Rapid Influenza Diagnostic Tests

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Background

Rapid influenza diagnostic tests (RIDTs) are immunoassays that can identify the presence of influenza A and B viral nucleoprotein antigens in respiratory specimens, and display the result in a qualitative way (positive vs. negative) (1). In the United States, a number of RIDTs are commercially available. (See &#;Table 1: Influenza Virus Testing Methods&#; and &#;Table 2: Characteristics of Rapid Influenza Diagnostic Tests&#;.) The reference standards for laboratory confirmation of influenza virus infection in respiratory specimens are reverse transcription-polymerase chain reaction (RT-PCR) or viral culture. RIDTs can yield results in a clinically relevant time frame, i.e., less than approximately 15 minutes. However, RIDTs have limited sensitivity to detect influenza viruses in respiratory specimens compared to RT-PCR or viral culture and negative RIDT test results should be interpreted with caution given the potential for false negative results, especially during peak influenza activity in a community. Some RIDTs use analyzer reader devices to standardize result interpretation.

1 RIDTs do not include rapid molecular assays that have higher sensitivity to detect influenza viruses in respiratory specimens compared to RIDTs. See Guidance for Clinicians on the Use of RT-PCR and Other Molecular Assays for Diagnosis of Influenza Virus Infection for more information.

Advantages and Disadvantages of RIDTs

Advantages

• Produce quick result in less than approximately 15 minutes, simple to perform
• Some RIDTs are cleared for office/bedside use. RIDTs that have been CLIA waived can be used in settings that include point-of-care.

Disadvantages

• Sub-optimal test sensitivity, false negative results are common, especially when influenza activity is high
• Sensitivity of RIDTs to detect influenza B viral antigens is lower than for detection of influenza A viral antigens.
• Although specificity is high, false positive results can also occur, especially during times when influenza activity is low.
• Some RIDTs distinguish between influenza A or B viruses while others do not. RIDTs that provide results on the type of influenza virus (e.g., influenza A or B virus), do not provide information on influenza A virus subtype [e.g., A(H1N1)pdm09 versus A(H3N2)] or specific virus strain information (e.g., degree of similarity to vaccine strains). RIDTs cannot distinguish between seasonal influenza A virus infection and novel influenza A virus infection (due to infection with avian or variant influenza A viruses).

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Use of RIDTs in Clinical Decision-making

RIDTs may be used to help with diagnostic and treatment decisions for patients in clinical settings, such as whether to prescribe antiviral medications. However, due to the limited sensitivities, negative results of RIDTs do not exclude influenza virus infection in patients with signs and symptoms suggestive of influenza. Therefore, if clinically indicated, antiviral treatment should not be withheld from patients with suspected influenza, even if they test negative by RIDT, and further influenza testing of respiratory specimens by molecular assays may be indicated. More information about Antiviral Drugs and recommendations on their use.

Testing is not needed for all patients with signs and symptoms of influenza to make antiviral treatment decisions (See Figures 1-4). Once influenza activity has been documented in the community or geographic area, a clinical diagnosis of influenza can be made for outpatients with signs and symptoms consistent with suspected influenza, especially during periods of peak influenza activity in the community.

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Use of RIDTs for Public Health Purposes to Detect Influenza Outbreaks

RIDTs can be useful to identify influenza virus infection as a cause of respiratory outbreaks in any setting, but especially in institutions (i.e., nursing homes, chronic care facilities, and hospitals), cruise ships, summer camps, schools, etc. Positive RIDT results from one or more ill persons with suspected influenza can support decisions to promptly implement infection prevention and control measures for influenza outbreaks. However, negative RIDT results do not exclude influenza virus infection as a cause of a respiratory outbreak because of the limited sensitivity of these tests. Testing respiratory specimens from several persons with suspected influenza will increase the likelihood of detecting influenza virus infection if influenza virus is the cause of the outbreak, and use of molecular assays such as RT-PCR is recommended if the cause of the outbreak is not determined and influenza is suspected. Public health authorities should be notified promptly of any suspected institutional outbreak and respiratory specimens should be collected from ill persons (whether positive or negative by RIDT) and sent to a public health laboratory for more accurate influenza testing by molecular assays and viral culture.

