Shear bond strength of ultraviolet-polymerized resin to 3D-printed denture materials: Effects of post-polymerization, surface treatments, and thermocycling - UTU Tutkimustietojärjestelmä

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Shear bond strength of ultraviolet-polymerized resin to 3D-printed denture materials: Effects of post-polymerization, surface treatments, and thermocycling

Tekijät: Tanaka, Ami; Kawaguchi, Tomohiro; Ito, Ayaka; Isshi, Kota; Hamanaka, Ippei; Tsuzuki, Takashi

Kustantaja: JAPAN PROSTHODONTIC SOC

Kustannuspaikka: TOKYO

Julkaisuvuosi: 2024

Lehti: Journal of Prosthodontic Research

Tietokannassa oleva lehden nimi: JOURNAL OF PROSTHODONTIC RESEARCH

Lehden akronyymi: J PROSTHODONT RES

Sivujen määrä: 9

ISSN: 1883-1958

eISSN: 2212-4632

DOI: https://doi.org/10.2186/jpr.JPR_D_23_00321

Julkaisun avoimuus kirjaamishetkellä: Avoimesti saatavilla

Julkaisukanavan avoimuus : Osittain avoin julkaisukanava

Verkko-osoite: https://doi.org/10.2186/jpr.JPR_D_23_00321

Tiivistelmä

Purpose: The purpose of this study is to compare the shear bond strength of ultraviolet (UV) -polymerized resin to 3Dprinted denture materials, both with and without post -polymerization. Moreover, the effects of surface treatment and thermocycling on shear bond strength after post -polymerization were investigated. Methods: Cylindrical 3D -printed denture bases and teeth specimens were prepared. The specimens are subjected to two tests. For Test 1, the specimens were bonded without any surface treatment or thermal stress for comparison with and without post -polymerization. In Test 2, specimens underwent five surface treatments: untreated (CON), ethyl acetate (EA), airborne particle abrasion (APA) with 50 mu m (50-APA) and 110 mu m alumina (110-APA), and tribochemical silica coating (TSC). A UV -polymerized resin was used for bonding. Half of the Test 2 specimens were thermocycled for 10,000 cycles. Shear bond strength was measured and analyzed using Kruskal-Wallis and Steel-Dwass tests (n = 8). Results: In Test 1, post -polymerization significantly reduced shear bond strength of both 3D -printed denture materials (P < 0.05). No notable difference was observed between the denture teeth and the bases (P > 0.05). In Test 2, before thermocycling, the CON and EA groups exhibited low bond strengths, while the 50-APA, 110-APA, and TSC groups exhibited higher bond strengths. Thermocycling did not reduce bond strength in the latter groups, but significantly reduced bond strength in the EA group (P < 0.001). Conclusions: Post -polymerization can significantly reduce the shear bond strength of 3D -printed denture materials. Surface treatments, particularly APA and TSC, maintained bond strength even after thermocycling.