FluView Summary ending on May 25, 2024

Updated May 31, 2024

FluView a weekly influenza surveillance report prepared by the Influenza Division
Key Updates for Week 21, ending May 25, 2024

Seasonal influenza activity remains low nationally.

Viruses

Illness

All data are preliminary and may change as more reports are received.

Directional arrows indicate changes between the current week and the previous week. Additional information on the arrows can be found at the bottom of this page.

A description of the CDC influenza surveillance system, including methodology and detailed descriptions of each data component is available on the surveillance methods page.

Additional information on the current and previous influenza seasons for each surveillance component are available on FluView Interactive.

Key Points

  • Seasonal influenza activity remains low nationally.
  • One human infection with an influenza A(H5) virus was reported by the Michigan Department of Health this week. Three human infections with an influenza A(H5) virus have been reported in 2024.
  • CDC estimates that there have been at least 35 million illnesses, 390,000 hospitalizations, and 25,000 deaths from flu so far this season.
  • CDC recommends that everyone 6 months and older get an annual flu vaccine as long as flu activity continues.2
  • There also are prescription flu antiviral drugs that can treat flu illness; those should be started as early as possible and are especially important for higher risk patients.3
  • Seasonal flu viruses are among several viruses contributing to respiratory disease activity. CDC is providing updated, integrated information about COVID-19, flu, and RSV activity on a weekly basis.

U.S. Virologic Surveillance

Nationally, the percentage of respiratory specimens testing positive for influenza in clinical laboratories remained stable (change of ≤0.5 percentage points) compared to the previous week. Nationally, influenza A(H1N1)pdm09, A(H3N2), and B/Victoria viruses are all co-circulating. However, the distribution of circulating viruses varies by region. For regional and state level data and age group distribution, please visit FluView Interactive.

Clinical Laboratories

The results of tests performed by clinical laboratories nationwide are summarized below. Data from clinical laboratories (the percentage of specimens tested that are positive for influenza virus) are used to monitor whether influenza activity is increasing or decreasing.

results of tests from Clinical Laboratories
Week 21
Data Cumulative since
October 1, 2023
(Week 40)
No. of specimens tested 35,297 3,298,461
No. of positive specimens (%) 609 (1.7%) 345,283 (10.5%)
Positive specimens by type
Influenza A 395 (64.9%) 237,989 (68.9%)
Influenza B 214 (35.1%) 107,283 (31.1%)

Public Health Laboratories

The results of tests performed by public health laboratories nationwide are summarized below.  Data from public health laboratories are used to monitor the proportion of circulating influenza viruses that belong to each influenza subtype/lineage.

results of tests from Public Health Laboratories
Week 21
Data Cumulative since
October 1, 2023
(Week 40)
No. of specimens tested 619 109,785
No. of positive specimens 51 36,456
Positive specimens by type/subtype    
         Influenza A 45 (88.2%) 27,736 (76.1%)
Subtyping Performed 31 (68.9%) 23,425 (84.5%)
            (H1N1)pdm09 12 (38.7%) 15,873 (67.8%)
             H3N2 19 (61.3%) 7,552 (32.2%)
             H3N2v 0 (0.0%) 0 (0.0%)
Subtyping not performed 14 (31.1%) 4,311 (15.5%)
        Influenza B 6 (11.8%) 8,720 (23.9%)
Lineage testing performed 2 (33.3%) 7,589 (87.0%)
            Yamagata lineage 0 (0.0%) 0 (0.0%)
            Victoria lineage 2 (100.0%) 7,589 (100.0%)
Lineage not performed 4 (66.7%) 1,131 (13.0%)

Additional virologic surveillance information for current and past seasons:
Surveillance Methods | FluView Interactive: National, Regional, and State Data or Age Data

Novel Influenza A Virus

A human infection with influenza A(H5) virus was reported by the Michigan Department of Health and Human Services.

The patient, aged >18 years, developed symptoms while working at a commercial dairy farm where highly pathogenic avian influenza (HPAI) A(H5N1) virus has been detected in cows. The patient was referred to the local health department and Michigan Department of Health and Human Services for evaluation and influenza testing. The patient reported congestion, sore throat, cough, fatigue, and “runny” and burning eyes at the time when specimens for influenza testing were collected (including respiratory and conjunctival swabs).

