pH-Responsive Chitosan-Doped ZnO Hybrid Hydrogels for the Encapsulation of Bioactive Compounds in Aquaculture

Author:

Sánchez-Serrano Samuel1,González-Méndez Daniela J.1,Olivas-Valdez José A.1,Millán-Aguiñaga Natalie1,Evangelista Viridiana1,Contreras Oscar E.2,Cardoza-Contreras Marlene N.1

Affiliation:

1. Marine Sciences Faculty, Autonomous University of Baja California, Ensenada 22860, Mexico

2. Nanosciences and Nanotechnology Center, National Autonomus University of Mexico, Ensenada 22800, Mexico

Abstract

In this study, we synthesized and characterized pH-responsive Chitosan–AgCl-doped ZnO hybrid hydrogels and evaluated their potential for loading aquaculture bioactive compounds, and assessed their antimicrobial properties against a threatening pathogen associated with disease across a broad spectrum of warm water fish and invertebrates. Hydrogel characterization consisted of assessing morphology via SEM, composition via EDS, hydrogels’ network components interactions via FT-IR and pH response through swelling behavior determinations. The swelling characterization of the synthesized hydrogels demonstrated a pH-responsive behavior, showing that low pH values caused the hydrogel polymeric network to expand and capture more of the aqueous solution. These characteristics make the synthesized hydrogels suitable for the encapsulation and controlled release of drugs and bioactive compounds in aquaculture. Chitosan_ZnO hybrid hydrogels showed great antimicrobial activity against Vibrio harveyi, even better than that of loaded PB hydrogels. Here, we provide evidence for the potential capacity of Chitosan_ZnO hybrid hydrogels for the preventive and curative treatment of diseases that impact aquaculture animal health and prevent drug resistance by bacteria.

Funder

SEP through the PRODEP UABC-CA-307 project

CONAHCYT-PRONACES

Publisher

MDPI AG

Subject

Polymers and Plastics,General Chemistry

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