Coacervated and Freeze-Dried Polysaccharides-Nanoparticle with Efficient Encapsulation of Albendazole for High-Performance Treatment of Monogenean Parasite Infestation in Tilapia Fish
Andrés Vicent Cubas Rengifo, Norma Lorena Rivadeneyra Sánchez, Chloé Barbosa Teixeira, Rafael R. M. Madrid, Omar Mertins, Patrick D. Mathews

TL;DR
A new nanoparticle delivery system effectively treats monogenean parasites in tilapia fish using albendazole, offering a high-performance solution for aquaculture.
Contribution
A biodegradable nanoparticle formulation of albendazole with high encapsulation efficiency and effective parasite clearance in fish.
Findings
Nanoparticles achieved 98% encapsulation of albendazole and sustained drug delivery.
The treatment cleared all monogenean parasites in tilapia fish with no mortality observed.
Freeze-dried nanoparticles formed a fine powder suitable for oral administration.
Abstract
Monogenean parasite infestation in fish leads to economic losses in aquaculture, representing a veterinary challenge and an environmental concern. The common administration procedures of anthelmintics to treat monogeneans in fish have low efficiency and diverse drawbacks. In this study, we produced a nanoparticle using chitosan and alginate, biodegradable and biocompatible polysaccharides, as an oral drug delivery material of albendazole anthelmintic for parasite-infected fingerlings of Nile tilapia. The molecular interaction between the biopolymers was optimized and characterized by titration calorimetry. Freeze-drying of nanoparticles resulted in a fine powder with a particle size in the order of 400 nm. The nanoparticles provided 98% encapsulation of albendazole and sustained delivery with predominantly Fickian diffusion. The palatability of the nanoparticle formulation facilitated…
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Taxonomy
TopicsParasite Biology and Host Interactions · Helminth infection and control · Parasites and Host Interactions
