# The efficacy of acetic acid and citric acid on calcium silicate based cement removal from root canals and their effect on dentine structure – an in vitro study

**Authors:** Hanan Alzraikat, Ahmad S. Al-Hiyasat, Estabraq Sarya Jamous, Mohammad A. Alebrahim

PMC · DOI: 10.2340/biid.v13.45669 · 2026-03-25

## TL;DR

This study tested how acetic and citric acids affect calcium silicate cement in root canals and found that citric acid was more effective in reducing cement hardness and aiding removal.

## Contribution

The study introduces new insights into the effectiveness of acetic and citric acids for removing calcium silicate cements while preserving dentine structure.

## Key findings

- Citric acid reduced cement microhardness more than acetic acid and saline.
- Acid-treated cements perforated faster, with citric acid showing the greatest time reduction.
- Citric acid opened dentinal tubules more distinctly than acetic acid.

## Abstract

This study evaluated the effectiveness of acids on calcium silicate cement surface hardness, perforation, and their impact on root dentine microstructure.

Root dentine discs were exposed to hydrochloric, acetic, and citric acids. Fourier transform infrared spectroscopy (FTIR) assessed dentine microstructure after exposure to these acids. Sixty discs of Biodentine and NeoPUTTY (n = 30 each) were treated with 2% acetic acid, 5% citric acid, or saline (control), then tested for surface microhardness (Vickers hardness number, VHN). Another 60 dentine discs filled with these cements were exposed to the acids or saline and mechanically perforated with a Peeso reamer; perforation time was recorded. Scanning electron microscopy (SEM) examined dentine and cement surfaces.

FTIR revealed that hydrochloric acid caused severe demineralization of dentine microstructure, whereas 2% acetic and 5% citric acids had no significant effect on dentine microstructure. Both acids (acetic and citric) significantly reduced VHN compared to controls (p < 0.001). Acid-treated groups were perforated faster, with citric acid showing the greatest time reduction (p < 0.001). NeoPUTTY required less perforation time than Biodentine (p < 0.001). SEM revealed surface cracks in Biodentine and round-shaped defects in NeoPUTTY after acid exposure; citric acid opened dentinal tubules more distinctly than acetic acid.

Acetic and citric acids significantly reduced microhardness and facilitated mechanical perforation of calcium silicate cements, with citric acid exerting greater effect.

## Linked entities

- **Chemicals:** acetic acid (PubChem CID 176), citric acid (PubChem CID 311), hydrochloric acid (PubChem CID 313)

## Full-text entities

- **Chemicals:** NeoPUTTY (-), citric (MESH:D019343), Biodentine (MESH:C506393), acids (MESH:D000143), Acetic (MESH:D019342), hydrochloric acid (MESH:D006851), calcium silicate (MESH:C031293)

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13032180/full.md

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Source: https://tomesphere.com/paper/PMC13032180