Natural transmission and detection of Mycoplasma hyopneumoniae in a naïve gilt population

Alyssa M. Betlach; Robert Valeris-Chacin; Randall S. Singer; Matt Allerson; Maria Pieters

doi:10.1016/j.vetmic.2020.108819

Natural transmission and detection of Mycoplasma hyopneumoniae in a naïve gilt population

Alyssa M. Betlach, Robert Valeris-Chacin, Randall S. Singer, Matt Allerson, Maria Pieters

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Abstract

Mycoplasma hyopneumoniae (M. hyopneumoniae) continues to be a prevalent and economically important swine respiratory pathogen. For M. hyopneumoniae surveillance, blood samples and/or oral fluids are commonly collected from incoming replacement gilts prior to entering sow farms. However, limitations to this approach exist, particularly due to low sensitivity during acute stages of natural infection, leading to diagnostic uncertainty. Therefore, the objective of this study was to evaluate the natural transmission and detection of M. hyopneumoniae based on the introduction of one infected gilt to a naïve population. Twenty-nine naïve gilts were housed with one M. hyopneumoniae naturally exposed gilt for 8 weeks. Deep tracheal catheters, laryngeal swabs, and blood samples were individually collected from each gilt at 0, 1, 2, 4, 6, and 8 weeks post-contact (wpc), along with one pen-based oral fluid sample. Blood samples were assayed by ELISA, while all other samples were tested by real-time PCR. The transmission rate of M. hyopneumoniae (ꞵ) was estimated using a Bayesian mixed-effects generalized linear model. At 8 wpc, 27 % (8/29) of the naïve gilts had become infected (ꞵ = 0.73 new infected gilts/gilt-week). Seroconversion was detected in 3% of contact gilts at 8 wpc. Oral fluids were negative for M. hyopneumoniae at all samplings. In this study, the natural transmission of M. hyopneumoniae was slow and detection varied based on sample type and timing. Thus, M. hyopneumoniae surveillance protocols should include lower respiratory tract samples that are tested by real-time PCR to avoid the introduction of potentially infected gilts into naïve sow farms.

Original language	English (US)
Article number	108819
Journal	Veterinary Microbiology
Volume	248
DOIs	https://doi.org/10.1016/j.vetmic.2020.108819
State	Published - Sep 2020

Bibliographical note

Funding Information:
The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff .

Funding Information:
The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff.

Publisher Copyright:
© 2020 Elsevier B.V.

Keywords

Detection
ELISA
Mycoplasma hyopneumoniae
Natural infection
PCR
Replacement gilts
Transmission

PubMed: MeSH publication types

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title = "Natural transmission and detection of Mycoplasma hyopneumoniae in a na{\"i}ve gilt population",

abstract = "Mycoplasma hyopneumoniae (M. hyopneumoniae) continues to be a prevalent and economically important swine respiratory pathogen. For M. hyopneumoniae surveillance, blood samples and/or oral fluids are commonly collected from incoming replacement gilts prior to entering sow farms. However, limitations to this approach exist, particularly due to low sensitivity during acute stages of natural infection, leading to diagnostic uncertainty. Therefore, the objective of this study was to evaluate the natural transmission and detection of M. hyopneumoniae based on the introduction of one infected gilt to a na{\"i}ve population. Twenty-nine na{\"i}ve gilts were housed with one M. hyopneumoniae naturally exposed gilt for 8 weeks. Deep tracheal catheters, laryngeal swabs, and blood samples were individually collected from each gilt at 0, 1, 2, 4, 6, and 8 weeks post-contact (wpc), along with one pen-based oral fluid sample. Blood samples were assayed by ELISA, while all other samples were tested by real-time PCR. The transmission rate of M. hyopneumoniae (ꞵ) was estimated using a Bayesian mixed-effects generalized linear model. At 8 wpc, 27 % (8/29) of the na{\"i}ve gilts had become infected (ꞵ = 0.73 new infected gilts/gilt-week). Seroconversion was detected in 3% of contact gilts at 8 wpc. Oral fluids were negative for M. hyopneumoniae at all samplings. In this study, the natural transmission of M. hyopneumoniae was slow and detection varied based on sample type and timing. Thus, M. hyopneumoniae surveillance protocols should include lower respiratory tract samples that are tested by real-time PCR to avoid the introduction of potentially infected gilts into na{\"i}ve sow farms.",

keywords = "Detection, ELISA, Mycoplasma hyopneumoniae, Natural infection, PCR, Replacement gilts, Transmission",

author = "Betlach, {Alyssa M.} and Robert Valeris-Chacin and Singer, {Randall S.} and Matt Allerson and Maria Pieters",

note = "Funding Information: The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff . Funding Information: The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff. Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

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AU - Valeris-Chacin, Robert

AU - Singer, Randall S.

AU - Allerson, Matt

AU - Pieters, Maria

N1 - Funding Information: The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff . Funding Information: The authors would like to thank Drs. Adam Mueller and Nate Winkelman for their help with the experimental facilities and gilt purchasing, along with the help from the Swine Services Unlimited team during the sample collections. In addition, we thank Cesar Prado, Megan McMahon, Taylor Homann, Gustavo Lopez, and Fernanda Munhoz for their help with the investigation. This study was funded by the Minnesota Pork Board and the Pork Checkoff. Publisher Copyright: © 2020 Elsevier B.V.

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N2 - Mycoplasma hyopneumoniae (M. hyopneumoniae) continues to be a prevalent and economically important swine respiratory pathogen. For M. hyopneumoniae surveillance, blood samples and/or oral fluids are commonly collected from incoming replacement gilts prior to entering sow farms. However, limitations to this approach exist, particularly due to low sensitivity during acute stages of natural infection, leading to diagnostic uncertainty. Therefore, the objective of this study was to evaluate the natural transmission and detection of M. hyopneumoniae based on the introduction of one infected gilt to a naïve population. Twenty-nine naïve gilts were housed with one M. hyopneumoniae naturally exposed gilt for 8 weeks. Deep tracheal catheters, laryngeal swabs, and blood samples were individually collected from each gilt at 0, 1, 2, 4, 6, and 8 weeks post-contact (wpc), along with one pen-based oral fluid sample. Blood samples were assayed by ELISA, while all other samples were tested by real-time PCR. The transmission rate of M. hyopneumoniae (ꞵ) was estimated using a Bayesian mixed-effects generalized linear model. At 8 wpc, 27 % (8/29) of the naïve gilts had become infected (ꞵ = 0.73 new infected gilts/gilt-week). Seroconversion was detected in 3% of contact gilts at 8 wpc. Oral fluids were negative for M. hyopneumoniae at all samplings. In this study, the natural transmission of M. hyopneumoniae was slow and detection varied based on sample type and timing. Thus, M. hyopneumoniae surveillance protocols should include lower respiratory tract samples that are tested by real-time PCR to avoid the introduction of potentially infected gilts into naïve sow farms.

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Natural transmission and detection of Mycoplasma hyopneumoniae in a naïve gilt population

Abstract

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Keywords

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