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Alternatives to Antibiotics in Animal Production

Alternatives to Antibiotics in Animal Health

Published: June 18, 2012
By: Sandra Avant (Public Affairs Specialist- Agricultural Research Service - USDA)
In the early 1940´s the first antibiotic— penicillin—was used successfully to treat bacterial infections and to save thousands of lives, including those of wounded World War II soldiers. Today, antibiotics, which target microorganisms like bacteria, fungi, and parasites, are essential for human and animal health. They continue to save lives as well as increase animal production and efficiency.
However, exploration of alternative strategies to mitigate the use of antibiotics is needed in view of growing concerns about antibiotic resistance to certain strains of bacteria and increasing restrictions on their prudent use in animals. Some of the latest scientific breakthroughs and technologies, which provide new options and alternative strategies for enhancing production and improving animal health and well-being, will be presented at an international symposium, "Alternatives to Antibiotics: Challenges and Solutions in Animal Production," September 25-28, 2012, at the headquarters of the World Organization for Animal Health (known as "OIE") in Paris, France.
"A number of the new technologies have direct applications as medical interventions for human health, but the focus of the symposium is animal production, animal health, and food safety," says Cyril Gay, national program leader for animal health with the Agricultural Research Service in Beltsville, Maryland. "The result of this symposium will be an assessment of new technologies for treating and preventing diseases of animals and recommendations that will advance strategies for growth promotion and health in livestock, poultry, and aquaculture."
Over the years, ARS scientists have developed and patented new technologies that could aid in reducing antibiotic use. Some of those tools have been shown to be effective in treating mastitis in cattle, controlling foodborne enteric bacterial pathogens, creating antimicrobials that kill disease-causing bacteria, and protecting poultry against parasites.
Proven Alternatives To Fight Poultry Diseases
Avian immunologist Hyun Lillehoj, at the ARS Henry A. Wallace Beltsville [Maryland] Agricultural Research Center (BARC), has devoted her career to developing alternative-to-antibiotics strategies to control infectious diseases in poultry.
Through partnerships with industry, international scientists, and colleagues in the BARC Animal Parasitic Diseases Laboratory, Lillehoj has demonstrated the effectiveness of using food supplements and probiotics, molecules produced by cells of the immune system, and phytonutrients to fight poultry diseases like coccidiosis—a parasitic disease that causes annual losses of more than $600 million in the United States and $3.2 billion worldwide.
Food supplements, probiotics, and phytonutrients have been shown to help fight some poultry diseases.
Alternatives to Antibiotics in Animal Health - Image 1
Left to right, avian immunologist Hyun Lillehoj and visiting scientists Duk Kyung Kim and Hong Yeong Ho identify host defense genes of broiler chickens infected with protozoan parasites.
Alternatives to Antibiotics in Animal Health - Image 2
Lillehoj is now applying similar technology to develop alternatives to treat enteric (intestinal) bacterial infections caused by Clostridium, a pathogen associated with necrotic enteritis in poultry.
"My work over the last 27 years at ARS has involved trying to figure out how to grow poultry without using drugs and enhance their innate immunity," Lillehoj says. "One of those strategies is genetic improvement. We´ve been working to identify genetic markers associated with enhanced innate immunity to enteric pathogens."
Lillehoj and her colleagues have identified several chicken genetic markers that influence parasitic diseases, and she hopes to eventually identify genetic markers for use in selecting and breeding birds for enhanced disease resistance.
The team is also studying innate immune molecules that have antimicrobial activity. During an infection, chickens respond to pathogens by producing immune molecules, some of which are antimicrobial peptides or proteins, Lillehoj explains. These tiny proteins can kill pathogens, improve host immune responses, and promote growth of beneficial gut bacterial populations.
"If we can identify all the molecules that enhance immunity, translate critical cross talks between these antimicrobial molecules and the host´s immune system, and most importantly, figure out how to activate them at the proper time when birds are immature, I think we´ll really have a way to use the bird´s own immune system to do the job."
Lillehoj and her colleagues have identified and applied for a patent for one of the immune molecules, called "NK lysin."