Specimens were tested at the Michigan Public Health Laboratory. The respiratory specimen was presumptive positive for influenza A(H5) virus using a Centers for Disease Control and Prevention (CDC) assay. All specimens were then sent to CDC for further testing. The specimens were received and tested at CDC on May 29, 2024. The respiratory specimen was positive for A(H5) virus using diagnostic RT-PCR. Additional analysis of the respiratory specimen, including genetic sequencing, is underway. The patient was not hospitalized, was provided influenza antivirals per CDC guidance (https://www.cdc.gov/flu/avianflu/clinicians-evaluating-patients.htm), is isolating at home, and symptoms are resolving.

In response to this detection, public health officials are conducting additional case investigation and surveillance activities in the area, including contact tracing of the case. Contacts of the patient have not reported illness and have been offered influenza antiviral post-exposure prophylaxis in accordance with CDC recommendations. Symptom monitoring among workers exposed to infected cattle at the same farm has not identified additional symptomatic persons. Additional cases of human infection with A(H5) virus associated with this case and human-to-human transmission of A(H5) virus have not been identified to date.

This is the fourth person to test positive for A(H5) virus in the United States. The first was reported in April 2022 in Colorado, the second in April 2024 in Texas, and the third was also reported in May 2024 in Michigan. This is the third case associated with an ongoing multistate outbreak of HPAI A(H5N1) in dairy cows and is not linked to the same dairy as the previous Michigan case.

Currently in the United States, HPAI A(H5N1) virus detections among wild birds are widespread. There are outbreaks among animals including poultry, backyard flocks, and dairy cows. Sporadic infections in wild mammals have also been reported by United States Department of Agriculture (USDA) Animal Plant Health Inspection Service (APHIS).

CDC recommends that state and local public health departments monitor people who are exposed to birds or other animals (including livestock) suspected to be infected with avian influenza viruses for onset of signs and symptoms until 10 days after their last exposure and that people who develop signs or symptoms of respiratory illness and/or conjunctivitis be tested for influenza. During February 9, 2022 — May 29, 2024, over 9,400 people were actively monitored following exposure to HPAI infected birds, cows, or other animals.

Interim recommendations for Prevention, Monitoring, and Public Health Investigations are available at https://www.cdc.gov/flu/avianflu/hpai/hpai-interim-recommendations.html.

Information about avian influenza is available at https://www.cdc.gov/flu/avianflu/index.htm.

The latest case reports on avian influenza outbreaks in wild birds, commercial poultry, backyard or hobbyist flocks and mammals, in the United States are available from the USDA at https://www.aphis.usda.gov/aphis/ourfocus/animalhealth/animal-disease-information/avian/avian-influenza/2022-hpai.

Additional information regarding human infections with novel influenza A viruses:

Surveillance Methods  |  FluView Interactive

Influenza Virus Characterization

CDC performs genetic and antigenic characterization of U.S. viruses submitted from state and local public health laboratories according to the Right Size Roadmap submission guidance. These data are used to compare how similar the currently circulating influenza viruses are to the reference viruses representing viruses contained in the current influenza vaccines. The data are also used to monitor evolutionary changes that continually occur in influenza viruses circulating in humans. CDC also tests susceptibility of circulating influenza viruses to antiviral medications including the neuraminidase inhibitors (oseltamivir, zanamivir, and peramivir) and the PA endonuclease inhibitor baloxavir.

CDC has genetically characterized 4,653 influenza viruses collected since October 1, 2023.

Influenza Virus Characterization from viruses collected in the U.S. from September 29, 2019
Virus Subtype or Lineage Genetic Characterization
Total No. of
Subtype/Lineage
Tested
HA
Clade
Number (% of
subtype/lineage
tested)
HA
Subclade
Number (% of
subtype/lineage
tested)
A/H1 1,754
6B.1A.5a 1,754 (100%) 2a 406 (23.1%)
2a.1 1,348 (76.9%)
A/H3 1,575
3C.2a1b.2a 1,575 (100%) 2a.1b 1 (0.1%)
2a.3a 1 (0.1%)
2a.3a.1 1,572 (99.8%)
2b 1 (0.1%)
B/Victoria 1,324
V1A 1,324 (100%) 3a.2 1,324 (100%)
B/Yamagata 0
Y3 0 Y3 0 (0%)

CDC antigenically characterizes influenza viruses by hemagglutination inhibition (HI) (H1N1pdm09, H3N2, B/Victoria, and B/Yamagata viruses) or neutralization-based HINT (H3N2 viruses) using antisera that ferrets make after being infected with reference viruses representing the 2023-2024 Northern Hemisphere recommended cell or recombinant-based vaccine viruses. Antigenic differences between viruses are determined by comparing how well the antibodies made against the vaccine reference viruses recognize the circulating viruses that have been grown in cell culture. Ferret antisera are useful because antibodies raised against a particular virus can often recognize small changes in the surface proteins of other viruses. In HI assays, viruses with similar antigenic properties have antibody titer differences of less than or equal to 4-fold when compared to the reference (vaccine) virus. In HINT, viruses with similar antigenic properties have antibody neutralization titer differences of less than or equal to 8-fold. Viruses selected for antigenic characterization are a subset representing the genetic changes in the surface proteins seen in genetically characterized viruses.

