Int J Prosthodont. 2026 Jan 20;0(0):1-21. doi: 10.11607/ijp.9668. Online ahead of print.
ABSTRACT
PURPOSE: Restoring severely destructed anterior teeth without a ferrule remains a clinical challenge, and the choice between endocrowns and post-core systems is still debated. This study aimed to compare the fracture strength and failure modes of maxillary central incisors restored with conventional and CAD/CAM post-core systems versus endocrowns fabricated from different materials.
MATERIALS AND METHODS: Fifty endodontically treated maxillary central incisors were decoronated and divided into five groups:Glass-fiber post/composite core (F); CAD/CAM glass-fiber single-piece post-core (CF); CAD/CAM polyetheretherketone (PEEK) single-piece post-core (CP); hybrid ceramic endocrown (HE); lithium disilicate endocrown (LE). Hybrid ceramic crowns were produced on the post-core restorations. After thermocycling, fracture strength (N) was evaluated using a universal testing machine. Then the failure modes were examined under stereomicroscope. Statistical analysis was performed using Kruskal-Wallis and Tukey tests (P= .05).
RESULTS: Group CF exhibited the highest fracture strength (331.624 N) and a 60% repairable failure rate. However, group F exhibited a 100% repairable failure, followed by the group CP, which showed 80% repairable failure. Among the endocrowns, HE demonstrated significantly higher fracture strength (313.9 N) compared with LE (128.9 N, P< .05), although both showed 60% repairable failures.
CONCLUSIONS: CAD/CAM glass-fiber post-cores and hybrid ceramic endocrowns provided superior fracture strength with predominantly repairable failures. In view of their simplified workflow and cost-effectiveness, hybrid ceramic endocrowns may be regarded as a clinically reliable restorative option for anterior teeth lacking a ferrule. In addition, the repairable nature of failures in glass-fiber posts plays a key role in preventing irreversible failures.
PMID:41557270 | DOI:10.11607/ijp.9668