"NK lysin is produced by host lymphocytes that are activated by parasites during coccidiosis infection in the gut." Lillehoj says. "We cloned the chicken NK lysin gene, made biologically active recombinant NK lysin protein, and demonstrated for the first time that this chicken recombinant antimicrobial protein (host defense molecule) not only kills chicken coccidia, but also kills Neospora and Cryptosporidia, which infect large animals and humans, respectively."
A private company is investigating to see whether chicken NK lysin can be developed into a product that targets and kills chicken intestinal parasites, she says.
Lillehoj also studies the effects of phytochemicals derived from plants such as safflower, plums, peppers, cinnamon, and green tea in enhancing the chicken´s immune system. In addition, Lillehoj is partnering with commercial company leaders to examine the beneficial effects of probiotics—live, nonpathogenic bacteria that promote health and balance of the intestinal tract. (See "The Poultry Pantry: Plums, Probiotics, Safflower, and Tea," Agricultural Research, May/June 2009.)
Vitamin D: A Promising Treatment for Mastitis
Antibiotics are currently used to treat mastitis, the most costly and common disease of dairy cattle. But an alternative treatment may soon be available.
Scientists at the ARS National Animal Disease Center (NADC) in Ames, Iowa, have found that a natural remedy—vitamin D—can delay and reduce the severity of mastitis infection in dairy cattle.
A disease of the mammary gland, or udder, mastitis costs the U.S. economy $2 billion each year. It reduces milk production, quality, and income and can result in culling of infected cows from a herd.
"Research shows that specific levels of vitamin D need to be in the bloodstream to prevent conditions like rickets, or softening of the bones," says molecular biologist John Lippolis, in the NADC Ruminant Diseases and Immunology Research Unit. "A higher level needs to be in the blood for proper immune function. But generally, milk has very little vitamin D," which is one reason it is fortified during processing.
Lippolis and his colleagues at NADC examined the role of vitamin D in altering the response of the cow´s immune system to Streptococcus uberis, a mastitis pathogen. They used a natural form of vitamin D, prehormone 25-hydroxyvitamin D, that´s found in blood, but not in milk.
One group of cows received vitamin D by infusion directly into the infected quarter of the mammary gland, and another group received no treatment. Data was collected on feed intake, bacteria counts in milk, milk production, serum levels, and body temperature for all animals.
Animals treated with vitamin D had a significant reduction in bacterial counts and fewer clinical signs of severe infection than untreated cows. In the early phase of the infection, as vitamin D reduced the bacterial counts, milk production was greater in the treated animals than in the untreated ones.
Alternatives to Antibiotics in Animal Health - Image 3
In addition, scientists looked at bovine serum albumin (BSA) in milk and performed somatic cell counts. "BSA is a protein in blood that becomes a marker in milk to indicate when an infection gets really bad," Lippolis says. "The barrier between the milk and the blood can become a little bit degraded, indicating the severity of the disease." Somatic cells are immune cells that enter the mammary gland to fight infection and are an important means of determining the quality of the milk.
Lippolis says findings demonstrate that vitamin D affects the immune system and suggest that it also may help reduce the use of antibiotics in treating mastitis. Vitamin D also has the potential to decrease other bacterial and viral diseases, such as respiratory tract infections, he adds.
"We hope this natural form of vitamin D will be a means to reduce antibiotic use either by using this in tandem with antibiotics and shortening the duration of antibiotic use, or as a means against some bacteria that are resistant to antibiotic treatments."
Effective Compounds Reduce Bacteria
In other research, compounds proven to be effective in killing foodborne bacteria may hold potential for treating piglets and calves.
Microbiologist Robin Anderson and his colleagues at ARS´s Food and Feed Safety Research Unit in College Station, Texas, received a patent for their invention, which provides a method for controlling foodborne intestinal bacterial pathogens in animals. Chlorate and a certain class of chemicals called "nitro compounds" were shown to substantially reduce or eliminate the important foodborne pathogens Salmonella and Escherichia coli O157:H7.
Salmonella is estimated to cause more than 1.3 million cases of human foodborne disease each year, costing economic losses of $2.4 billion. Salmonella, as well as certain E. coli strains, can also cause substantial losses to the swine industry due to enteric or systemic diseases of pigs.
Salmonella is estimated to cause more than 1.3 million cases of human foodborne disease each year.
Alternatives to Antibiotics in Animal Health - Image 4
