[FEL-L] Re: Avian influenza: An emerging feline threat?

[Ray]

Cats were found to be infected by it during the European cases several 
months before this June article was written. It was also a problem the year 
before in Asia. Some tiger deaths were blamed on it before that.

The media at a couple of points tried to gin up panic about this, just as 
they tried to build up fear over SARS and civet cats. The result was the 
killing of a lot of cats as ignorant and panicked people reacted.

It was also suggested that zoos and other operations with captive cats 
should be closed (at least their cat operations) in any avian flu outbreak.

"Bird flu" in its current incarnation has been around since 2003. I think 
the media is disappointed it hasn't become the horror it was hoped. It would 
have given governments so much power against animal owners...

Not that they need any more.

Ray

----- Original Message ----- 
From: <gemojungle at aol.com>
To: <felines-l at catbox.com>; <Phoenix_Exotics at yahoogroups.com>
Sent: Saturday, September 30, 2006 8:56 AM
Subject: [Phoenix_Exotics] Avian influenza: An emerging feline threat?



        Avian influenza: An emerging feline  threat? (Update)
Until recently, it  was thought that cats couldn't get the flu. But the new
strain of avian  influenza first seen in Asia and now arriving in Europe 
can—
and  does—infect cats.
    <PUBLICATIONDATE  Jun 1,  2006 <AUTHOR>  By: _Margaret  C. Barr, DVM,
PhD_ (http://www.vetmedpub.com/vetmed/author/authorInfo.jsp?id=22910)
Veterinary Medicine
(javascript:rightslinkPopUp('Veterinary+Medicine','Avian+influenza:+An+emerging+feline+threat?+(Update)','2006-06-01','Margare
t+C.+Barr,+DVM,+PhD','336243');)
Margaret C. Barr, DVM, PhD
College of Veterinary Medicine
Western University of  Health Sciences
Pomona, CA 91766
Editors' note: This is an excerpt of  a peer-reviewed article that 
originally
ran in Veterinary  Medicine's October 2005 issue. It has been updated to
include  information about the continued spread of avian influenza in cats.
HISTORICALLY, cats have been considered  to be resistant to influenza virus
infections. Cats can be experimentally  infected with human H3N2 virus, but 
the
infection is usually  subclinical.1 Although cats live in close contact with
people,  feline influenza outbreaks have not been recognized. Whether
human-to-cat  transmission is possible is unknown, but it clearly has not 
been
associated with disease in the past. However, we now know that cats  can—and 
do—
become infected with the H5N1 strain of avian influenza virus.
Reported cases in nondomestic and  domestic cats
In December 2003, two tigers and two  leopards in a zoo in Thailand died
after exhibiting signs of fever and  respiratory distress.2 The animals had 
been
fed fresh poultry  carcasses from a local slaughterhouse. Although the
diagnosis had not been  made at the time, chickens in the area were dying of 
H5N1
influenza virus  infections. Postmortem examination of tissues from the 
tigers and
leopards  revealed fibrinous pneumonia, multifocal hemorrhage in internal
organs,  and encephalitis. Immunohistochemistry, reverse 
transcriptase-polymerase
 chain reaction testing, and virus isolation confirmed a diagnosis of H5N1
avian influenza virus infection. The virus was virtually identical to the
strain that was circulating in chickens at the time of infection. All the 
animals
had been vaccinated with an attenuated feline panleukopenia virus  vaccine
two weeks before their illness. Although there was no evidence of 
panleukopenia
virus-induced disease, immunosuppression associated with the  vaccine may
have contributed to the severity of the influenza in these  cats.2
Domestic cats in Thailand have also  been infected with the H5N1 virus.3,4 
In
February 2004, a group  of 15 cats living near an affected poultry farm
became ill. According to  news reports, three of the cats had been tested 
for avian
influenza by  researchers at Thailand's Kasetsart University, with two cats
having  positive results at that time. Fourteen of the 15 cats had died, and
the  last cat was very ill. The method of influenza transmission in these 
cats
was unknown. During the same month, another cat in Thailand became ill  five
days after eating a pigeon carcass.5 The cat was initially  febrile and
depressed and then developed convulsions and ataxia before it  died two days 
after
the onset of illness. H5N1 influenza virus antigen was  detected by
immunohistochemistry in brain, heart, lung, liver, kidney, and  spleen 
samples from this
cat. Virus isolates from the cat were almost  identical to isolates from
infected pigeons and chickens in the same  region.
A second outbreak of H5N1 avian  influenza in nondomestic cats occurred in
October 2004 in a tiger zoo in  Thailand.6 Initially, the cats likely became
infected by  ingesting raw infected bird carcasses. Tigers infected later in 
the
outbreak were probably infected by cat-to-cat transmission because they 
were
fed cooked poultry beginning a few days after the first tigers became  ill.
Clinical signs in affected tigers included respiratory distress, a
serosanguineous nasal discharge, neurologic signs, and high fever. 
Leukopenia,
thrombocytopenia, and elevated liver enzyme activities were  common 
laboratory
findings. Most of the animals had severe lung congestion  and hemorrhage. 
Infection
with H5N1 avian influenza virus was confirmed in  several animals by using
immunohistochemistry, virus isolation, or both  techniques. Twenty-nine 
tigers died
during the first week of the outbreak,  and a total of 147 of the zoo's 441
tigers either died or were euthanized  during the three weeks after the 
first
tigers became ill.
In February 2006, a domestic cat in  Germany was infected with H5N1 avian
influenza virus, probably by  ingesting an infected wild bird. This case was
quickly followed by the  detection of three H5N1-positive cats in Austria.7
Several  H5N1-infected swans were found in the same regions as the infected 
cats.
In response, the European Standing Committee on the Food Chain and Animal
Health (SCFCAH) issued recommendations for veterinarians and pet owners. 
The
statement recommended inspecting and testing sick or dead cats that  might 
have
had contact with wild birds, reporting suspected cases to  appropriate
authorities, and preventing contact between pet cats and wild  birds. It 
also
recommended the same procedures for dogs. The SCFCAH report  emphasized that 
the risk
of avian influenza virus infections in cats  remains low, and the risk of
cat-to-human transmission is even lower at  this time.8      <PRIMARY>
<PRIMARY>    <NOINDEX>
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<NOINDEX>
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      Avian influenza: An  emerging feline threat? (Update)

