Degree of monomer conversion upon light-curing condition, biaxial flexural strength, and surface apatite formation of orthodontic adhesive containing calcium phosphate and nisin

Degree of monomer conversion upon light-curing condition, biaxial flexural strength, and surface apatite formation of orthodontic adhesive containing calcium phosphate and nisin

Purpose To examine the effects of different curing protocols on the degree of monomer conversion (DC), evaluate the 4-week mineral-forming capability, and assess the mechanical strength of experimental orthodontic adhesives containing calcium phosphate and nisin.Materials and methods Five experiment...

Full description

Saved in:
Bibliographic Details
Main Authors: Supachai Chanachai, Wirinrat Chaichana, Sutiwa Benjakul, Kanlaya Insee, Woranuch Chetpakdeechit, Piyaphong Panpisut
Format: Article
Language:English
Published: Taylor & Francis Group 2025-06-01
Series:Clinical and Investigative Orthodontics
Subjects:
Orthodontic adhesive
calcium phosphate
nisin
degree of monomer conversion
biaxial flexural strength
apatite formation
Online Access:https://www.tandfonline.com/doi/10.1080/27705781.2025.2516986
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Purpose To examine the effects of different curing protocols on the degree of monomer conversion (DC), evaluate the 4-week mineral-forming capability, and assess the mechanical strength of experimental orthodontic adhesives containing calcium phosphate and nisin.Materials and methods Five experimental materials were formulated using varying concentrations of monocalcium phosphate monohydrate (MCPM) and nisin: F1 (10 wt% MCPM, 10 wt% nisin), F2 (10 wt% MCPM, 5 wt% nisin), F3 (5 wt% MCPM, 10 wt% nisin), F4 (5 wt% MCPM, 5 wt% nisin), and F5 (no additives). DC was measured using ATR-FTIR (n = 5) under different curing conditions: conventional LED (SmartLite, 1200 mW/cm2, 20s) or high-intensity LED (Valo Grand, 3200 mW/cm2, 3s), with bracket coverage. The surface apatite formation (n = 1) and biaxial flexural strength (n = 7) after 4-week immersion in simulated body fluid were also investigated.Results Curing protocol significantly influenced DC. SmartLite (20s) generally exhibited higher DC than Valo (3s). After 4 weeks, F1 and F2 demonstrated calcium phosphate precipitation but showed reduced mechanical properties. BFS ranged from 48 MPa (F1) to 193 MPa (F5), while BFM ranged from 1.6 GPa (F1) to 7.0 GPa (F5). Increasing concentrations of additives reduced mechanical properties, with nisin showing a greater negative effect than MCPM.Conclusion Higher additive concentrations promoted mineral formation but reduced mechanical properties after 4 weeks. Using an extended-curing time with conventional LED provided higher monomer conversion than high-power LED for experimental materials. Optimizing additive concentrations and curing protocols is crucial for the performance of experimental orthodontic adhesives.
ISSN:2770-5781
2770-579X

Similar Items