 6 degree divergent with 80 μm diamond burs and were finished with 25 μm diamond burs. All internal angles will be rounded and all edges will terminate in the enamel. The pulpal floor will be prepared at a depth of at least 1.5 mm. The teeth will be discarded if isthmus width was more than 2/3 of the distance between the tubercule tips, or if the walls are thinner than 2 mm before the preparation or thinner than 1.5 mm after the preparation. The caries affected dentin tissue at the cavity floor will be left. The teeth will be discarded from study if the pulp is exposed. To eliminate irregular areas in the cavities, a liner will be applied as a blockout material. Then the operator will adhere strictly to the manufacturer's instructions in the imaging, computer design and machining of the restorations either 3D printing or milling procedure. The prepared teeth for the indirect restorations will be scanned with an optical 3D camera (CEREC Omnicam, Dentsply Sirona, Bensheim, Germany), inlays will be designed by a CAD software (CEREC SW 4.6.1, Dentsply Sirona), and files will be created in STL format (inLab CAD SW 18.1, Dentsply Sirona) then inlays will additively manufactured After the printing process is finished, the inlays will be immediately removed from the building platform and cooled down at room temperature. The inlay will be adapted individually to its cavity, and the occlusal surface will be recontoured. Such post processing also will be performed on the milled inlays. After all inlays are adequately adapted, they will be adhesively inserted into the cavities.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
20
PEEK has been used in dentistry so far in certain fields as for, removable and fixed dental prostheses, implants, and implant abutments as well as orthodontic devices, whereas in literature, it is mostly mentioned in relation to prosthetics. PEEK was predominantly processed out of CAD/CAM-supported milled out of prefabricated blanks. Producing dental restorations via Additive manufacturing is still hardly widespread
Increased demand for long-lasting restoration's properties have led to many improvements in the production techniques of posterior restorations such as CAD/CAM systems. This technique simplifies the production of indirect restorations and make it possible to use advanced materials as PEEK
Marginal integrity
Visual inspection with explorer and mirror, Distance penetrated by the Explorer at the tooth restoration interface
Time frame: 12 months
marginal discoloration
Visual inspection with a mirror at 18 inches, the degree of mismatch from the normal range of tooth shades and translucency Visual inspection to check the proximity of the shade from the natural tooth
Time frame: 12 months
secondary caries
Visual inspection of discoloration that occurs on the tooth after the filling has been used for a period of time
Time frame: 12 months
post operative sensitivity
Asking the patient if there is any associated pain after adding the restoration
Time frame: 12 months
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CADCAM resin composite blocks using milling process