The Old Folks Home

[casportpony]

Cecal worm/blackhead treatment pictures from the Veterinary Parasitology Reference Manual:




-Kathy

 

[casportpony]

Young birds can also get blackhead by something called cloacal drinking.

http://www.thepoultrysite.com/artic...d-organic-poultry-blackhead-in-turkeys-part-1
"Cloacal drinking is the reflexive intake of fluids through the cloaca in order to inoculate the young bird’s immune system with the microbial fl ora of the surrounding environment."

-Kathy

 

[casportpony]

Source: http://www.thepoultrysite.com/artic...d-organic-poultry-blackhead-in-turkeys-part-1
Parasite Management for Natural and Organic Poultry: Blackhead in Turkeys - Part 1

Monday, November 08, 2010​

Covered in this, the first part of a two-part series, are a history of blackhead (histomoniasis) in the US, the life cycle of the pathogen, transmission of infection and diagnosis of the disease. By Terrell Spencer, agriculture specialist with National Center for Appropriate Technology (NCAT) and published by the US National Sustainable Agriculture Information Service, ATTRA.
Blackhead disease, also called histomoniasis, is a serious disease capable of decimating turkey flocks and negatively affecting other poultry. Caused by the protozoan Histomonas meleagridis, Blackhead can also have a significant economic impact on chicken production. Recent research has revealed new information about the bird-to-bird transmission of blackhead through a previously unknown pathway – cloacal drinking. This publication addresses the new research as well as focusing on the history, life cycle, diagnosis, prevention, and management of blackhead disease, primarily in turkeys. The effect Histomoniasis has on other poultry species (chickens, gamebirds, and peafowl) is also discussed briefly.

Photo by Jeannette Beranger, American Livestock Breeds Conservancy​

History of Blackhead in the United States

The first reported case of blackhead disease in the United States occurred in Rhode Island in 1893, possibly carried to the US by pheasants imported the decade before. Blackhead then spread throughout the US, ravaging turkey flocks in New England and following production like a faithful shadow. Outbreaks of blackhead rapidly spread down the Eastern Seaboard, into the Midwest and the far western United States. Despite the growing demands of an expanding population, turkey production dropped from 11 million birds in 1890, just years before the first blackhead outbreak, to an average of 3.7 million turkeys per year during the 1910–1920 decade.

The development of antihistomonal drugs in the 1960s led to a dramatic decrease in blackhead-related turkey deaths. Unfortunately for poultry producers, the drugs developed to treat Histomoniasis were eventually banned (McDougald, 2005). As more farmers enter into free-range and pastured-poultry systems, often combining multiple poultry species on the same land, blackhead outbreaks may be of increasing concern and economic impact.
The Life Cycle and Infectious Pathway of Blackhead

Blackhead occurs when the causal agent, the protozoan Histomonas meleagridis, gains access to the caeca, or blind pouches of the intestines. Blackhead infects poultry using three separate pathways that will be examined in detail in this publication:

• Ingestion of soil or earthworms containing eggs of the caecal worm Heterakis gallinarum, infected with H. meleagridis
• Uptake of H. meleagridis directly into the lower digestive tract through the process of 'cloacal drinking'
• Oral ingestion of live H. meleagridis protozoa when stomach is not acidic enough to kill the pathogen.

*
"Cloacal drinking is the reflexive intake of fluids through the cloaca in order to inoculate the young bird’s immune system with the microbial fl ora of the surrounding environment."​

Once access into the digestive tract has been achieved, H. meleagridis multiplies in the caeca and attacks the tissues of the caecal walls. As the disease progresses, a cheese-like, foul-smelling, yellow substance fills the caeca. This substance can vary in form from a hardened plug to more liquid in nature, and is composed of dead caecal cells and blood. In highly susceptible birds such as turkeys, the blackhead protozoa then enter the bloodstream through the damaged caeca and are deposited into the liver, where they do even more damage, creating signature 'bulls-eye' zones of necrosis (dead tissue). Occasionally, H. meleagridis also enters into other organs such as the kidneys, lungs, heart and brain.

Blackhead does not kill the infected bird, and the disease requires a secondary bacterial infection to be virulent and eventually fatal. Escherichia coli, Bacillus subtilis, and Clostridium sp. are some of the bacteria noted in the secondary infections that caused death (McDougald, 2005).

Figure 1. Turkey digestive tract
By Terrell Spencer, NCAT
Poultry Species as Blackhead Reservoirs

Among poultry species, there are varying degrees of susceptibility to blackhead. Some birds, such as pheasants, ducks, and geese, are nearly immune to the effects of blackhead. Chickens are somewhat resistant to the disease, while turkeys and peafowl are extremely vulnerable and have high mortality rates when infected with H. meleagridis. Experiments have shown that infected pheasants and chickens are capable of transmitting blackhead to young turkeys (Lund and Chute, 1972).

