Abstract

Simple SummaryToday the poultry industry is facing mounting pressure to phase out chemoprophylaxis. One of the major threats to the poultry production is coccidiosis, a widespread parasitic disease, commonly controlled by in-feed coccidiostats. The use of immunoprophylaxis with the live anticoccidial vaccines instead of coccidiostats in broiler chickens is a promising approach; however, there is a broad reluctance to use them in intensive production due to a possible transient performance deterioration. Thus, nutritional methods such as dietary modification or herbal extracts used as complements to anticoccidial vaccination may support gaining a satisfactory performance, as well as an improved health status in broilers.Immunoprophylaxis with a live anticoccidial vaccine is regarded as the most promising alternative in place of in-feed coccidiostats in the poultry industry. An experiment, designed as a 2 × 2 × 2 factorial arrangement with 6 replicate pens per treatment and 8 male Ross 308 chicks per pen, was conducted to evaluate the effect of dietary crude protein (CP) levels (21.6% or 23.6%, during the starter phase) and a herbal extract (HE) blend dietary supplementation (Echinacea purpurea, Salvia officinalis, Thymus vulgaris, Rosmarinus officinalis, Allium sativum, Origanum vulgare; 0 or 2 g/kg of feed) on selected hematological, biochemical, redox, and immunological parameters in broilers vaccinated against coccidiosis (anticoccidial vaccine (ACV); none or 1× dose, administered at 1 d of age). The blood samples were collected at 14 d of age. Anticoccidial vaccination (p < 0.05) had a negative effect on immune responses, as shown by a reduced total white blood cells (WBC) count, a reduced lymphocytes count (L), a higher proportion of heterophils (H) in leukogram assessments, as well as H/L-ratio increase. ACV resulted in a decrease in phagocytic activity assessed as decreased percentage of phagocytic cells, phagocytic index and NBT test, as well as in reductions in plasma glucose and LDL-cholesterol concentrations, and increases in HDL-cholesterol and aspartate aminotransferase (AST) activity. In terms of redox status, ACV significantly increased the catalase (CAT) activity and ferric reducing ability of plasma (FRAP), and decreased malondialdehyde concentrations. An increase in dietary CP in vaccinated chickens resulted in higher relative L and lower relative H counts, a lower H/L ratio, a decrease in AST and an increase in CAT activities, but also a decrease in FRAP and concentrations of lipid peroxides. Vaccinated chickens fed a diet supplemented with HE were characterized by higher relative L and lower relative H counts, a lower H/L ratio, and a decrease in AST activity. A change of diet composition, such as an increase in CP content and dietary HE supplementation, can be recommended in broilers vaccinated against coccidiosis, mainly due to its positive effect in alleviating stress levels. However, the simultaneous increase of CP and HE dietary supplementation offered no additional relevant benefits in most of the blood indices of vaccinated chickens.

Highlights

  • Coccidiosis, a parasitic disease caused by the protozoan coccidia of the genus Eimeria, is one of the most common intestinal threats to poultry production, causing annual financial losses of over$3 billion globally [1] and €51 million in Poland [2]

  • The main goal of this study was to evaluate the effects of single and combined nutritional methods, such as increasing dietary crude protein (CP) or/and supplementation with herbal extracts (HE), on selected hematological, biochemical, redox, and immunological blood variables in chickens vaccinated against coccidiosis

  • Data describing blood variables in chickens vaccinated against coccidiosis are limited; the authors decided to discuss many of the obtained results with reports on the impact of coccidiosis

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Summary

Introduction

Coccidiosis, a parasitic disease caused by the protozoan coccidia of the genus Eimeria, is one of the most common intestinal threats to poultry production, causing annual financial losses of over$3 billion globally [1] and €51 million in Poland [2]. The parasites multiply in the intestinal epithelium, leading to diverse effects, from reduced performance and symptoms of a subclinical form of infection such as tissue damage, digestive disorders, malabsorption, and, in cases of severe coccidiosis, death, frequently accompanied by visible clinical signs such as diarrhea and hemorrhage [3,4]. Two to three consecutive infections with circulating oocysts stimulate development of solid immunity [6]. This process sometimes leads to transient performance deterioration by inducing a state of mild subclinical coccidiosis associated with a reduced absorptive intestinal area, malabsorption, and inflammation, as well as secondary enteritis as a result of impaired gut integrity following replication of the vaccine’s oocysts in the intestinal epithelium [7]. The use of live anticoccidial vaccines in broiler chickens is not widespread, due to the risk of insufficient compensation for reduced body weight gain during the relatively short lifespan of chickens [7]

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