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Factors Influencing Results of RIDTs

Many factors can influence the accuracy of RIDTs, including:

• Clinical signs and symptoms consistent with influenza
  • Having clinical signs and symptoms consistent with influenza increases the pre-test probability of influenza virus infection, which increases the reliability of a positive RIDT result.
• Prevalence of influenza activity in the population tested
  • Influenza activity varies seasonally, which directly affects the predictive values of RIDTs (See algorithms below [Figures 3 and 4], and Prevention Strategies for Seasonal Influenza in Heath Care Settings.)
• Time from illness onset to collection of respiratory specimens for testing
  • Testing specimens collected within 3-4 days of illness onset (when influenza viral shedding is highest) is more likely to yield positive RIDT results if the patient has influenza.
• Type of respiratory specimen tested
  • RIDTs have different specifications for acceptable specimens (e.g., nasopharyngeal, nasal or throat swab/aspirate). The package insert for the RIDT test used should be reviewed to ensure that an appropriate specimen is collected, and test procedures are followed. Some tests may require specimen collection using a special swab (some RIDTs must be used with a swab supplied with the test kit; some swab material can interfere with RIDT results).
  • RIDTs must also ensure that the appropriate viral transport media or other media is used, consistent with test specifications, if testing is done at a different location from where the specimen is collected from the patient.
  • Collection of good quality respiratory specimens (e.g., nasopharyngeal or nasal swab/aspirate/wash or combined nasal/throat swab specimens) also will increase the accuracy of RIDT results.
  • Some RIDTs require that the entire collected specimen be used in the test. Consider whether a second specimen should be collected for confirmatory testing using viral culture and/or RT-PCR.
• Accuracy of the test compared to a reference test (&#;gold standard&#; = RT-PCR or viral culture)
  • Sensitivity of the RIDT
    • Proportion of positive RIDT results of all positive &#;gold standard test&#; results (RT-PCR or viral culture)
    • Fixed characteristic of a test; generally low to moderate (50-70%) for RIDTs
      • An RIDT with low sensitivity will produce negative results in some patients with influenza (false negatives)
  • Specificity of the RIDT
    • Proportion of negative RIDT results of all negative &#;gold standard test&#; results (RT-PCR or viral culture)
    • Fixed characteristic of a test; generally very high for RIDTs (90-95%)
      • An RIDT with low specificity will produce positive results in some patients who do not have influenza (false positives )

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Interpretation of Rapid Influenza Diagnostic Test Results

Proper interpretation of RIDT results is very important for clinical management of patients and for assessing suspected influenza outbreaks. A number of factors can influence the results of RIDTs. The accuracy of RIDTs depends largely on the conditions under which they are used. Understanding some basic considerations can minimize being misled by false-positive or false-negative results.

Positive result

• A positive result means that the RIDT detected influenza viral antigen, but does not necessarily mean viable influenza virus is present or that the patient is contagious.
• The positive predictive value of an RIDT (the proportion of patients with positive results who have influenza) is highest when influenza activity is high in the population being tested (e.g. community).
• A positive result is most likely a true positive result if the respiratory specimen was collected close to illness onset (within 4 days) during periods of high influenza activity (e.g. winter) in the population being tested (e.g. community).
• A positive result in a person who recently received intranasal administration of live attenuated influenza virus vaccine (LAIV) may indicate detection of vaccine virus. LAIV contains influenza virus strains that undergo viral replication in respiratory tissues of lower temperature (e.g., nasal passages) than internal body temperature. Since the nasal passages are infected with live influenza virus vaccine strains during LAIV administration, sampling the nasal passages within a few days after LAIV vaccination can yield positive influenza testing results. It may be possible to detect LAIV vaccine strains up to 7 days after vaccination, and in rare situations, for longer periods.
• The positive predictive value of an RIDT (the proportion of patients with positive results who have influenza) is lowest when influenza activity is low in the population being tested (e.g. community).
• False-positive  results are more likely to occur when influenza  prevalence in the population tested (e.g. community) is low, which is generally at the beginning and end of the influenza season and during the summer.

