Assessment of Marginal Adaptation of Two CAD/CAM Glass Ceramic Occlusal Veneers at Different thickness After Thermodynamic aging

Background: Lacking of proper marginal adaptation and improper cement seal of occlusal table-tops resulted in plaque accumulation, and marginal discoloration with subsequent caries progression, while increasing the internal gaps, lead to reduction of fracture strength of these restorations due to unequal load transmission and stress concentration. Aim of the study:This study aimed to evaluate the effect of the use of various restorative CAD/ CAM materials on the marginal and internal adaptation of table-tops using a non-invasive digital method for evaluation of cement thickness space differences compared to the design cement setting. Materials and methods:Sixty-eight human mandibular first molars were prepared to receive 1mm thickness table-top restorations. The restorations were divided into four groups according to the constructed CAD/CAM restorative materials (n=17): Group (ED) Lithium disilicate; group (CD) Zirconia reinforced lithium silicate; group (PZ) High translucent zirconia; and group (LU): Resin nano-ceramic. The prepared teeth were scanned with bench scanner and the STL files were saved to design the table-top restorations with cement gap setting of 30µm at margin and 50µm internally, the restorations were milled and prepared following the manufacturer's instruction for each material. A layer of light body silicone replica placed on the intaglio surface of each table-top and adapted over corresponding prepared tooth, after material setting; rescanning the prepared teeth with the replica. Geomagic software was used for superimposition of the two STL files (with and without replica; double scan technique), the thickness of the replica were calculated and compared to the previous cement gap setting.Results: Marginal and internal gaps were statistically significant different from the cement setting in group ED, CD and PZ (p ≤ 0.05) when compared with the LU that showed the least mean marginal and internal gap values (43.64, 72.95) and the closest to the cement gap setting.

Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 94%

Non-Invasive Digital Technique for Examination of Marginal and Internal Adaptation of Different Ceramic Table-Tops

Abo Elhassan,

Nasr

2024

“…The most important technical factor for long-term restoration success and enhanced prosthesis retention is marginal adaptation of fixed prosthodontics (31) . Marginally, the tissues surrounding restorations and their long-term durability are affected by design of the finish line and materials used (34) .…”

Section: Discussionmentioning

confidence: 99%

“…Each etched surface was rinsed with water spray for 60 seconds and then air dried for 20 seconds. A layer of silane coupling agent (Bisco, Company, USA) was applied for 60 seconds to the etched surface, and then air thinned (31) . Each tooth was etched using 37% phosphoric acid (Meta Biomed, Korea) and then a universal bond (Bisco, Company, USA) was applied.…”

Section: Cementationmentioning

confidence: 99%

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The Impact of Different Preparation Designs on Marginal Adaptation of Pressable Ceramics (An In-vitro Study)

Deeb,

Abdelhalim,

Rabeae

2024

Purpose: This study aimed to evaluate the impact of various preparation designs on marginal adaption of pressable ceramic crowns. Materials and Methods:Forty freshly extracted maxillary premolars were used. Premolars were prepared to receive crowns with two marginal designs. The samples were divided randomly into two equal groups based on the tested ceramic materials (n=20); Group E for IPS e-max press and Group C for Celtra press. Each group was subdivided into two subgroups according to the tested finish line (n = 10); Subgroups (EF) and (ES) representing deep chamfer and chisel finish line of E-max samples, respectively. Subgroups (CF) and (CS) representing deep chamfer and chisel finish line of Celtra samples, respectively. Using a stereomicroscope, each sample's marginal gap was assessed microscopically before cementation. After Cementation, specimens were subjected to thermocycling to mimic intraoral conditions and then marginal gap was assessed microscopically.Results: Subgroup (ES) recorded the highest marginal gap mean (62.96±6.48) and subgroup (CF) recorded the lowest one (51.9±4.95). Gp (E) recoded higher marginal gap mean value (63.23± 5.38 µm) than Gp (C) (57.42± 5.07 µm). The chisel margin subgroup recoded a statistically significant higher marginal gap mean value (62.65± 5.7 µm) than the chamfer margin subgroup (57.99± 4.75 µm). Conclusion:Celtra press group (C) showed better marginal adaptation compared to IPS e-max press group (E) before/after cementation. Deep chamfer subgroups (EF) & (CF) showed better marginal adaptation compared to chisel finish line subgroups (ES) & (CS). The results were within the clinically accepted range (120 µm).

Marginal fit and fracture resistance of advanced lithium disilicate occlusal veneer with different preparation designs

Hashem

2023

Aim: This study aimed to evaluate the effect of different preparation designs of advanced lithium disilicate (CEREC Tessera) occlusal veneer on marginal fit and fracture resistance. Materials and methods:Twenty extracted mandibular molar teeth were used for occlusal veneers fabrication. Division of samples was carried out by the preparation design into two groups (n=10). group 1: The teeth were prepared with 90 0 shoulder finish line. group 2: The chamfer finish line was the technique of choice in teeth preparation. Both groups were subjected to thermocycling. The stereomicroscope was used to examine all samples for marginal fit before being subjected to the test of fracture resistance utilizing the universal testing machine.Results: Marginal fit results showed that the shoulder finish line design had a significantly lower mean value (75.8±6.4 μm) than that using the chamfer finish line design mean value (128.1±12.6 μm). The fracture resistance results demonstrated that the shoulder design had a higher significant mean value (870.2±72.5 N) than that using the chamfer design (711.2±66.6 N).Conclusions: Advanced lithium disilicate (CEREC Tessera) could be used in occlusal veneer restoration as their flexural strength and marginal fit values fall within the clinically accepted range. Regarding the preparation design, the shoulder design showed more resistance to fracture and better marginal fit than the chamfer finish line design after thermocycling.