Avian influenza other diagnostic studies: Difference between revisions

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{{Avian influenza}}'''For more information about seasonal human influenza virus that is not associated with animal exposure, see [[Influenza]]'''<br><br>
{{Avian influenza}}
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'''For more information about seasonal human influenza virus that is not associated with animal exposure, see [[Influenza]]'''
 
{{CMG}}
 
==Overview==
Other diagnostic test for influenza include molecular assays, such as [[RT-PCR]]. New technologies being pursued include those that examine influenza viruses at the [[molecular]] level.  By examining the genetic makeup of influenza viruses, such tests could identify both the virus type and subtype simultaneously.
 
==Other Diagnostic Studies==
===Molecular Assays<small><small><small> Adapted from CDC <ref name=CDC> {{cite web|url=http://www.cdc.gov/flu/professionals/diagnosis/molecular-assays.htm| title=CDC Guidance for Clinicians on the Use of RT-PCR and Other Molecular Assays for Diagnosis of Influenza Virus Infection}} </ref> </small></small></small>===
*Tests for influenza include:
::*Molecular assays
::*Rapid influenza diagnostic tests
::*Viral culture
::*[[Serology]]
*Molecular assays for influenza are increasingly being used in clinical settings.
*[[RT-PCR|Reverse Transcription-Polymerase Chain Reaction]] ([[RT-PCR]]) and other molecular assays can identify the presence of influenza viral RNA in respiratory specimens.
*RT-PCR is particularly useful to identify influenza virus infection as a cause of respiratory outbreaks in institutions, such as nursing homes, chronic care facilities, and hospitals.
*Some molecular assays are able to detect and discriminate between infections with influenza A and B viruses; other tests can identify specific influenza A virus subtypes.
*These assays can yield results in 3-8 hours.
*Notably, the detection of influenza viral RNA by these assays does not always indicate detection of viable virus or on-going influenza viral replication.  
*It is important to note that not all assays have been cleared by the FDA for diagnostic use.
 
{| style="border: 0px; font-size: 85%; margin: 3px; width: 850px;" align=center
|valign=top|
|+
! style="background: #4479BA; color:#FFF; width: 400px;" | Advantages
! style="background: #4479BA; color:#FFF; width: 450px;" | Disadvantages
|-
| style="padding: 5px 5px; background: #F5F5F5;" valign=top |
*Molecular assays are more sensitive and specific for detecting influenza viruses than other influenza tests (e.g., rapid influenza diagnostic tests, immunofluorescence, and viral culture)
*The likelihood of a false positive or false negative result is low and therefore, the interpretation of the result is less impacted by the level of influenza activity in the community
*Some, but not all molecular assays can distinguish between specific influenza A virus subtypes
| style="padding: 5px 5px; background: #F5F5F5;" |
*Results of [[RT-PCR]] and other molecular assays may not be available in a clinically relevant time frame to inform clinical management decisions.
*[[RT-PCR]] and other molecular assays are generally not available for outpatient or emergency room settings.
*Respiratory specimens may need to be sent to a state public health laboratory or commercial laboratory for [[RT-PCR]]. Therefore, although the test can yield results in 3-8 hours, the actual time to receive results may be substantially longer.
*Most molecular assays are not approved to test lower respiratory tract specimens.
*[[RT-PCR]] and other molecular assays are generally more expensive.
*They may not specifically identify all of the subtypes of influenza A virus.
*Depending on the test, a negative result for one influenza A virus subtype may not preclude infection with another influenza A virus subtype.
*Some tests are not FDA-cleared and an evaluation has not been performed to assess the accuracy of all available RT-PCR and molecular assays.
|}


==References==
==References==
{{Reflist|2}}


{{Reflist|2}}
[[Category:Infectious diseases]]
[[Category:Pandemics]]
[[Category:Influenza]]
[[Category:Influenza]]
[[Category:Infectious diseases]]
[[Category:Medicine]]
[[Category:Medicine]]
[[Category:Virology]]
[[Category:Microbiology]]
[[Category:Microbiology]]
[[Category:Occupational safety and health]]
[[Category:Pandemics]]
[[Category:Pulmonology]]
[[Category:Pulmonology]]
[[Category:Occupational safety and health]]
[[Category:Virology]]
{{WH}}
{{WS}}

Latest revision as of 01:00, 24 April 2015

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For more information about seasonal human influenza virus that is not associated with animal exposure, see Influenza

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Other diagnostic test for influenza include molecular assays, such as RT-PCR. New technologies being pursued include those that examine influenza viruses at the molecular level. By examining the genetic makeup of influenza viruses, such tests could identify both the virus type and subtype simultaneously.

Other Diagnostic Studies

Molecular Assays Adapted from CDC [1]

  • Tests for influenza include:
  • Molecular assays
  • Rapid influenza diagnostic tests
  • Viral culture
  • Serology
  • Molecular assays for influenza are increasingly being used in clinical settings.
  • Reverse Transcription-Polymerase Chain Reaction (RT-PCR) and other molecular assays can identify the presence of influenza viral RNA in respiratory specimens.
  • RT-PCR is particularly useful to identify influenza virus infection as a cause of respiratory outbreaks in institutions, such as nursing homes, chronic care facilities, and hospitals.
  • Some molecular assays are able to detect and discriminate between infections with influenza A and B viruses; other tests can identify specific influenza A virus subtypes.
  • These assays can yield results in 3-8 hours.
  • Notably, the detection of influenza viral RNA by these assays does not always indicate detection of viable virus or on-going influenza viral replication.
  • It is important to note that not all assays have been cleared by the FDA for diagnostic use.
Advantages Disadvantages
  • Molecular assays are more sensitive and specific for detecting influenza viruses than other influenza tests (e.g., rapid influenza diagnostic tests, immunofluorescence, and viral culture)
  • The likelihood of a false positive or false negative result is low and therefore, the interpretation of the result is less impacted by the level of influenza activity in the community
  • Some, but not all molecular assays can distinguish between specific influenza A virus subtypes
  • Results of RT-PCR and other molecular assays may not be available in a clinically relevant time frame to inform clinical management decisions.
  • RT-PCR and other molecular assays are generally not available for outpatient or emergency room settings.
  • Respiratory specimens may need to be sent to a state public health laboratory or commercial laboratory for RT-PCR. Therefore, although the test can yield results in 3-8 hours, the actual time to receive results may be substantially longer.
  • Most molecular assays are not approved to test lower respiratory tract specimens.
  • RT-PCR and other molecular assays are generally more expensive.
  • They may not specifically identify all of the subtypes of influenza A virus.
  • Depending on the test, a negative result for one influenza A virus subtype may not preclude infection with another influenza A virus subtype.
  • Some tests are not FDA-cleared and an evaluation has not been performed to assess the accuracy of all available RT-PCR and molecular assays.

References

  1. "CDC Guidance for Clinicians on the Use of RT-PCR and Other Molecular Assays for Diagnosis of Influenza Virus Infection".
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