Negative result

• A negative result means that the RIDT did not detect any influenza viral antigen.
• The negative predictive value of an RIDT (the proportion of patients with negative results who do not have influenza) is highest when influenza activity is low in the population being tested (e.g. community).
• A negative result is most likely a true negative result if the respiratory specimen was collected close to illness onset (within 4 days) during periods of low influenza activity (e.g. summer) in the population being tested (e.g. community).
• The negative predictive value of an RIDT (the proportion of patients with negative results who do not have influenza) is lowest when influenza activity is high in the population being tested (e.g. community).
  • • False-negative  results are more likely to occur when influenza  prevalence is high in the community.
• Sensitivities of RIDTs are generally approximately 50-70%, but a range of 10-80% has been reported compared to viral culture or RT-PCR. Specificities of RIDTs are approximately 90-95% (range 85-100%). Thus false negative results occur more commonly than false positive results.
• Negative results of RIDTs do not exclude influenza virus infection and influenza should still be considered in a patient if clinical suspicion is high based upon history, signs, symptoms and clinical examination.

Minimize False Results

• Collect specimens as early in the illness as possible (ideally less than 4 days from illness onset).
• Follow manufacturer&#;s instructions, including acceptable specimens, and handling.
• Follow-up negative results with confirmatory tests (RT-PCR or viral culture) if a laboratory-confirmed influenza diagnosis is desired.

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Clinicians should contact their local or state health department for information about current influenza activity. For more information about influenza activity in the United States during the influenza season, visit the Weekly U.S. Influenza Surveillance Report (FluView).

When to Consider Further Influenza Testing

Consider sending respiratory specimens for influenza testing by viral culture or RT-PCR to confirm results of an RIDT when:

• A patient tests negative by RIDT when community influenza activity is high and laboratory confirmation of influenza is desired.
• A patient tests positive by RIDT and the community prevalence of influenza is low, and a false positive result is a consideration.
• A patient has had recent close exposure to pigs or poultry or other animals and novel influenza A virus infection is possible (e.g., influenza A viruses circulate widely among swine and birds, including poultry, and also can infect other animals such as horses and dogs) See Avian Influenza: Information for Health Professionals and Laboratorians for more information.

Hospitalized patients

Influenza testing is recommended for hospitalized patients with suspected influenza. Molecular assays such as RT-PCR are recommended for testing hospitalized patients. However, empiric antiviral treatment should be initiated as soon as possible for hospitalized patients with suspected influenza without the need to wait for any influenza testing results (see Antiviral Drugs, Information for Health Care Professionals). Antiviral treatment should not be stopped based on negative RIDT results given the limited sensitivities of RIDTs. Infection prevention and control measures should be implemented immediately upon admission for any hospitalized patient with suspected influenza even if RIDT results are negative (see Prevention Strategies for Seasonal Influenza in Heath Care Settings). Serology for influenza should not be performed for clinical management. Clinicians should understand that negative results of influenza testing do not exclude influenza virus infection, especially if the time from illness onset to collection of respiratory specimens is more than 3  days, or if upper respiratory tract specimens were tested and the patient has lower respiratory tract disease. If influenza is suspected, testing of clinical specimens collected from different respiratory sites can be done (e.g., upper and lower respiratory tract) and can be collected on more than one day to increase the likelihood of influenza virus detection; intubated patients should have endotracheal aspirate specimens tested if influenza is suspected, but not yet confirmed.

Detection of influenza virus infection and prompt implementation of infection prevention and control measures is critical to prevention of nosocomial influenza outbreaks. When there is influenza activity in the community, clinicians should consider influenza testing, including viral culture, for patients who develop signs and symptoms of influenza while they are in a health care facility. This should be done as part of a broader surveillance strategy for influenza as discussed in Prevention Strategies for Seasonal Influenza in Heath Care Settings.