In previous research, Anderson mixed a chlorate-based compound into water or feed and gave it to cattle 2 days before the animals were harvested. The compound, which has since been licensed by a private company, was highly effective in reducing E. coli. Bacterial levels fell from 100,000 E. coli cells per gram of fecal material to 100 cells per gram. Scientists were equally successful in using chlorate to reduce Salmonella in poultry. Turkeys and broiler chickens received the compound 48 hours before they were processed. In turkeys, the incidence of Salmonella dropped from 35 percent to 0, and from 37 percent to 2 percent in broiler chickens.
E. coli causes significant economic losses to livestock industries.
Alternatives to Antibiotics in Animal Health - Image 5
In a more recent study, Anderson and his team looked at using certain nitro compounds—organic compounds that contain one or more "nitro groups"—as a means of controlling foodborne bacteria. A nitro group consists of three atoms—one of nitrogen and two of oxygen—that act as one. The compound can be liquid or solid.
"We collected fresh pig feces, which harbor a mixed population of gut bacteria, and used the bacteria as a gut-simulation model to find out how the nitro compounds would work," Anderson says.
Salmonella or E. coli were treated with or without chlorate and with or without an appropriate amount of nitro compound. At various intervals, data was collected on the number of bacteria to determine the treatment´s effect on pathogen survivability.
"We found that chlorate by itself had significant bacteria-killing activity against E. coli and Salmonella, and that activity was enhanced 10- to 100-fold with addition of the nitro compound," Anderson says. "We also found that the nitro compounds by themselves had significant bacteria-killing activity, and that activity was more persistent than the chlorate activity by itself."
The nitro and chlorate compounds together were the best treatment. "The two compounds were synergistic," Anderson says. "They worked well together by enhancing the efficacy of the other."
Scientists hypothesize that this method could have applications for young animals that have been recently weaned and are particularly susceptible to bacterial infections.
"This could be used instead of certain antibiotics that are commonly used to treat diarrheal infections in young pigs and cattle," Anderson says.
Designing Antimicrobials To Destroy Bacteria
Creating targeted antimicrobials is the focus of David Donovan, a molecular biologist in BARC´s Animal Biosciences and Biotechnology Laboratory. Research conducted by Donovan, in collaboration with university, industry, and federal scientists, has demonstrated that phages—viruses that infect bacteria—produce enzymes that can be used to kill pathogens like methicillinresistant Staphylococcus aureus.
"These enzymes—known as ´endolysins´— have molecular domains that can be isolated and will act independently of their protein surroundings," Donovan says. "They can be shuffled like cars in a train, resulting in an antimicrobial that targets just the pathogens of interest, significantly reducing the odds that nontargeted bacteria will develop resistance."
Endolysins destroy bacteria by breaking down their cell walls, he explains. Antimicrobials are created by joining key domains from multiple cell-wall-degrading endolysins. The novel enzymes have been successful in killing streptococci and S. aureus.
Addressing Animal Health
As the demand for animal food products increases to meet the nutritional needs of a growing world population, finding alternative strategies to prevent and control animal diseases has become a global issue and a critical component of efforts to alleviate poverty and world hunger, Gay says.
This year´s symposium will provide an opportunity for an international community of scientists, veterinarians, and public policymakers to learn more about the pros and cons of using alternative biotherapeutics to reduce bacterial pathogens associated with food animals, he says.
"The major issue to be addressed is novel biocontrol approaches for reducing bacterial pathogens in food animal production that employ strategies specifically geared to reduce or eliminate drug-resistance development," Gay says.
Alternatives to Antibiotics in Animal Health - Image 6
Nitro and chlorate compounds may be used in the future to kill disease-causing bacteria in the gut of calves and other young livestock.
Alternatives to Antibiotics in Animal Health - Image 7
This research is part of Animal Health (#103), Food Animal Production (#101), and Food Safety (#108), three ARS national programs described at www.nps. ars.usda.gov.
Acknowledgement
This article was originally published in the U.S Department of Agriculture´s science magazine, Agricultural Research, May/June 2012. Engormix.com thanks for this huge contribution. 
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Authors:
Sandra Avant
USDA - United States Department of Agriculture
USDA - United States Department of Agriculture
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Chlodwig FRANZ
University of Veterinary Medicine Vienna
University of Veterinary Medicine Vienna
29 de enero de 2013

