Evaluation of the Frequency of Swine Enzootic Pneumonia in one Farm Based on Slaughterhouse, Clinical and Laboratory Monitoring

Janine Alves Sarturi, Carlos Augusto Rigon Rossi, Rodrigo Dalmina Rech, Analaura Bianchini Pinheiro, Kauany Moura da Silva, Ian Lovato Colpo, Vitória Lima de Campos, Marcelo Soares, Juliana Felipetto Cargnelutti, Carolina Sleutjes Machado

Abstract


Background: Swine enzootic pneumonia (SEP), caused by the bacterium Mycoplasma hyopneumoniae, is one of the main respiratory diseases of pigs. The purpose of this study was to evaluate the frequency of SEP in one farm with an independent production system, low level of technification and high losses in the meat packing plant, based on slaughterhouse, clinical and laboratory monitoring.

Materials, Methods & Results: This study consisted of three monitoring steps, divided into three periods: P1, P2 and P3. In the first step of the study, slaughterhouse reports were analyzed and slaughtering was monitored at one meatpacking plant in Santa Maria, RS, Brazil. The second step of the study started by drawing up a profile of the farm that supplied the pigs to the aforementioned slaughterhouse, after which clinical monitoring was performed on three occasions. The third step of the study (laboratory monitoring) involved collecting lung fragments containing suspected SEP lesions from the meatpacking plant and subjecting them analysis. The average measured enzootic pneumonia (EP) in P3 was 38.54% (P < 0.05) higher than in P1 and 29.79 higher than in P2. The mean frequency of pulmonary emphysema (PE) in P3 was 59.13% (P < 0.05) higher than in P1 and 48.04% higher than in P2. The mean number of lung adhesions (LA) did not differ statistically (P > 0.05) between P1, P2 and P3. As for the mean frequency of pulmonary hepatization (PH), P3 was 48.80% higher (P < 0.05) than P1 and 41.78% higher than P2. With regard to the mean frequency of craniodorsal lung lesions (CLL), P3 was 48.26% higher (P < 0.05) than P1 and 40.77% higher than P2. The mean frequency of disseminated lesions (DL) and the pneumonia severity index (PSI) showed no statistical difference (P > 0.05) between the three evaluated periods. On the other hand, in the finishing period (FP), the frequency of coughing and sneezing was 37.56% (P < 0.05) higher in P1 than in P3. The frequency of coughing and sneezing evaluated in the nursery phase (CF) did not differ (P > 0.05) between periods. The samples sent to the laboratory MicroVet tested positive for M. hyopneumoniae, Influenza virus and Pasteurella multocida capsular type A. In the samples sent to the laboratory LABAC, the mean PCRmo (PCR for identification of mollicutes) did not differ (P > 0.05) in the analyzed periods, although the presence of DNA from bacteria of the class Mollicutes was confirmed in the fragments. In addition, the mean results of PCRmy (PCR for identification of M. hyopneumoniae) also did not differ (P > 0.05), although they revealed positivity for M. hyopneumoniae.

Discussion: In relationship to the mean frequency of PE in each analyzed period, our study revealed an increase in the number of pulmonary lesions at slaughter during the periods under analysis. This finding is in agreement with those of other authors, who explain that pneumonias is one of the main health problems for swine producers. Some lesions are identified more frequently in routine inspections in meatpacking plants, including pulmonary emphysema, lung adhesions and pneumonia caused by M. hyopneumoniae. In our study, we found that the clinical signs of respiratory distress decline between the periods under evaluation, but during slaughter, the lesions suggestive of SEP continued to show an upward trend, mainly because they were chronic. Other authors state that several control measures should be adopted to ensure good zootechnical indices, including vaccination, strategic medication and the reduction of risk factors, thereby minimizing the level of M. hyopneumoniae infection in the herd.


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References


Abipecs. 2011. Associação Brasileira da Indústria Produtora e Exportadora de Carne Suína. Disponível em:

Alberton G.C. & Mores M.A.Z. 2008. Interpretação de lesões no abate como ferramenta de diagnóstico das doenças respiratórias dos suínos. Acta Scientiae Veterinariae. 36(1): 95-99.

