Evaluating the ecotoxicity of polymer-coated SPIONs for scale inhibition using a zebrafish embryo model
| Author | El-Makaty, Farah M. |
| Author | Raghe, Sadia H. |
| Author | Karaly, Ali H. |
| Author | Abdelaal, Abdelrahman T. |
| Author | Kelland, Malcolm A. |
| Author | Karousa, Mai M. |
| Author | Hussain, Sakeena H. |
| Author | Shaito, Abdullah |
| Author | Mady, Mohamed F. |
| Available date | 2025-11-23T10:01:17Z |
| Publication Date | 2026-02-28 |
| Publication Name | Colloids and Surfaces B: Biointerfaces |
| Identifier | http://dx.doi.org/10.1016/j.colsurfb.2025.115215 |
| Citation | El-Makaty, Farah M., Sadia H. Raghe, Ali H. Karaly, Abdelrahman T. Abdelaal, Malcolm A. Kelland, Mai M. Karousa, Sakeena H. Hussain, Abdullah Shaito, and Mohamed F. Mady. "Evaluating the Ecotoxicity of Polymer-Coated SPIONs for Scale Inhibition Using a Zebrafish Embryo Model." Colloids and Surfaces B: Biointerfaces (2025): 115215. |
| ISSN | 09277765 |
| Abstract | Superparamagnetic iron oxide nanoparticles (SPIONs) are increasingly explored as sustainable scale inhibitors in oilfield operations, offering high efficiency, magnetic recoverability, and reduced chemical discharge. This study evaluates the environmental safety of two polymer-coated SPION formulations—SPIONs-TSC-PPEA and SPIONs-TSC-PASP—through a comprehensive analysis in the zebrafish embryo model, aligned with OECD guidelines. The nanocomposites demonstrated complete inhibition of gypsum and calcite scaling at ≤ 10 ppm, while maintaining high survival (>90 %), hatching, and minimal teratogenicity in zebrafish embryos up to 200 ppm—representing a 20 × safety margin. Mechanistic assessments of cardiac and neuromotor functions revealed only mild, adaptive effects. Physicochemical characterization confirmed stable, monodispersed nanoparticles with low dissolution and high surface charge. These findings confirm the low ecotoxicological risk of SPION-based inhibitors, supporting their integration into environmentally responsible scale management strategies. This study advances sustainable nanotechnology solutions by bridging performance, recyclability, and environmental compliance. |
| Sponsor | This work was supported by Grant no. ARG01-0602-230467 from Qatar National Research Fund (a member of the Qatar Foundation). Open Access funding is provided by Qatar National Library. The statements made herein are solely the responsibility of the authors. The authors thank the Research Council of Norway for the financial support of the Ph.D. Candidates Ali H. Karaly, and Abdelrahman Abdelaal, through the project PETROMAKS 2 program/ Research Project No. 300754. The authors also acknowledge the support provided by the Qatar University Zebrafish Core Facility at the BRC, as well as the efforts of Ms. Enas Al Absi and Mr. Ahmad Elwan for maintaining the facility. |
| Language | en |
| Publisher | Elsevier |
| Subject | Superparamagnetic nanoparticles Ecotoxicity Zebrafish Model Green Scale Inhibitors Marine Environment |
| Type | Article |
| Volume Number | 258 |
| ESSN | 1873-4367 |
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