Asian Journal of Fisheries and Aquatic Research

The present study evaluated improved growth performance, immunity, and disease resistance in Pangasius pangasius fingerlings (initial weight: 9.1 ± 0.3 g), the current study assessed a nano-enabled delivery system for a polyherbal formulation consisting of Tridax procumbens, Boerhavia diffusa, and Tinospora cordifolia (TP:BD:TC = 1:1:1). Chitosan–tripolyphosphate (CS–TPP) ionic gelation was used to nanoencapsulate a combination of hydroethanolic extract. Four experimental diets were given to fish for 60 days: control (C0), polyherbal (PH 1%), nano-polyherbal (NPH0.5), and nano-polyherbal (NPH1.0).

In comparison to the control group, NPH1.0 considerably (p < 0.05) increased weight gain (20.75 g), specific growth rate (1.82% day⁻¹), and feed conversion ratio (1.34). Lysozyme activity (30.8 U/mL), respiratory burst activity (NBT: 0.46), and alternative complement activity (ACH50: 162 U/mL) were among the immune markers that showed a substantial increase. Additionally, the nano-treated groups showed decreased lipid peroxidation and increased antioxidant enzyme activity. The NPH1.0 group had the highest survival rate (81.1%) and relative percent survival (RPS: 66.7%) after the Aeromonas hydrophila challenge.

Overall, nano-polyherbal supplementation demonstrated superior efficacy over free herbal inclusion, likely due to improved bioavailability and controlled release of bioactive compounds. These findings suggest that nano-encapsulated polyherbal formulations can serve as a promising, eco-friendly alternative to antibiotics for sustainable health management in aquaculture.