Traditional wisdom dictating that chickens and turkeys not be raised together is most likely based on experience with Histomoniasis. Chickens are excellent hosts for the caecal worm that H. meleagridis uses as a vector. It is not unreasonable to assume that the majority of blackhead outbreaks, especially among small, diversified farmers, can be traced back to chickens.

Among chickens, laying hens and breeding roosters have the potential to shed many more caecal worm eggs than broilers due to age differences in production – a broiler is usually slaughtered at six to 12 weeks (six to eight weeks for Cornish cross; 12+ weeks for slower-growing breeds), while a hen may be kept for two or more years. The caecal worm in question, H. gallinarum, takes approximately a month to mature and begin shedding eggs. This time frame, coupled with the two to four weeks chicks spend in the brooder, allows little to no time for a broiler to contaminate the soil with caecal worm eggs. On the other hand, a hen in production for several years can seed tremendous amounts of caecal worm eggs into the soil during her lifetime.

Figure 2. Blackhead life cycle
By Terrell Spencer, NCAT
Blackhead Transmission through Caecal Worm Eggs and Soil

The indirect ingestion of blackhead protozoa through consumption of earthworms and caecal worm eggs is the most commonly known means of contracting histomoniasis. When exposed to the elements, the blackhead pathogen is short-lived, being highly susceptible to environmental stresses—sunlight, wind, and temperature extremes. H. meleagridis has overcome this limitation through infecting caecal worm eggs, as these eggs are extremely hardy.

The eggs can remain viable up to three years in the soil; in addition, caecal worms are very common in many poultry species, especially chickens. Contaminated caecal worm eggs are consumed when birds ingest soil either intentionally or during foraging. Earthworms also act as an intermediate vehicle for spreading the disease, as the earthworms consume soil containing the infected caecal worm eggs. The earthworms, in turn, are readily consumed by all types of poultry.

An ill turkey showing classic signs of sickness: lethargy (as seen by the closed eyes), lack of inquisitiveness, retracted neck, and drooping wings
Photo by Terrell Spencer, NCAT​

Horizontal Spreading of Blackhead through Turkey Flocks

The contraction of blackhead disease by turkeys has traditionally been attributed solely to the vectoring of the disease through caecal worm eggs and earthworms. However, recent research has shown that turkeys can infect other members of the flock directly through a process known as cloacal drinking (Hu et al., 2004, McDougald and Fuller, 2005).

Unfortunately for both the turkey and the farmer, the turkey immune system has little to no defence against blackhead, and the blackhead protozoans that enter through the cloaca multiply unrestricted. Uptake of H. meleagridis through the cloaca occurs when a turkey's cloaca comes into contact with contaminated faecal matter, most likely while resting. The pathogenic protozoa are then drawn into the digestive tract through the cloacal drinking process and migrate to the caeca, where infection occurs.

Historically, contraction of blackhead through caecal worm eggs has explained the beginning of outbreaks in poultry flocks but failed to account for the rapidity with which blackhead spreads throughout the flock. The lack of an explanation for the continued transmission of histomoniasis through a flock, despite the exclusion of earthworms and soil containing caecal worm eggs, has been a source of frustration and setback for farmers. Now, thanks to recent research findings, this gap in the basic understanding of the blackhead lifecycle has been closed.

Regular (on left) and blackhead-infected (right) turkey droppings. The tell-tale sulphur-coloured droppings indicative of a blackhead infection are clear
Photo by Terrell Spencer, NCAT​

Oral Ingestion and Contraction of Blackhead

When the turkey is given a constant supply of food, experiments have suggested that H. meleagridis ingested orally is not capable of surviving the passage through the stomach—more specifically, the proventriculus – due to the stomach acids produced. Therefore, blackhead is typically not transmitted orally (Hu et al., 2004). When a turkey feeds, acid is produced to aid in digestion, and this acidification destroys H. meleagridis. After six hours of not feeding, however, the lack of stomach acid allows the turkey's gastrointestinal tract to go from being acidic to neutral in pH, and this change can allow H. meleagridis to survive oral ingestion (McDougald, 2010).
Diagnosis and Symptoms of Infected Turkeys

Physical symptoms of blackhead

• Mustardy, yellowish coloured stool— varies from a watery, foamy diarrhea to a dry, solid black stool with waxy yellowish streaks
• Bulls-eye-shaped necrotic pitting on liver
• Caeca filled with yellow, cheesy substance

