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Friday, July 3, 2009

Rickettsial Infections in Cats

Bayliss, D. B., A. K. Morris, et al. (2009). "Prevalence of Rickettsia species antibodies and Rickettsia species DNA in the blood of cats with and without fever." J Feline Med Surg 11(4): 266-70.

The purpose of the study was to determine if cats with a fever were more likely to have evidence of rickettsial infection than healthy, age-matched, control cats with no fever. Fever was determined to be a body temperature of over 102.5F (39.2C). The prevalence of Rickettsia species DNA in blood from clinically ill cats has not been determined. Rickettsia species antibodies have been detected in some cats but it is unknown whether infected cats develop clinical signs. Fever in humans has been attributed at times to “stealth” organisms that can evade the immune system, cause subtle clinical signs, and are not easily detectable by traditional diagnostic methods. Investigators questioned whether Rickettsia species might fill such a role in cats. The cat flea has been identified as a host and biological vector of R. felis and the question of whether the flea may be capable of transmitting the organism to cats is unanswered. The study results did not show an association between fever in cats and Rickettsia species DNA in blood or serologic evidence of exposure to R. felis. It would be optimal though to collect samples from clinically ill cats more than one time to further study this issue. [VT]
>> PubMed Abstract

Related articles:
Hawley, J. R., S. E. Shaw, et al. (2007). "Prevalence of Rickettsia felis DNA in the blood of cats and their fleas in the United States." J Feline Med Surg 9(3): 258-62.
>> PubMed Abstract

Kamrani, A., V. R. Parreira, et al. (2008). "The prevalence of Bartonella, hemoplasma, and Rickettsia felis infections in domestic cats and in cat fleas in Ontario." Can J Vet Res 72(5): 411-9.
>> Free full text article

More on cat health: Winn Feline Foundation Library
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Bayliss, D. B., A. K. Morris, et al. (2009). "Prevalence of Rickettsia species antibodies and Rickettsia species DNA in the blood of cats with and without fever." J Feline Med Surg 11(4): 266-70.

The purpose of the study was to determine if cats with a fever were more likely to have evidence of rickettsial infection than healthy, age-matched, control cats with no fever. Fever was determined to be a body temperature of over 102.5F (39.2C). The prevalence of Rickettsia species DNA in blood from clinically ill cats has not been determined. Rickettsia species antibodies have been detected in some cats but it is unknown whether infected cats develop clinical signs. Fever in humans has been attributed at times to “stealth” organisms that can evade the immune system, cause subtle clinical signs, and are not easily detectable by traditional diagnostic methods. Investigators questioned whether Rickettsia species might fill such a role in cats. The cat flea has been identified as a host and biological vector of R. felis and the question of whether the flea may be capable of transmitting the organism to cats is unanswered. The study results did not show an association between fever in cats and Rickettsia species DNA in blood or serologic evidence of exposure to R. felis. It would be optimal though to collect samples from clinically ill cats more than one time to further study this issue. [VT]
>> PubMed Abstract

Related articles:
Hawley, J. R., S. E. Shaw, et al. (2007). "Prevalence of Rickettsia felis DNA in the blood of cats and their fleas in the United States." J Feline Med Surg 9(3): 258-62.
>> PubMed Abstract

Kamrani, A., V. R. Parreira, et al. (2008). "The prevalence of Bartonella, hemoplasma, and Rickettsia felis infections in domestic cats and in cat fleas in Ontario." Can J Vet Res 72(5): 411-9.
>> Free full text article

More on cat health: Winn Feline Foundation Library
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Wednesday, July 1, 2009

Feline Leukemia Virus

Lutz, H., D. Addie, et al. (2009). "Feline leukaemia ABCD guidelines on prevention and management." J Feline Med Surg 11(7): 565-74.

Feline leukemia virus (FeLV) is a retrovirus found in cats everywhere in the world. While FeLV prevalence has decreased over the last few decades, primarily due to improvements in testing and vaccination, there are still millions of infected cats. Transmission of the virus occurs mainly via friendly contact, such as mutual grooming. Fortunately, the virus does not contaminate the environment as it is does not survive more than minutes outside the host. Young kittens are most at risk of infection. The most common clinical problems associated with FeLV infection are immunosuppression (with secondary infections), anemia, and lymphoma. Fortunately, effective vaccines exist against FeLV for cats at risk of infection. [SL]
>> PubMed Abstract
>> European Advisory Board on Cat Diseases

Related articles:
Levy, J., C. Crawford, et al. (2008). "2008 American Association of Feline Practitioners' feline retrovirus management guidelines." Journal of Feline Medicine & Surgery 10(3): 300-316.
>> Full text article

More on cat health: Winn Feline Foundation Library
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Lutz, H., D. Addie, et al. (2009). "Feline leukaemia ABCD guidelines on prevention and management." J Feline Med Surg 11(7): 565-74.