Artiushin S., Stipkovits L. & Minion F.C. 1993. Development of polymerase chain reaction primers to detect Mycoplasma hyopneumoniae. Molecular and Cellular Probes. 7(5): 381-385. https://doi.org/10.1006/mcpr.1993.1056

Costa R.A., Leite P.A.G., Barros C.G.G. & Lopes G.M.B. 2014. Principais causas de condenações em vísceras comestíveis de suínos abatidos em um matadouro frigorífico sob inspeção estadual na região de Alagoinhas-BA. Revista Veterinária e Zootecnia. 21(2): 616-623.

Fraile L., Alegre A., López-Jiménez R., Nofrarías M. & Segalés J. 2010. Risk factors associated with pleuritis and cranio-ventral pulmonary consolidation in slaughter-aged pigs. Journal of Veterinary Science. 184(3): 326-333.

IBGE. 2020. Instituto Brasileiro de Geografia e Estatística. Indicadores IBGE. Estatística da produção pecuária, 2°semestre de 2020. Disponível em: https://biblioteca.ibge.gov.br/visualizacao/periodicos/2380/epp_2020_2tri.pdf

Kich J.D & Pontes A.P. 2001. Análise da situação atual das doenças respiratórias no Brasil. Disponível em:

Maes D., Segales J., Meyns T. Sibila M., Pieters M. & Haesebrouck F. 2008. Control of Mycoplasma hyopneumoniae infections in pigs. Veterinary Microbiology. 126(4): 297-309.

Mcgavin M.D. & Zachary J.F. 2007. Pathologic Basis of Veterinary Disease. 4th edn. St. Louis: Elsevier Mosby Saunders, 1476p.

Morés N., Sobestiansky J., Dalla Costa O.A., Barioni Junior W., Piffer I.A., Guzzo R. & Coimbra J.B.S. 2015. Utilização da contagem de tosse e espirro como Indicadores da ocorrência e severidade de Pneumonias e rinite atrófica, respectivamente. Embrapa Suínos e Aves. 242: 1-4.

Ross R.F. 1999. Mycoplasmal Diseases In: Straw B.E., D’Allaire S., Mengeling W.L. & Taylor D.J. (Eds). Diseases of Swine. 8th edn. Ames: Iowa State University Press, pp.495-510.

Santos Filho J.I. & Talamini D.J.D. 2017. Atualidades da suinocultura brasileira. Anuário 2018 da Suinocultura Industrial. 279(6): 1-8.

Silva F., Lucena R., Oliveira T., Meireles M., Bezerra H. & Vilela V. 2018. Lesões pulmonares em suínos abatidos no matadouro Público Municipal de Esperança, Paraíba. Revista Brasileira de Ciência Veterinária. 25: 82-86.

Silva F.M.F., Castro L.A., Silva Junior A., Moraes M.P., Moreira M.A.S. & Almeida M.R. 2009. Detection of Mycoplasma hyopneumoniae in lungs and nasal swabs of pigs by nested PCR. Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 61(1): 149-155.

Sobestiansky J. 2001. Pneumonia enzoótica suína: prevalência, impacto econômico, fatores de risco e estratégias de controle. Goiânia: Art 3 Impressos Especiais, 43p.

Sobestiansky J., Matos M.P.C. & Souza C.M. 2001. Monitoria patológica de suínos em matadouros. Goiânia: Art. 3 Impressos Especiais, 52p.

Soncini R.A. & Madureira Júnior S.E. 1998. Monitorias sanitárias. In: Sobestiansky J., Wentz I., Silveira P.R.S. & Sesti L.A.C. (Eds). Suinocultura intensiva: produção, manejo e saúde do rebanho. Brasília: Embrapa-SPI, pp.91-110.

Ungar M.L. & Germano P.M.L. 1992. Prevalência da cisticercose bovina no estado de São Paulo. Revista de Saúde Pública. 26: 167-172.

Valença A.M.F., Baptista R.I.A.A. & Barbosa C.N. 2016. Índice para pneumonia em granjas comerciais de suínos do estado de Pernambuco. Medicina Veterinária (UFRPE). 10: 1-4.




DOI: https://doi.org/10.22456/1679-9216.110761

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