Abstract
Objectives: To evaluate and compare the effect of tooth preparation designs and different CADCAM materials on stress distribution and Weibull survival probability of endocrowns applied to root canal treated lower first permanent molar using the 3D finite element analysis method.
Methods: A root canal-treated lower first permanent molar was prepared for endocrowns with a butt joint or with a ferrule design by placing, circumferentially, a 1-mm wide shoulder finish line. The prepared molar was scanned for the two designs and modeled on a 3D Finite element model. Monolithic zirconia (IPS e.max ZirCAD MT, FCZ), lithium disilicate (IPS e.max CAD, EX), and nano-ceramic resin composite (Lava Ultimate, LU) CAD-CAM materials were used for each preparation to design the virtual endocrown. A total of six models were built according to the different tooth preparation designs and endocrown materials. An occlusal load of 600 N and a transverse load of 20 N in magnitude that simulates the average occlusal load was directed toward the occlusal surfaces. von Mises and maximum principal values were evaluated Weibull risk-of-rupture analysis was used to analyze the survival probability of the restorations and tooth in the different models.
Results: The highest von Mises were found in the butt joint design for FCZ, EX, and LU (45.3 MPa, 35.2 MPa, and 24.2 MPa, respectively) compared to the ferrule design for the same materials (42.6 MPa, 31.2 MPa, and 23.6 MPa, respectively). For von Mises stress distribution in the remaining part of tooth structure (dentin), the highest stresses were found in LUFerrule which was closely similar to LUButt
joint (135.4 MPa and 134.7 MPa, respectively), followed by EXFerrule and FCZFerrule (132.2 MPa and 131.7 MPa, respectively), while the lowest stresses were found in EXButt joint and FCZButt joint (129.0 MPa and 128.4 MPa, respectively). Shear stresses within the resin cement were the highest in FCZ and EX compared to LU. EX was found to be the most reliable material with the highest survival probability, while FCZ showed the lowest survival probability according to the Weibull risk-of-fracture results.
Significance: materials with high elastic modulus transfer more stresses to the endocrown and less to the remaining tooth structure. Endocrown tooth preparations with ferrule design had better stress distribution and magnitude compared to the butt joint design.
Methods: A root canal-treated lower first permanent molar was prepared for endocrowns with a butt joint or with a ferrule design by placing, circumferentially, a 1-mm wide shoulder finish line. The prepared molar was scanned for the two designs and modeled on a 3D Finite element model. Monolithic zirconia (IPS e.max ZirCAD MT, FCZ), lithium disilicate (IPS e.max CAD, EX), and nano-ceramic resin composite (Lava Ultimate, LU) CAD-CAM materials were used for each preparation to design the virtual endocrown. A total of six models were built according to the different tooth preparation designs and endocrown materials. An occlusal load of 600 N and a transverse load of 20 N in magnitude that simulates the average occlusal load was directed toward the occlusal surfaces. von Mises and maximum principal values were evaluated Weibull risk-of-rupture analysis was used to analyze the survival probability of the restorations and tooth in the different models.
Results: The highest von Mises were found in the butt joint design for FCZ, EX, and LU (45.3 MPa, 35.2 MPa, and 24.2 MPa, respectively) compared to the ferrule design for the same materials (42.6 MPa, 31.2 MPa, and 23.6 MPa, respectively). For von Mises stress distribution in the remaining part of tooth structure (dentin), the highest stresses were found in LUFerrule which was closely similar to LUButt
joint (135.4 MPa and 134.7 MPa, respectively), followed by EXFerrule and FCZFerrule (132.2 MPa and 131.7 MPa, respectively), while the lowest stresses were found in EXButt joint and FCZButt joint (129.0 MPa and 128.4 MPa, respectively). Shear stresses within the resin cement were the highest in FCZ and EX compared to LU. EX was found to be the most reliable material with the highest survival probability, while FCZ showed the lowest survival probability according to the Weibull risk-of-fracture results.
Significance: materials with high elastic modulus transfer more stresses to the endocrown and less to the remaining tooth structure. Endocrown tooth preparations with ferrule design had better stress distribution and magnitude compared to the butt joint design.
Original language | English |
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Pages (from-to) | 227-235 |
Journal | Dental Materials |
Volume | 40 |
Issue number | 2 |
Early online date | 17 Nov 2023 |
DOIs | |
Publication status | Published - 1 Feb 2024 |