Feline leukemia virus (FeLV) is a retrovirus found in cats everywhere in the world. While FeLV prevalence has decreased over the last few decades, primarily due to improvements in testing and vaccination, there are still millions of infected cats. Transmission of the virus occurs mainly via friendly contact, such as mutual grooming. Fortunately, the virus does not contaminate the environment as it is does not survive more than minutes outside the host. Young kittens are most at risk of infection. The most common clinical problems associated with FeLV infection are immunosuppression (with secondary infections), anemia, and lymphoma. Fortunately, effective vaccines exist against FeLV for cats at risk of infection. [SL]
>> PubMed Abstract
>> European Advisory Board on Cat Diseases

Related articles:
Levy, J., C. Crawford, et al. (2008). "2008 American Association of Feline Practitioners' feline retrovirus management guidelines." Journal of Feline Medicine & Surgery 10(3): 300-316.
>> Full text article

More on cat health: Winn Feline Foundation Library
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Monday, June 29, 2009

Feline Calicivirus and Fleas

Mencke, N., M. Vobis, et al. (2009). "Transmission of feline calicivirus via the cat flea (Ctenocephalides felis)." Parasitol Res 105(1): 185-9.

Feline calicivirus is an important and contagious pathogen of cats. It is often associated with respiratory disease that is most commonly mild and self-limiting. However, it may cause severe pneumonia, or rarely, a systemic lethal disease. Transmission occurs most commonly through direct and indirect contact between cats. This investigation examined the potential for fleas to spread the virus. Fleas were fed blood containing the virus, and their feces were collected. Infectious virus was found in the flea feces for more than a week after exposure, and the virus could be transmitted to susceptible kittens via the fleas. Thus fleas could be a potential source for spread of this virus. However, the level of virus artificially fed to the fleas in this experiment was very high. In addition, while inoculation of infected fleas via the nose and mouth in the kittens was effective in transmission, infestation of the kittens alone with the fleas was not efficient for virus transmission. The researchers conclude that fleas could potentially be a source for transmission of feline calicivirus and note that it emphasizes the importance of good flea control. However, spread by respiratory droplets and direct contact remains the most important modes of spread. Transmission via fleas would most likely be significant in situations of crowding and significant flea infestation. [MK]
>> PubMed Abstract

Related articles:
Radford, A. D., D. Addie, et al. (2009). "Feline calicivirus infection ABCD guidelines on prevention and management." J Feline Med Surg 11(7): 556-64.
>> PubMed Abstract

Hurley, K., P. Pesavento, et al. (2004). "An outbreak of virulent systemic feline calicivirus disease." J Amer Vet Med Assoc 224(2): 241-249.
>> PubMed Abstract

More on cat health: Winn Feline Foundation Library
Join us on Facebook
Mencke, N., M. Vobis, et al. (2009). "Transmission of feline calicivirus via the cat flea (Ctenocephalides felis)." Parasitol Res 105(1): 185-9.

Feline calicivirus is an important and contagious pathogen of cats. It is often associated with respiratory disease that is most commonly mild and self-limiting. However, it may cause severe pneumonia, or rarely, a systemic lethal disease. Transmission occurs most commonly through direct and indirect contact between cats. This investigation examined the potential for fleas to spread the virus. Fleas were fed blood containing the virus, and their feces were collected. Infectious virus was found in the flea feces for more than a week after exposure, and the virus could be transmitted to susceptible kittens via the fleas. Thus fleas could be a potential source for spread of this virus. However, the level of virus artificially fed to the fleas in this experiment was very high. In addition, while inoculation of infected fleas via the nose and mouth in the kittens was effective in transmission, infestation of the kittens alone with the fleas was not efficient for virus transmission. The researchers conclude that fleas could potentially be a source for transmission of feline calicivirus and note that it emphasizes the importance of good flea control. However, spread by respiratory droplets and direct contact remains the most important modes of spread. Transmission via fleas would most likely be significant in situations of crowding and significant flea infestation. [MK]
>> PubMed Abstract

Related articles:
Radford, A. D., D. Addie, et al. (2009). "Feline calicivirus infection ABCD guidelines on prevention and management." J Feline Med Surg 11(7): 556-64.
>> PubMed Abstract

Hurley, K., P. Pesavento, et al. (2004). "An outbreak of virulent systemic feline calicivirus disease." J Amer Vet Med Assoc 224(2): 241-249.
>> PubMed Abstract

More on cat health: Winn Feline Foundation Library
Join us on Facebook
Read More