Influenza A Viruses

  • A (H1N1)pdm09: 398 A(H1N1)pdm09 viruses were antigenically characterized by HI, and all were well-recognized (reacting at titers that were within 4-fold of the homologous virus titer) by ferret antisera to cell-grown A/Wisconsin/67/2022-like reference viruses representing the A(H1N1)pdm09 component for the cell- and recombinant-based influenza vaccines.
  • A (H3N2): 442 A(H3N2) viruses were antigenically characterized by HI or HINT, and 430 (97.3%) were well-recognized (reacting at titers that were within 4-fold of the homologous virus titer in HI or reacting at titers that were less than or equal to 8-fold of the homologous virus in HINT) by ferret antisera to cell-grown A/Darwin/6/2021-like reference viruses representing the A(H3N2) component for the cell- and recombinant-based influenza vaccines.

Influenza B Viruses

  • B/Victoria: 281 influenza B/Victoria-lineage virus were antigenically characterized by HI, and all were well-recognized (reacting at titers that were within 4-fold of the homologous virus titer) by ferret antisera to cell-grown B/Austria/1359417/2021-like reference viruses representing the B/Victoria component for the cell- and recombinant-based influenza vaccines.
  • B/Yamagata: No influenza B/Yamagata-lineage viruses were available for antigenic characterization.

Assessment of Virus Susceptibility to Antiviral Medications

CDC assesses susceptibility of influenza viruses to the antiviral medications including the neuraminidase inhibitors (oseltamivir, zanamivir, and peramivir) and the PA endonuclease inhibitor baloxavir using next generation sequence analysis supplemented by laboratory assays. Information about antiviral susceptibility test methods can be found at U.S. Influenza Surveillance: Purpose and Methods | CDC.

Viruses collected in the U.S. since October 1, 2023, were tested for antiviral susceptibility as follows:

Viruses collected in the U.S. tested for antiviral susceptibility
Antiviral Medication Total Viruses A/H1 A/H3 B/Victoria
Neuraminidase Inhibitors Oseltamivir Viruses Tested 4,639 1,754 1,572 1,313
Reduced Inhibition 1 (0.02%) 1 (0.06%) 0 (0.00%) 0 (0.00%)
Highly Reduced Inhibition 3 (0.06%) 3 (0.2%) 0 (0.00%) 0 (0.00%)
Peramivir Viruses Tested 4,639 1,754 1,572 1,313
Reduced Inhibition 2 (0.04%) 0 (0.00%) 0 (0.00%) 2 (0.2%)
Highly Reduced Inhibition 3 (0.06%) 3 (0.2%) 0 (0.00%) 0 (0.00%)
Zanamivir Viruses Tested 4,639 1,754 1,572 1,313
Reduced Inhibition 1 (0.02%) 0 (0.00%) 0 (0.00%) 1 (0.08%)
Highly Reduced Inhibition 0 (0.00%) 0 (0.00%) 0 (0.00%) 0 (0.00%)
PA Cap-Dependent Endonuclease Inhibitor Baloxavir Viruses Tested 4,500 1,694 1,527 1,279
Decreased Susceptibility 1 (0.02%) 0 (0.0%) 1 (0.07%) 0 (0.0%)

Three A(H1N1)pdm09 viruses had NA-H275Y amino acid substitution conferring highly reduced inhibition by oseltamivir and peramivir. One (H1N1)pdm09 virus had NA-I223V and NA-S247N amino acid substitutions and showed reduced inhibition by oseltamivir. One B virus had NA-A245G amino acid substitution and showed reduced inhibition by peramivir. One B virus had NA-D197N amino acid substitution and showed reduced inhibition by zanamivir and peramivir. One A(H3N2) virus had PA-I38T amino acid substitution and showed reduced susceptibility to baloxavir.

High levels of resistance to the adamantanes (amantadine and rimantadine) persist among influenza A(H1N1)pdm09 and influenza A(H3N2) viruses (the adamantanes are not effective against influenza B viruses). Therefore, use of these antivirals for treatment and prevention of influenza A virus infection is not recommended and data from adamantane resistance testing are not presented.