Behavioural signs of blackhead

• Lethargy
• Drooping wings
• Dry, ruffled feathers
• Suppressed appetite, increased thirst
• Decreased/lack of flight distance (distance the turkey keeps between itself and humans)
• Decreased/lack of inquisitiveness

above: On-farm dissection showing characteristic liver necrosis due to blackhead
below: Enlarged caecum filled with yellowish necrotic tissue in a blackhead-infected turkey
Photos by Terrell Spencer, NCAT

​

Blackhead infections vary in the time required to manifest signs, depending on the pathway and initial amount of infection. Signs of infection begin to appear seven to 14 days after exposure. In turkeys, the yellow-coloured faecal matter is the definitive symptom of blackhead disease. From personal experience, when behavioural symptoms become apparent, mortality usually occurs in one to three days. Positive diagnosis of dead birds can be easily obtained through a post-mortem dissection (necropsy) by the farmer. The abdominal cavity can be opened and the caecum examined. The chest/breast can then be split down the middle using heavy duty shears or tin snips to reveal the liver. Once the caeca and liver are exposed, the organs can be inspected for necrosis as described above.

Despite the descriptive name of the disease, blackhead rarely, if ever, causes the head of the infected bird to darken or turn black, so the common name is somewhat of a misnomer (Davidson and Doster, 2010).

Turkeys demonstrate the most severe symptoms of any poultry from H. meleagridis infection and, consequently, the highest mortality rates. Indeed, expectations of 80 to 100 per cent mortality are plausible in turkey blackhead outbreaks. Chickens are usually able to stop the disease before destruction of the caeca and degradation of the liver take place. Infections in chickens often are undiagnosed, though in chickens the impact of blackhead has been described as being at least as severe as coccidiosis, and in some broiler breeder flocks, mortality may reach as high as 10 per cent (McDougald, 2005). Bobwhite quail farmers have also occasionally experienced outbreaks of blackhead disease, especially when these growers utilise old chicken houses.

Edited to add source

 

[chickwhispers]

That's so awesome Kathy! Thanks!

 

[casportpony]

More blackhead pictures:









-Kathy

 

[chickadoodles]

Thanks Kathy! I was looking online at Jefferspet and they have Benzmidazoles.

 

[casportpony]

Thanks Kathy! I was looking online at Jefferspet and they have Benzmidazoles.

Any of them will work. Valbazen dose for the cecal worm is 0.08 ml per pound and repeat in ten days.

-Kathy

 

[chickadoodles]

Quote: Thank you so much Kathy for post all of this for all of us. I called local vet's and the state vet and the diagnostic lab in Auburn, AL. and did not get nearly as much help and you have just posted! Thank you and bless you for all this and for being so kind!

 

[casportpony]

I keep several forms of metronidazole on-hand:

• 200 mg Flagyl tablets
• 250 mg Fish-Zole tablets
• 100 mg Meditrich tablets
• 50mg per ml liquid suspension

We shop around for the best price and try to think of other things we might need to get free shipping. The Flagyl and the liquid are hard to find, but they can be found. Of course a vet can write a prescription for either of those.

My very large turkeys would get 800-1000mg of metronidazole
My adult male peafowl would 400mg of metronidazole
My adult female peafowl would get 200-250mg of metronidazole.

The younger ones need to be weighed and I dose them at about 60mg/kg (60mg per 2.2 pounds). This is when having the liquid is handy... One can dose the smallest of chicks very effectively with it.





The AAAP Avian Disease Manual says this:
Treatment - There is currently no approved medication for treatment of histomoniasis in food animals. Small groups of birds not being raised for consumption can be effectively treated individually with metronidazole at a dose of 30 mg/kg orally SID for 5 days. Antihelmentic treatment may help suppress the population of cecal worms.


Plumbs Veterinary Drug Handbook says this:
For susceptible infections (anaerobes):a) 50 mg/kg PO once daily for 5 days (Bauck and Hoefer 1993


From Clinical Avian Medicine
http://avianmedicine.net/content/uploads/2013/03/09_therapeutic_agents.pdf


I've also heard of vets prescribing metronidazole at 60mg/kg (60mg per 2.2 pounds) twice a day for five days. FWIW, I recently gave my mature BBW 1000mg (5 200mg Flagyl) and it looks like she may recover.

-Kathy

 

[casportpony]

Metronidazole locally


@zazouse found this one at Petsmart or Petco, so one might find it there. This product had 10 packs that contain 250mg metronidazole and 75mg praziquantil (tapeworm medicine). Each pack contains the same amount of metronidazole as one Fish-Zole tablet. Before you buy it, verify that metronidazole is listed on the box.

Fish-Zole is cheaper, but this will help those that need to medicate their birds right away.
http://www.petsmart.com/food-care/s...d36-5112949/cat-36-catid-300046?_t=pfm=search




-Kathy