ABOVE: While the researchers were able to replicate necrotic enteritis for research purposes. Their next challenge lies in fully understanding how clostridium perfringens infects poultry and causes its devastating effects.
Researchers at the University of Saskatchewan’s Western College of Veterinary Medicine are working to develop a vaccine for necrotic enteritis, a devastating disease that causes enormous financial losses for poultry producers.
Necrotic enteritis, an intestinal disease caused by the bacteria clostridium perfringens, primarily affects broiler chickens – poultry raised for meat – at a young age when their immune systems are immature.
The disease causes the death of their intestinal lining and severely compromises their health.
One of the most common infectious diseases of poultry, necrotic enteritis has a significant economic impact on the poultry industry.
University of Saskatchewan Western College of Veterinary Medicine PhD student Hemlata Gautam said: “Every year necrotic enteritis costs the global poultry industry $5 billion to $6 billion because of reductions in performance and the cost of disease treatment.”
Though necrotic enteritis had been previously controlled by adding antibiotics to poultry feed, Canada and several other countries voluntarily stopped the practice of adding preventive antibiotic drugs in feed.
That move was done in response to consumer preferences and to work toward reducing antimicrobial resistance.
However, withdrawing antibiotics has caused a re-emergence of necrotic enteritis, and multiple predisposing factors make it difficult to control the disease without their use.
Working with Dr Susantha Gomis – a professor in the WCVM’s Department of Veterinary Pathology – Hemlata Gautam and other researchers are focused on understanding the mechanisms of necrotic enteritis so they can develop prevention strategies and establish cost-effective alternatives for poultry producers.
“We are trying to develop prevention strategies such as vaccination and probiotic use while considering all aspects of the disease,” Ms Gautam said.
Developing prevention methods that allow producers to protect their poultry from infection without affecting public health isn’t an easy task.
In order for the researchers to study the clinical aspects of the disease, they first needed to develop an animal model that would consistently respond to infection in the same way a bird in the field would respond.
Developing an animal model was a difficult job that demonstrated the complexity of the disease and the factors that had to be taken into account while generating new control strategies.
Ms Gautam and the research team spent a year performing live animal trials before they successfully developed an animal model for the disease.
“Through our animal trials, we understood that the disease could only be reproduced consistently in the lab after considering all of the factors together,” Ms Gautam said.
She added that they had to consider multiple factors, such as the strain of the bacteria and the bird’s immune status.
The group eventually produced a model where the birds were first infected with a virus that weakened their immune system and made them more susceptible to infection by clostridium perfringens.
Once the birds were exposed to the bacteria, they consistently developed a clinical infection similar to that which would occur in a poultry barn.
While the researchers were able to replicate the disease for research purposes. Their next challenge lies in fully understanding how clostridium perfringens infects poultry and causes its devastating effects.
Though they have identified various toxins released by the bacteria and can see their effects in the intestine, the scientists are still working to understand the infection mechanism of the disease; so they can use that information to develop prevention strategies.
It’s not an easy task, and Ms Gautam pointed out that the difficulty of determining ways to prevent necrotic enteritis exemplifies the challenge of producing healthy animals without using antimicrobials to prevent disease.
“The development of a prevention strategy has limitations, not only on cost but also on labour and instrumentation,” she said.
“The prevention technique has to be practically implementable in the field”.
“This practical aspect does put constraints and consideration in research activity”.
“Our lab is completely acquainted with poultry field conditions in Canada and is working towards providing practical and affordable solutions for producers.”