Outpatient Respiratory Illness Surveillance

The U.S. Outpatient Influenza-like Illness Surveillance Network (ILINet) monitors outpatient visits for respiratory illness referred to as influenza-like illness [ILI (fever plus cough or sore throat)], not laboratory-confirmed influenza and will therefore capture respiratory illness visits due to infection with pathogens that can present with similar symptoms, including influenza viruses, SARS-CoV-2, and RSV. It is important to evaluate syndromic surveillance data, including that from ILINet, in the context of other sources of surveillance data to obtain a more complete and accurate picture of influenza, SARS-CoV-2, and other respiratory virus activity. CDC is providing integrated information about COVID-19, influenza, and RSV activity on a website that is updated weekly. Information about other respiratory virus activity can be found on CDC’s National Respiratory and Enteric Virus Surveillance System (NREVSS) website.

Outpatient Respiratory Illness Visits

Nationally, the percentage of visits for respiratory illness that were reported through ILINet remained stable (change of ≤ 0.1 percentage points) compared to the previous week and is below the national baseline. All 10 regions are below their region-specific baselines. Multiple respiratory viruses are co-circulating, and the relative contribution of influenza virus infection to ILI varies by location.

national levels of ILI and ARI

* Effective October 3, 2021 (week 40), the ILI definition (fever plus cough or sore throat) no longer includes “without a known cause other than influenza.”

View Chart Data (current season only) | View Full Screen

Outpatient Respiratory Illness Visits by Age Group

About 70% of ILINet participants provide both the number of patient visits for respiratory illness and the total number of patient visits for the week broken out by age group. Data from this subset of providers are used to calculate the percentages of patient visits for respiratory illness by age group.

The percentage of visits for respiratory illness reported in ILINet decreased in the 0-4 years and 5-24 years age groups and remained stable in all other age groups in Week 21 compared to Week 20.

Outpatient Respiratory Illness Activity Map

Data collected in ILINet are used to produce a measure of ILI activity* by state/jurisdiction and Core Based Statistical Areas (CBSA).

ILI Activity by State/Jurisdiction and Core Based Statistical Area
Activity Level Number of Jurisdictions Number of CBSAs
Week 21
(Week ending
May 25, 2024)
Week 20
(Week ending 
May 18, 2024)
Week 21
(Week ending
May 25, 2024)
Week 20
(Week ending
May 18, 2024)
Very High 0 0 0 0
High 0 0 0 1
Moderate 0 2 4 3
Low 2 1 17 18
Minimal 52 52 644 668
Insufficient Data 1 0 264 239

 

*Data collected in ILINet may disproportionally represent certain populations within a jurisdiction or CBSA, and therefore, may not accurately depict the full picture of influenza activity for the entire jurisdiction or CBSA. Differences in the data presented here by CDC and independently by some health departments likely represent differing levels of data completeness with data presented by the health department likely being the more complete.


Additional information about medically attended visits for ILI for current and past seasons:
Surveillance Methods | FluView Interactive: National, Regional, and State Data or ILI Activity Map

Hospitalization Surveillance

FluSurv-NET

The Influenza Hospitalization Surveillance Network (FluSurv-NET) conducts population-based surveillance for laboratory-confirmed influenza-related hospitalizations in select counties in 14 states and represents approximately 9% of the U.S. population. FluSurv-NET hospitalization data are preliminary. As data are received each week, prior case counts and rates are updated accordingly.

A total of 24,889 laboratory-confirmed influenza-associated hospitalizations were reported by FluSurv-NET sites between October 1, 2023, and May 25, 2024. The weekly hospitalization rate observed in Week 21 was 0.2 per 100,000 population. The peak weekly hospitalization rate observed this season was 9.0 per 100,000 population and occurred during Week 52.

Among 24,889 hospitalizations, 21,071 (84.7%) were associated with influenza A virus, 3,643 (14.6%) with influenza B virus, 51 (0.2%) with influenza A virus and influenza B virus co-infection, and 124 (0.5%) with influenza virus for which the type was not determined. Among those with influenza A subtype information, 3,707 (68.4%) were A(H1N1) pdm09 and 1,710 (31.6%) were A(H3N2).

**In this figure, weekly rates for all seasons prior to the 2023-2024 season reflect end-of-season rates. For the 2023-2024 season, rates for recent hospital admissions are subject to reporting delays and are shown as a dashed line for the current season. As hospitalization data are received each week, prior case counts and rates are updated accordingly.