Suspected influenza institutional outbreaks

For suspected influenza outbreaks in institutions, respiratory specimens should be collected from patients with suspected influenza as early as possible once the outbreak is suspected (See Figure 2). The use of influenza molecular assays is preferred. If RIDTs are used in these settings, clinical specimens should also be sent for influenza testing by viral culture and RT-PCR to provide detailed information on specific influenza A virus subtypes and strains, and antiviral susceptibility data and to verify RIDT test results. Active daily surveillance for suspected influenza illness and collection of specimens from patients with suspected influenza should continue through at least 2 weeks after implementation of control measures to assess effectiveness of the measures and to monitor for potential emergence of antiviral resistance. See Prevention Strategies for Seasonal Influenza in Heath Care Settings.

Influenza Surveillance

Laboratory-based surveillance for influenza viruses by viral culture is critically important to the selection of viruses for the next season&#;s influenza vaccine. Virus isolates are needed in order to characterize the circulating influenza A virus subtypes and influenza A and B virus strains and to determine how well they are matched antigenically to vaccine strains. Isolates are also needed for obtaining information on the emergence and prevalence of antiviral resistant strains, and the identification of human infection with novel influenza A viruses (e.g., an influenza A virus of animal origin that may sporadically cause illnesses in people) that may have pandemic potential. This information is needed from specimens sent for viral culture and RT-PCR year round for identification of novel influenza A virus strains or antigenically-drifted seasonal influenza virus strains, including during times of low influenza activity such as at the beginning and end of influenza seasonal activity. For more information about influenza activity in the United States during the influenza season, visit the Weekly U.S. Influenza Surveillance Report (FluView).

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References

Ali T, Scott N, Kallas W, Halliwell ME, Savino C, Rosenberg E, Ferraro M, Hohmann E. Detection of influenza antigen with rapid antibody-based tests after intranasal influenza vaccination (FluMist). Clin Infect Dis. Mar 1;38(5):760-2.

Balish A, Garten R, Klimov A, Villanueva J. Analytical detection of influenza A(H3N2)v and other A variant viruses from the USA by rapid influenza diagnostic tests. Influenza Other Respi Viruses. Jul;7(4):491-6. doi: 10./irv..

Block SL, Yogev R, Hayden FG, Ambrose CS, Zeng W, Walker RE. Shedding and immunogenicity of live attenuated influenza vaccine virus in subjects 5-49 years of age. Vaccine. Sep 8;26(38):-6.

Centers for Disease Control and Prevention (CDC). Evaluation of rapid influenza diagnostic tests for influenza A (H3N2)v virus and updated case count&#;United States, . MMWR Morb Mortal Wkly Rep. Aug 17;61(32):619-21.

Centers for Disease Control and Prevention (CDC). Evaluation of 11 commercially available rapid influenza diagnostic tests &#; United States, -. MMWR Morb Mortal Wkly Rep. Nov 2;61:873-6.

Centers for Disease Control and Prevention (CDC). Evaluation of rapid influenza diagnostic tests for detection of novel influenza A (H1N1) Virus&#;United States, . MMWR Morb Mortal Wkly Rep. Aug 7;58(30):826-9.Chartrand C, Leeflang MM, Minion J, Brewer T, Pai M. Accuracy of rapid influenza diagnostic tests: a meta-analysis. Ann Intern Med. Apr 3;156(7):500-11.

Committee on Infectious Diseases, American Academy of Pediatrics. Policy Statement&#;Recommendations for Prevention and Control of Influenza in Children, &#;.

The company is the world’s best nasal swab influenza test supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

Faix DJ, Sherman SS, Waterman SH. Rapid-test sensitivity for novel swine-origin influenza A (H1N1) virus in humans. N Engl J Med. Aug 13;361(7):728-9.

Grijalva CG, Poehling KA, Edwards KM, Weinberg GA, Staat MA, Iwane MK, Schaffner W, Griffin MR. Accuracy and interpretation of rapid influenza tests in children. Pediatrics. Jan;119(1):e6-11.

