Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance

Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance Publisher

Summary: Wondering about optimal materials for dental pulp therapy? Research suggests that a zinc-modified bioactive glass–resin (NPA) shows superior hardness and cell migration, despite slower setting. #DentalResearch #PulpTherapy

Heydari S ; Bolhari B ; Pedram P ; Zahedi F ; Noori F

Source: Materials and Design Published:2026

Abstract

This study evaluated the mechanical and biological performance of a zinc‑modified bioactive glass–resin pulp‑capping agent (NPA) under clinically relevant conditions and compared it with MTA Angelus and Biodentine in the presence of blood and phosphate‑buffered saline (PBS). Setting time (n = 4; ISO 9917) and Vickers microhardness (n = 10) were measured after exposure to blood‑ or PBS‑moistened pellets. Dental pulp stem cell (DPSC) adhesion (n = 6) was examined by scanning electron microscopy, and DPSC migration (n = 6) was assessed using a scratch assay with material extracts diluted at 1:1, 1:4, and 1:8. The results showed that blood exposure significantly prolonged setting times for all materials (p ' 0.05), with NPA showing the longest and Biodentine the shortest. NPA demonstrated the highest microhardness in both media (p ' 0.01), although blood reduced hardness across groups. At 1:1 dilution, no measurable cell migration was observed; therefore, statistical analysis was limited to diluted concentrations. Lower concentrations enhanced cell migration, reaching 124% for MTA, 104.5% for NPA, and 86% for Biodentine at 1:8. SEM confirmed DPSC adhesion on all materials, with improved spreading on MTA and NPA. Despite slower setting, NPA showed superior microhardness and favorable cellular responses, suggesting its potential as a candidate material for vital pulp therapy. © 2026 The Authors.

Style	Citing Format
MLA	Heydari S, et al.. "Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance." Materials and Design, vol. 266, no. , 2026, pp. -.
APA	Heydari S, Bolhari B, Pedram P, Zahedi F, Noori F (2026). Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance. Materials and Design, 266(), -.
Chicago	Heydari S, Bolhari B, Pedram P, Zahedi F, Noori F. "Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance." Materials and Design 266, no. (2026): -.
Harvard	Heydari S et al. (2026) 'Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance', Materials and Design, 266(), pp. -.
Vancouver	Heydari S, Bolhari B, Pedram P, Zahedi F, Noori F. Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance. Materials and Design. 2026;266():-.
BibTex	@article{ author = {Heydari S and Bolhari B and Pedram P and Zahedi F and Noori F}, title = {Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance}, journal = {Materials and Design}, volume = {266}, number = {}, pages = {-}, year = {2026} }
RIS	TY - JOUR AU - Heydari S AU - Bolhari B AU - Pedram P AU - Zahedi F AU - Noori F TI - Zinc Bioactive Glass Modified With an Organic Resin for Pulp Capping in Comparison to Other Bioceramic Cements: Biological Fluid -Mediated Performance JO - Materials and Design VL - 266 IS - SP - EP - PY - 2026 ER -

Science Communicator Platform

Authors

Abstract