Additional FluSurv-NET hospitalization surveillance information for current and past seasons and additional age groups:
Surveillance Methods |FluView Interactive: Rates by Age, Sex, and Race/Ethnicity or Data on Patient Characteristics | RESP-NET Interactive

National Healthcare Safety Network (NHSN) Hospitalization Surveillance

Effective May 1, 2024, hospitals are no longer required to report hospital admissions, hospital capacity, or hospital occupancy data to HHS through NHSN. Voluntarily reported NHSN hospital data can found at Weekly United States Hospitalization Metrics by Jurisdiction.


Additional NHSN Hospitalization Surveillance information:
Surveillance Methods | Additional Data | FluView Interactive

Mortality Surveillance

National Center for Health Statistics (NCHS) Mortality Surveillance

Based on NCHS mortality surveillance data available on May 30, 2024, the percentage of deaths that were due to influenza remained stable (< 0.1 percentage point change) compared to the previous week. The data presented are preliminary and may change as more data are received and processed.


Additional pneumonia, influenza and COVID-19 mortality surveillance information for current and past seasons:
Surveillance Methods | FluView Interactive

Influenza-Associated Pediatric Mortality

Three influenza-associated pediatric deaths occurring during the 2023-2024 season were reported to CDC during Week 21, bringing the total pediatric deaths for this season to 172. One death was associated with an influenza A virus with no subtyping performed and occurred during Week 1 (the week ending January 6, 2024). Two deaths occurred during Week 10 (the week ending March 9, 2024); one was associated with an influenza A(H1N1)pdm09 virus and the other was associated with an influenza B virus with no lineage determined.


Additional pediatric mortality surveillance information for current and past seasons:
Surveillance Methods | FluView Interactive

Trend Indicators

Increasing: Increasing
Decreasing: Decreasing
Stable: Stable

Indicators Status by System

Clinical Labs: Up or down arrows indicate a change of greater than or equal to 0.5 percentage points in the percent of specimens positive for influenza compared to the previous week.
Outpatient Respiratory Illness (ILINet): Up or down arrows indicate a change of greater than 0.1 percentage points in the percent of visits due to respiratory illness (ILI) compared to the previous week.
NHSN Hospitalizations: Up or down arrows indicate change of greater than or equal to 5% of the number of patients admitted with laboratory-confirmed influenza compared to the previous week.
NCHS Mortality: Up or down arrows indicate change of greater than 0.1 percentage points of the percent of deaths due to influenza compared to the previous week.

Reference Footnotes

1U.S. Influenza Surveillance:  Purpose and Methods (2023 Oct). Centers for Disease Control and Prevention. https://www.cdc.gov/flu/weekly/overview.htm#ILINet.

2Grohskopf LA, Blanton LH, Ferdinands JM, Chung JR, Broder KR, Talbot HK. Prevention and Control of Seasonal Influenza with Vaccines: Recommendations of the Advisory Committee on Immunization Practices — United States, 2023–24 Influenza Season. MMWR Recomm Rep 2023;72(No. RR-2):1–25. DOI: http://dx.doi.org/10.15585/mmwr.rr7202a1

3Influenza Antiviral Medications: Summary for Clinicians (2023 Sept). Centers for Disease Control and Prevention. https://www.cdc.gov/flu/professionals/antivirals/summary-clinicians.htm.

Additional National and International Influenza Surveillance Information

FluView Interactive: FluView includes enhanced web-based interactive applications that can provide dynamic visuals of the influenza data collected and analyzed by CDC. These FluView Interactive applications allow people to create customized, visual interpretations of influenza data, as well as make comparisons across flu seasons, regions, age groups and a variety of other demographics.

National Institute for Occupational Safety and Health: Monthly surveillance data on the prevalence of health-related workplace absenteeism among full-time workers in the United States are available from NIOSH.

U.S. State and local influenza surveillance: Select a jurisdiction below to access the latest local influenza information.

World Health Organization:
Additional influenza surveillance information from participating WHO member nations is available through
FluNet and the Global Epidemiology Reports.

WHO Collaborating Centers for Influenza:
Australia, China, Japan, the United Kingdom, and the United States (CDC in Atlanta, Georgia)

Europe:
The most up-to-date influenza information from Europe is available from WHO/Europe and the European Centre for Disease Prevention and Control.

Public Health Agency of Canada:
The most up-to-date influenza information from Canada is available in Canada’s weekly FluWatch report.

Public Health England:
The most up-to-date influenza information from the United Kingdom is available from Public Health England.

Any links provided to non-Federal organizations are provided solely as a service to our users. These links do not constitute an endorsement of these organizations or their programs by CDC or the Federal Government, and none should be inferred. CDC is not responsible for the content of the individual organization web pages found at these links.

A description of the CDC influenza surveillance system, including methodology and detailed descriptions of each data component is available on the surveillance methods page.