US - Researcher Charles Hofacre from the University of Georgia has made the link between maintaining intestinal health of chickens and reducing Salmonella incidence.
Writing in Poultry Health Today, he said that changing consumer preferences in many areas of the world are pressuring an increasing number of producers to raise poultry without the use of growth-promoting antibiotics.
In Europe, this change in management is due to legislation. In the US, it’s due to market pressure, although in the next few years the FDA is expected to require that all growth-promoting labels be removed.
The result in both regions has been an increase in intestinal disease, requiring the increased use of therapeutic antibiotics.
In a recent US survey, veterinarians reported a significant increase in the number of broiler flocks that are experiencing intestinal disease associated with a higher incidence of coccidiosis.
At the same time, the public health community has been exerting considerable pressure on producers to lower the level of pathogens such as Salmonella species that can cause foodborne illness in humans if present on raw poultry meat and in table eggs.
These trends underscore the need for an even better understanding of the chicken’s intestines, its complex ecosystem and its intricate inner workings.
For decades, the scientific community has tended to view the intestines of the chicken and its normal flora as individual units.
We’ve analysed the enzymes, digestive acids or gut villi necessary for digestion, scrutinised intestinal bacteria and studied coccidia and its ramifications.
This approach has been extremely valuable in understanding the role that intestinal health plays regarding bird health. Back in the 1970s, for example, it was shown that “normal” cecal flora bacteria from a healthy hen could prevent a newly hatched chick from being colonised by Salmonella infantis.
What wasn’t recognised, however, was the effect that feed ingredients could have on the ability of the bird’s intestinal bacteria flora to colonise. Also, little was known about the full impact of coccidia, as well as which bacteria are “good guys” or “bad guys.”
We now know that Salmonella is part of the normal flora of healthy chickens. We also know that Clostridium perfringens and its close family are a major part of the normal cecal flora of healthy broilers, but when given the opportunity by coccidial infection, the toxin-producing strains of this pathogen will grow to high numbers in the small intestines of broilers, leading to necrotic enteritis and resulting in poor growth, lost feed efficiency or death.
The normal bacterial flora of broilers fed a corn- and soybean meal-based diet is very different in the small intestine compared to the ceca.
In these birds, the bacterial flora of the small intestine, analyzed by 16 SrRNA gene sequences, is nearly 70 per cent Lactobacillus spp. (lactic acid bacteria) and 10 per cent Clostridiaceae (the family of Clostridia that includes Clostridium and related bacteria).
In contrast, the ceca is nearly 70 per cent Clostridiaceae and just under 10 per cent Lactobacillus spp. This normal flora has also been shown to be significantly affected by feed ingredients — wheat versus corn-soy based — as well as by ionophore anticoccidials or even the quality of the feed ingredients, such as rancid fat or mycotoxins.
It’s important to keep in mind that the ceca (Figure 1) is the source for many of the normal bacterial flora of the small intestine due to retroperistalsis of the intestines.
This reverse movement of cecal contents up into the small intestines occurs on a frequent basis, which makes good cecal health important to the overall health of the bird’s intestines.
The protozoan parasite Eimeria spp. can be found in every commercial poultry house. Different pathogenic species of Eimeria infect different locations in the intestine of the bird and result in either reduced growth or death.
E. tenella can cause higher colonisation of Salmonella in the ceca by damaging epithelial cells, resulting in increased cecal colonisation of Salmonella typhimurium (Figure 2) and a greater risk that Salmonella will be translocated into the liver and spleen of the chicken.
In broilers, Eimeria maxima can wield major insults. It damages epithelial cells in the small intestines, increases cytokine production, then mucus-producing goblet cells and, consequently, increases growth of the mucolytic bacterium Clostridium perfringens, which ultimately results in necrotic enteritis.
Are intestinal disease and Salmonella linked? The answer is “sometimes,” as shown in Table 1.
Broilers that are 42 days old with a severe case of necrotic enteritis do not always have a higher prevalence of Salmonella heidelberg.
However, research has shown that while necrotic enteritis does not necessarily result in higher Salmonella colonisation, increased intestinal disease due to E. tenella in the ceca can. When E. tenella is controlled, S. heidelberg colonisation is significantly less.
Exactly how E. tenella causes increased Salmonella colonisation is not completely understood. Our research has shown, however, that it can be affected by the methods we use to control E. tenella.
The prevalence of Salmonella in broilers vaccinated with a coccidiosis vaccine was 17 per cent lower than in non-coccidia-vaccinated control birds and 16 per cent lower than in ionophore-treated broilers.
It could be theorised that the lower coccidia dose in the vaccine resulted in a rapid immune response to E. tenella early in the broiler’s life, and that by market age, Salmonella was reduced.
Another explanation may be that a rapid host inflammatory response in the ceca makes it more difficult for the Salmonella to colonise.
In summary, the chicken’s intestine is a complex organ that is a balance of bacteria, viruses and protozoa. When a condition such as coccidiosis occurs that alters this delicate balance, then the normal bacteria flora is adversely affected.
Salmonella is a small but normal part of the bacterial flora of a healthy chicken’s intestine. To prevent it from becoming a larger part of the normal cecal flora, it’s critical that all segments of intestinal flora be managed.
We are only beginning to understand the complex ecosystem of the chicken’s intestine, but as we increase our knowledge, we will be better able to minimise intestinal disease and have a broiler that grows more efficiently while also providing wholesome and safer food for consumers.
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