enteritis

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Enteritis in Poultry
Gizzard
Pancreas
Duodenum
(E. acervulina)
Jejunum
(E. maxima)
Meckel’s
diverticulum
Ceca
(E. tenella)
Poultry Digestion
• Feed passes from mouth to cloaca
• Normal reflux from posterior gut
– Bile commonly in gizzard,
• bile duct empties in jujenum
– Cecal contents reflux
• Cp normally in anaerobic ceca
• With altered upper intestine Cp
can survive and produce pro-toxins
Enteritis in Poultry
DAMAGE
Damage to proximal
E. acervulina
intestine, like E. acervulina,
Cp
may create anaerobic conditions
in the upper intestine. Cp may
replicate in the upper intestine near
ample trypsin available from the
pancreas. Trypsin may cleave pro-toxin
Cp metabolic by-product producing
MULTIPLY
intestine damaging toxin. Damage to cecal
lining, like E. tenella, may allow proliferation E. tenella
of Cp above normal levels.
What is Enteritis?
Disease of small intestine that destroys the gut wall
Can be caused by Clostridium Perfringens
Produces powerful toxins, which:
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Damage intestinal mucosa
 Impair nutrient absorption
 Can lead to blood loss, toxemia, and death
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Primarily occurs in broilers 2-6 weeks old and
replacement pullets under stress
Threatens birds world wide
Can spread to subsequent flocks
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Enteritis in Poultry
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Disease of multiple etiology
A variety of diseases are associated
with enteritis
Can be chronic or acute
Inflammation of the intestines
Economic effects can be
devastating
Enteritis in Poultry
Conditions commonly associated:
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Coccidiosis
Ulcerative enteritis
Necrotic enteritis
Malabsorption
syndrome
• Stunting syndrome
• Dysbacteriosis
• Spiking mortality
• Mycotoxicosis
• Infections - viral,
bacterial, protozoa
• Nutrient deficiencies
• Immune responses
Enteritis in Poultry
The problem with enteritis:
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Often misdiagnosed
Challenge related
Causative organisms can occur naturally
Can be sub-clinical while eroding performance
Etiology is mostly multi-factorial
Outbreaks cause severe economic losses
Prevention and control is the key
Enteritis in Poultry
Factors contributing to the
impact of enteritis:
 Management/Control
 Environment
 Genetics
 Nutrients
 Presence of infectious agents such as:
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Viruses
Bacteria
Mycotoxins
Protozoa (coccidiosis)
Parasites (nematodes)
The Enteritis Cycle
Toxins
Release
Clostridium
Perfringens
Intestinal
Damage
Enteritis in Poultry
Types of bacterial enteritis:
Clostridial enteritis
Necrotic enteritis
Dysbacteriosis
Ulcerative enteritis
Enteritis Economics
Costs of disease
Costs: 20,000 birds/house
Mortality
Extra Feed
Weight losses
$321.00
$327.60
$230.00
Total
$878.60/
house
+Carcass quality/down grading/
and processing
Also losses
when
mortalities
not detected
DETAIL
Norton, R. A. and Hess, J. B., Auburn University.