As regards "phytochemicals" or "phytogenics" we have published review articles on essential oils in Flavour & Fragrance Journal 2010 and in British Poultry Sci. generally on phytogenics also 2010. If someone would like to have a pdf don't hesitate to ask at our institutes secretariat: alexandra.smetaczek@vetmeduni.ac.at

Prof.em.Chlodwig FRANZ, Vetmeduni Vienna

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Alloui Nadir
20 de junio de 2012

Thank you for the article. Indeed antibiotics as growth promoters are misused by manufacturers of animal feed. Despites being banned in some countries, they are still used in other regions. Their evil uses resulting from antimicrobial resistance in animals and indirectly, it also induce problems on human health.
For 20 years, researchers have already determined products that can replace these antibiotics (AGP)
-Probiotics
-Prebiotics
-Symbiotics
-Phytogenic (phytobiotics)
The use of these products can improve performance of production and animal health.

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clement saminathan
8 de febrero de 2015
Dr i like to information about FMD deases to my cow and what kind of drug can be use for pregnant and un pregnant cows.tq
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Dr. Venkatachalam Ramaswamy
17 de febrero de 2013

The article is more informative to everybody in human or veterinary Medicine. But, I believe the use of Bacteriophages has/ have been practiced in some parts of the world, especially in eastern Europe (Former Communist Countries) and some parts of former USSR. The present article dealt with "endolysins" derived from these phages, but instead, the whole bacteriophages can be used if they are not harmful and I thing they are pathogenic only to the respective bacterium.
This phage treatment can be think of in treating all the bacteria related infections in birds, animals and if proved harmless in them, can be used in humans as well.

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Erdinc Ikizoglu
19 de junio de 2012

We have precipated olive pulp in olive vegetation water with natural minerals such as zeolite and then dried. Antibacterial dilution test (E. Coli) has been applied with the obtained powder. Total bacterial count has been decreased from 10E6 to 10E2 within 15 minutes. The obtained powder includes about 15% organics, as 3% phenolics and 5% saccharides. Is it possible to use it as alternative to antibiotics?

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Dr.Nd.Nurul Amin (Dr.N. Amin)
19 de junio de 2012

"Alternatives to Antibiotics in Animal Health" A right article in the right time.

Very desired and an appropriate article of the time demand throughout out the high humid countries; so far I believe. Thanks to the author for such a nice presentation and most practical research .Abuse of different types of antibiotics is rapidly increasing worldwide which ultimately destroying the Dairy,Poultry and other food Animal industry tremendously .We must find out the alternatives of Antibiotics from the natural sources.I personally a Vet practitioner both for poultry and Dairy in Bangladesh and have been engaged in this line for more than 30 years.

Mastitis is a major problem in the dairy cattle in Bangladesh.And I've a lot of better and bitter experience on this regard.

In case of Mastitis- "The early detection and the early intervention" is one of the important tool for getting good result as it is compared to- the on set of a sudden fire in any the house or a snake bite to any individual. How much the time could we kill to take immediate necessary fruitful action from keeping the life or properly saving from the sure damage!!! Equal emphasis have to be given to protect the life of animal and poultry from Mastitis, E.Coli & Salmonella without killing time.And in this regard other than Antibiotics probiotics or any other natural protective tools will be most appropriate.

in case of Poultry industry Natural Iron in water and Cal.Carbonate are being considered to be the most important predisposing factor for entertainment of E.Coli and Salmonella which could be avoided by installing A high productive water treatment plant in the poultry industry " A Reverse Osmosis Water Treatment Plant" incorporated with an ultra-Violet ray machine.Due to content of UV tool no chance of survival of any pathogen passes through the water from the nature.The machine filter will filtrate the impurities like Iron and other water content hard particles as well. And this will ultimately reduce the abuse or misuse of Antibiotics in a remarkable quantity in the poultry industry as well as will enhance the FCR besides the administration of Author's invented Nitro Chlorate compounds.

Again I like to pass my gratitude to the Author for presenting such types of important articles. On the other hand I will humbly ask the author or the reader and scientist explore any article if there is any easy solution for refining the the drinking water from its natural impurities for use in the poultry/dairy industry other than using any chemicals?

Regards

Dr.Mohammad Nurul Amin DVM
Principal Scientific Officer
Regional Animal Disease Investigation &
Diagnostic Laboratory,Joypurhat
Dept.of Livestock Services, Bangladesh

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