(javascript:rightslinkPopUp('Veterinary+Medicine','Avian+influenza:+An+emerging+feline+threat?+(Update)','2006-06-01','Margaret+C.+Barr
,+DVM,+PhD','336243');)       <PRIMARY>    <NOINDEX>
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<NOINDEX>
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      Avian influenza: An  emerging feline threat? (Update)

(javascript:rightslinkPopUp('Veterinary+Medicine','Avian+influenza:+An+emerging+feline+threat?+(Update)','2006-06-01','Margaret+C.+Barr,+DVM,+Ph
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Experimental  inoculation of domestic cats
In addition  to these outbreaks, researchers have  demonstrated the
susceptibility of domestic cats  to H5N1 avian influenza virus.9  Unlike in 
previous
studies with other influenza  virus strains, cats developed severe 
respiratory
disease after exposure to H5N1 virus by  ingestion, intratracheal 
inoculation,
or contact  with experimentally infected cats. Intratracheal  inoculation of
three cats resulted in fever  beginning Day 1 after exposure and in 
decreased
activity, conjunctivitis, and labored breathing  by Day 2 after exposure. 
One
cat died on Day 6.  Pathologic findings included focal pulmonary
consolidation and diffuse alveolar damage. Two  cats housed with these 
infected cats and
three  cats fed virus-infected chicks also developed  similar clinical signs
and pathology. Infection  with H5N1 avian influenza virus was confirmed in 
all
these cats by virus isolation from  pharyngeal swabs and by
immunohistochemistry on  lung tissue.
Concerns over  an H5N1 influenza pandemic
Although  human cases have been sporadic to date and  efficient
human-to-human spread has not yet  occurred, concerns about a potential H5N1 
influenza
pandemic continue to rise. For the  first time since the current H5N1 
influenza
outbreak began in 2003, migratory birds appear  to be spreading the highly
pathogenic avian  influenza virus to domestic birds in countries  along 
their
migratory routes. The virus has now  been detected in birds in at least 32
countries.10 Despite this explosive  spread in birds, little more than 200 
human
cases of H5N1 influenza have been confirmed  during the current outbreak; 
most
of these cases  can be traced to direct contact with sick or  dead birds or
their feces.
However,  fears of an avian influenza pandemic remain  because of the 
ability
of influenza viruses to  mutate and change or expand their host range.
Influenza viruses carry their genes on eight  separate segments; infection 
of a
single host  cell with two different influenza viruses can  result in a new 
virus
strain by packaging  segments from both parent viruses in a single  virus
particle (genetic reassortment). If such a  reassortment resulted in 
enhanced
transmission  between people, a pandemic might  occur.10
The  veterinarian's role in influenza  surveillance