Enteritis
Economic Losses
• Necrotic Enteritis can have a significantly
negative economic impact
• Economic losses can escalate within a flock,
along with subsequent flocks
• A preventative strategy can minimize
economic losses, thus resulting in maximum
profitability
Enteritis in Poultry
The role of enteritis
influencing nutrient utilization:
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Ingestion
Digestion
Absorption
Transport
Storage
Mobilization
Metabolism
Reference: Ruff & Allen 1990; Baker 1993
Enteritis in Poultry
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Bacterial enteritis:
Subclinical infection of small intestine
Caused by mainly Gram positive bacteria
Most bacteria exist naturally in cecum and
small intestine
Triggered by intestinal lesions, poor
hygiene and digestion, immune
suppression and other factors
Enteritis in Poultry
Predisposing factors of bacterial enteritis:
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Increased gut viscosity caused by wheat, barley, rye
and fiber diets
Some performance enhancers and chemical
anticoccidials ineffective against Clostridium
perfringens
Stress, crowding, ventilation, wet litter
Immune suppression
Diseases, infections and coccidiosis
Poor hygiene/sanitation
Enteritis in Poultry
Clinical Symptoms of Bacterial enteritis:
 Depression
 Loss of appetite
 Diarrhea
 Dark feces
 Blood in feces can be present
 Increased water consumption
 Wet litter
 Mortalities
The Elanco
Commitment
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Consistent scoring guide
EHTS
MIC - Studies
Ongoing efficacy studies
Global impact assessment
Product Portfolio
"Building the Wall of Protection"
Maxus
Clostridium
Enteritis
Challenge
Feed Composition/
Genetics
Enteritis in Poultry
Controlling Enteritis
 Clean and disinfect buildings
 Maintain dry litter
 Ensure proper ventilation
 Avoid overcrowding
 Reduce immunosuppresive stress and disease
 Evaluate nutritional and fiber content of feed
 Control coccidiosis by using stable programs and
ionophores vs. chemicals
 Use preventative as well as controlling medication
with effective MIC against Clostr. Perfr.
Enteritis in Poultry
Controlling Enteritis
• Productivity Enhancer
– Use a productivity enhancer with
effective MIC against Clostridium
perfringens
– This provides a combination of
prevention and performance
Enteritis in Poultry
Controlling Enteritis
• Develop preventative coccidiosis
control program
– Create stability and immune stimulation
– 2-3 programs/year
– Manage cocci vs. eradication
– Use primarily ionophore vs. chemicals
– Specifically select appropriate ionophore
Elanco Breaks
The Enteritis Cycle
Clostr. Perf.
control
Surmax/
Maxus
Elancoban
Monteban
Maxiban
Tylan
Cocci
control
Toxins
Release
X X
Clostridium Intestinal
perfringens Damage
Monteban
Elancoban
Maxiban
Ulcerative Enteritis
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Caused by Clostridium colinum
Ulcerative enteritis in small intestine
Small yellow foci with hemorrhagic
borders
Often liver lesions
Congested enlarged spleen
Reference: Berkoff, 1997
Necrotic Enteritis
 Caused by Clostridium perfringens Type A or C
 Lesions usually confined to the small
intestine, primarily jejunum and ileum
 Severe necrosis of intestinal mucosa
 Distention due to gas production
 Swollen livers with necrotic foci
Necrotic Enteritis
• Cannot normally survive in the small intestine
since it is an aerobic environment
• Changes can lead to an anaerobic environment in
the small intestine
• Migration from the cecae and proliferation of CP
in the small inestine is associated with protoxin
elaboration
• Trypsin will release the toxin from the pro-toxin
and initiate necrotic enteritis
Dysbacteriosis
• Also known as
– Clostridial enteritis
– SIBO (small intestinal bacterial overgrowth)
– "summer gut"
– "hit the wall"
– "flushing"
– "feed passage"
Dysbacteriosis
• Forced by the economic and genetic
demands, the composition of broiler
feeds have changed.
• This could result in dysbacteriosis
where birds quit eating and growing.
Many broiler producers are faced with
this problem
Dysbacteriosis
• Droppings
– loose threadlike and sticky
• Water/Feed
– lower feed intake with water consumption
normally staying constant
• Consequences
– reduced growth and uniformity
Clostridium
Perfringens
In the cecum:
 Co-exist naturally
In the small intestine:
 Proliferate and release harmful toxins
 Destroys gut wall
 Thickened and inflamed walls
Mortality:
Death loss: 3%/week
Mortality age: 4 weeks
Bird cost: 19¢/bird
Feed cost: 34.5¢/bird
Mortality cost: 53.5¢/bird
Morbidity:
Sick birds: 20%
50-day target weight: 5 lbs./bird
FCR: 2.20 (+.20 worse)
Weight loss: .25 lbs./bird
Extra feed: .84 lbs./bird
Feed cost: $195/ton
Production cost: 23¢/lb.
Nutritional
Influences
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Raw Materials
Wheat/low quality corn
Fishmeal
Bakery byproducts
Enzymes
Rape seed
Fusaria sp.