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Update on
Neosporosis
By Steve Wikse, DVM, DACVP, beef cattle clinician
and Extension veterinarian,
College of Veterinary Medicine, Texas A&M University
Neospora caninum may not
sound familiar, but this organism causes significant economic losses in
the Texas beef industry.
In 1989, it was the
reported cause of abortions on a New Mexico dairy. A flurry of research
followed, especially on California dairies, that declared neosporosis to
be the most common cause of dairy cattle abortions.
This new disease was
heralded as a major breakthrough in our understanding of the most
difficult group of cattle diseases to control: Abortions.
Transmission
Neospora caninum is a coccidian parasite that causes intestinal
infection in canids, members of the dog family (dogs, foxes, coyotes,
etc.). Following initial infection, the canid sheds infective oocysts,
or eggs, in its feces.
Research implicates
coyotes and gray foxes as the probable sources of infection of cattle in
Texas. In Australia, ranchers that noticed abortions after dingoes were
seen in their cattle herds referred to neospora abortions as “wild dog
disease.”
In early research outside
Texas, ranches with dogs were more likely to be infected. Texas studies,
however, found herds with dogs to be less likely to have neosporosis.
Cattle become infected
with N. caninum two ways: Postnatal and congenital. Ingestion of oocysts
in fecal-contaminated feed leads to “postnatal infections.” A cow that
ingests neospora for the first time may later abort. It,s suspected that
a herd mate that licks the aborted fetus or placenta may also become
infected.
Infected cows become
life-long carriers of neospora. A carrier cow passes infection to her
fetus 85 to 95 percent of the time. A very small percentage of these
“congenital infections” lead to abortion, but usually they result in
healthy calves that are also life-long carriers. A heifer calf, however,
who is a healthy carrier of neospora will be many times more likely to
abort her first or second pregnancy than a herd mate who is not a
carrier.
Studies in the Texas Ranch
to Rail Program revealed 59 percent of Texas beef ranches were infected
with neospora. Other work showed 10 to 20 percent of cows are chronic
carriers in beef herds infected with N. caninum.
Losses
Abortions, the main problem caused by neosporosis, occur anytime between
three months of gestation and term, but are primarily concentrated at
five to six months.
Fetuses may die in the
uterus and be reabsorbed or mummified with no external sign of fetal
loss. Stillbirths can also occur. Rarely, calves with congenital
infection are born with incoordination.
Texas A&M University
researchers estimate reproductive effects of neosporosis result in
losses to the Texas beef industry of $13.75 to $23.29 per cow annually.
Studies in Texas have
associated neospora in feedlot steers with reduced growth rates that
could result in annual losses of $13 million.
With increasing awareness
of biosecurity, purebred producers may face future losses from reduced
value of infected replacement heifers.
How do I know if my herd has neosporosis?
Action is recommended when abortion rates in beef herds exceed three
percent.
A very accurate test used
to measure antibodies against N. caninum in the blood can detect chronic
carriers. Finding antibodies to neospora in a cow that aborted, however,
doesn't prove neospora caused the abortion.
Accurate diagnosis of
neospora as the cause of abortions in a herd can be made by comparing
the percentage of cows with antibodies to N. caninum in the group that
aborted to the group that didn't abort. If neospora is the culprit, a
much higher percentage of cows that aborted will have antibodies than
cows that didn't abort.
Control of neosporosis
We do not have a complete understanding of the biology of this new
disease. Various combinations of biosecurity, testing and culling
carrier cows and vaccination are being tested.
There have been no
published independent studies on efficacy of neospora vaccines. Use of a
vaccine in a herd could interfere with diagnosis of neospora as a cause
of abortions and make a test and cull program impossible because
vaccinated cattle may have antibodies for long periods of time.
Consider these suggested
steps to control neospora, minimizing congenital and postnatal
transmission of the disease:
1) Biosecurity: Purchase
only antibody-negative females.
2) Reduce the number of carrier cows in the herd.
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Implement one of these
two methods:
Test breeding females and do not keep offspring of infected animals
as replacement heifers. It,s highly likely they are infected! This
is the most economical control program for a commercial cow-calf
herd.
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Or test breeding
females, cull all infected animals and replace them with animals
that are antibody-negative. This option is best for a purebred herd
using embryo transfer into recipient cows because the value of the
fetus is too high to risk losing. There is no need, however, to cull
infected donor cows. Their embryos are safe to use.
3) Protect feed and water
sources from fecal contamination from canids.
4) Reduce the number of wild canids.
5) Promptly and properly dispose of aborted fetuses and placentas.
I have found testing and
culling infected cows plus reducing the wild canid population is
effective in controlling abortions due to N. caninum in a purebred beef
herd. However, we have created a herd with no immunity against neospora,
vulnerable to abortions from ingestion of oocysts.
It is important to
accompany a test and cull program with an effort to reduce the number of
potential wildlife carriers on the ranch. These considerations indicate
that when an effective vaccine becomes available, vaccination will
become an important part of a neospora control program.
A neosporosis control
program for a beef herd should only be implemented under the direction
of the herd,s veterinarian.
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