(http://www.vetmedpub.com/vetmed/article/articleDetail.jsp?id=336243&pageID=2#)
1. Genetic  reassortment of influenza viruses may lead to  additional 
species
being involved in  transmission.
The H5N1 influenza  outbreaks in domestic and nondomestic cats point  to 
this
virus's potential as a feline pathogen.  Although poultry and wild ducks are
the virus's  primary reservoir, several species of songbirds  are also
susceptible to infection.11  These bird populations could serve as a conduit 
of
human infection through feline  intermediaries. With each genetic 
reassortment  of
the influenza viruses, species barriers  become less effective (Figure 1). 
It
 therefore seems reasonable for veterinarians to  consider including
influenza as a differential  diagnosis in cats with respiratory and 
neurologic
disease. Prompt recognition of avian  influenza in any susceptible 
population of
animals will help control its spread and  decrease the chance of another
devastating  influenza pandemic.
If you  suspect avian influenza in any species, contact  the Animal Health
Diagnostic Center, College of  Veterinary Medicine, Cornell University 
(phone:
607-253-3900; e-mail: _diagcenter at cornell.edu_ 
(mailto:diagcenter at cornell.edu)

) for testing information. Report cases of  avian influenza to local or 
state
public health  departments or the county veterinarian.
Although  guidelines for handling infected pets have not  been established,
human infection-control  precautions recommended by the Centers for  Disease
Control and Prevention can be adapted  for use in companion animals. Use
stringent  hygienic care (including using gloves, gowns,  and masks) when 
handling
potentially infected  animals, and maintain these animals under  isolation
conditions until testing is completed  or for 14 days after the onset of 
clinical
signs.
Treatment of  influenza virus infection in cats would probably  be based on
supportive care. Influenza antiviral  agents have not been tested in cats, 
so
their  safety and efficacy are unknown. The use of  antiviral drugs such as
oseltamivir or zanamivir  in nonhuman species is discouraged because of 
concerns
that circulating strains of influenza  might develop resistance to these
drugs. In  fact, the extralabel use of anti-influenza drugs  in poultry has 
been
banned by the  FDA.12


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| 3
1. Hinshaw VS,  Webster RG, Easterday BC, et al. Replication of avian
influenza A viruses in mammals. Infect Immun  1981;34:354-361.
2. Keawcharoen  J, Oraveerakul K, Kuiken T, et al. Avian influenza H5N1  in
tigers and leopards. Emerg Infect Dis  2004;10:2189-2191. Available at:
_www.cdc.gov/ncidod/EID/vol10no12/04-0759.htm_
(http://www.cdc.gov/ncidod/EID/vol10no12/04-0759.htm) .  Accessed May 23, 
2006.
3. Care urged  after bird flu infected feline found. China  Daily. Available
at: _www2.chinadaily.com.cn/english/doc/2004-02/20/content_307975.htm_
(http://www2.chinadaily.com.cn/english/doc/2004-02/20/content_307975.htm) . 
Accessed
March 29, 2005.
4. The World  Health Organization Communicable Disease Surveillance  &
Response (CSR). Avian influenza (H5N1)—update  28: reports of infection in 
domestic
cats (Thailand),  situation (human) in Thailand, situation (poultry) in 
Japan
and China. 20 February 2004. Available at:
_www.who.int/csr/don/2004_02_20/en/_ 
(http://www.who.int/csr/don/2004_02_20/en/) .  Accessed Sept. 15, 2005.
5. Songserm T,  Amonsin A, Jam-on R, et al. Avian influenza H5N1 in
naturally infected domestic cat. Emerg Infect Dis  2006;12:681-683.
6.  Thanawongnuwech R, Amonsin A, Tantilertcharoen R, et al.  Probable
tiger-to-tiger transmission of avian influenza  H5N1. Emerg Infect Dis
2005;11:699-701. Erratum  in: Emerg Infect Dis 2005;11:976. Available at:
_www.cdc.gov/ncidod/EID/vol11no05/05-0007.htm_
(http://www.cdc.gov/ncidod/EID/vol11no05/05-0007.htm) .  Accessed March 29, 
2005.
7. Butler D.  Can cats spread avian flu? Nature 2006;440:135.
8. European  advice on H5N1 avian influenza in cats. Vet Rec  2006;158:314.
9. Kuiken T,  Rimmelzwaan G, van Riel D, et al. Avian H5N1 influenza  in
cats. Science 2004;306:241.
10. Avian  influenza fact sheet (April 2006).Wkly Epidemiol  Rec
2006;81:129-136.
11. Perkins  LE, Swayne DE. Varied pathogenicity of a Hong  Kong-origin H5N1
avian influenza virus in four passerine  species and budgerigars. Vet Pathol
2003;40:14-24.
12. Avian  influenza backgrounder. Available at:
_www.avma.org/public_health/influenza/avinf_bgnd.asp_
(http://www.avma.org/public_health/influenza/avinf_bgnd.asp) .  Accessed May 
15, 2006.





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