Harper SA, Bradley JS, Englund JA, File TM, Gravenstein S, Hayden FG et al. Seasonal influenza in adults and children&#;diagnosis, treatment, chemoprophylaxis, and institutional outbreak management: clinical practice guidelines of the Infectious Diseases Society of America. Clin Infect Dis. Apr 15;48(8):-32.

Moesker FM, van Kampen JJ, Aron G, Schutten M, van de Vijver DA, Koopmans MP, Osterhaus AD, Fraaij PL. Diagnostic performance of influenza viruses and RSV rapid antigen detection tests in children in tertiary care. J Clin Virol. Jun;79:12-7.

Ryu SW, Lee JH, Kim J, Jang MA, Nam JH, Byoun MS, Lim CS. Comparison of two new generation influenza rapid diagnostic tests with instrument-based digital readout systems for influenza virus detection. Br J Biomed Sci. Jul;73(3):115-120.

Uyeki TM. Influenza diagnosis and treatment in children: a review of studies on clinically useful tests and antiviral treatment for influenza. Pediatr Infect Dis J. Feb;22(2):164-77.

World Health Organization.em>WHO Guidelines for Pharmacological Management of Pandemic Influenza A(H1N1) and other Influenza Viruses. Revised February .

Mandell LA, Wunderink RG, Anzueto A, Bartlett JG, Campbell GD, Dean NC, Dowell SF, File TM Jr, Musher DM, Niederman MS, Torres A, Whitney CG; Infectious Diseases Society of America; American Thoracic Society. Infectious Diseases Society of America/American Thoracic Society consensus guidelines on the management of community-acquired pneumonia in adults. Clin Infect Dis. Mar 1;44 Suppl 2:S27-72.

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Is there a test for the flu?

Yes. Flu tests require a respiratory sample, such as a nasal swab, to check for the presence of the flu virus.

The flu (influenza) is a respiratory infection caused by a virus (germ). It occurs most often during the winter and easily spreads from person to person from coughing, sneezing and/or touching contaminated surfaces. Most seasonal flu outbreaks are caused by the A and/or B flu viruses.

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What are the different kinds of flu (influenza) tests?

There are several different flu tests, including:

• Rapid influenza diagnostic tests (RIDTs).
• Rapid molecular assays.
• Specialized laboratory tests.

Rapid influenza diagnostic tests (RIDTs)

RIDTs, also called flu antigen tests, are the most common type of flu test. They can identify the presence of influenza A and B, and they work by detecting the parts of the flu virus called antigens that trigger an immune response.

RIDTs usually involve inserting a swab into your nostril to get a sample.

RIDTs provide results within approximately 10 to 15 minutes, but they may not be as accurate as other flu tests. You could still have the flu even though your rapid test result is negative.

Rapid molecular assays for flu testing

Rapid molecular assays are flu tests that detect the genetic material of the flu virus. They produce results in 15 to 30 minutes and are more accurate than RIDTs.

These tests use a nasopharyngeal (NP) swab. The sample is then sent to a laboratory for analysis. Healthcare providers also use this test for people who are in the hospital and have flu symptoms.

Specialized laboratory flu tests

Other specialized laboratory flu tests are more accurate than RIDTs and rapid molecular assays. One of these tests is called reverse-transcription polymerase chain reaction (RT-PCR).

For these tests, a healthcare provider collects a sample and then sends the swab to a laboratory for testing. It may take one to several hours or days to get your results.

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When do I need a flu test?

If you have flu-like symptoms or are concerned about possibly having the flu, talk to your healthcare provider. Most people don&#;t need a flu test and recover from the flu within a week or two, but a number of factors can contribute to your provider wanting you to get a flu test.

Symptoms of the flu include:

Your healthcare provider may order a flu test if you have risk factors for flu complications. Risk factors include:

• Having a weakened immune system.
• Having a chronic illness.
• Being pregnant.
• Being over the age of 65 or under the age of 5.
• Being in the hospital for treatment for another condition.

You may also need to take a flu test so that public health officials or providers can figure out whether an outbreak of respiratory illness in a community, such as a school or nursing home, has been caused by the flu.

Public health officials and providers may also use specialized flu tests to identify the type of flu virus that&#;s causing infections.

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