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Traditional definition of healthcare-associated influenza underestimates cases associated with other healthcare exposures in a population-based surveillance system

Published online by Cambridge University Press:  19 April 2023

Erin B. Gettler Open the ORCID record for Erin B. Gettler [Opens in a new window] ,
H. Keipp Talbot ,
Yuwei Zhu Open the ORCID record for Yuwei Zhu [Opens in a new window] ,
Danielle Ndi ,
Edward Mitchel ,
Tiffanie M. Markus Open the ORCID record for Tiffanie M. Markus [Opens in a new window] ,
William Schaffner Open the ORCID record for William Schaffner [Opens in a new window] ,
Bryan Harris  and
Thomas R. Talbot Open the ORCID record for Thomas R. Talbot [Opens in a new window]
Erin B. Gettler*
Affiliation:
Division of Infectious Diseases, Department of Medicine, Duke University Medical Center, Durham, North Carolina
H. Keipp Talbot
Affiliation:
Department of Health Policy, Vanderbilt University Medical Center, Nashville, Tennessee Division of Infectious Diseases, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
Yuwei Zhu
Affiliation:
Department of Biostatistics, Vanderbilt University Medical Center, Nashville, Tennessee
Danielle Ndi
Affiliation:
Department of Health Policy, Vanderbilt University Medical Center, Nashville, Tennessee
Edward Mitchel
Affiliation:
Department of Health Policy, Vanderbilt University Medical Center, Nashville, Tennessee
Tiffanie M. Markus
Affiliation:
Department of Health Policy, Vanderbilt University Medical Center, Nashville, Tennessee
William Schaffner
Affiliation:
Department of Health Policy, Vanderbilt University Medical Center, Nashville, Tennessee Division of Infectious Diseases, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
Bryan Harris
Affiliation:
Division of Infectious Diseases, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
Thomas R. Talbot*
Affiliation:
Division of Infectious Diseases, Department of Medicine, Vanderbilt University Medical Center, Nashville, Tennessee
*
Author for correspondence: Erin B. Gettler, E-mail: erin.gettler@duke.edu. Or Thomas R. Talbot, E-mail: tom.talbot@vumc.org
Author for correspondence: Erin B. Gettler, E-mail: erin.gettler@duke.edu. Or Thomas R. Talbot, E-mail: tom.talbot@vumc.org
Rights & Permissions [Opens in a new window]

Abstract

Objective:

To provide comprehensive population-level estimates of the burden of healthcare-associated influenza.

Design:

Retrospective cross-sectional study.

Setting:

US Influenza Hospitalization Surveillance Network (FluSurv-NET) during 2012–2013 through 2018–2019 influenza seasons.

Patients:

Laboratory-confirmed influenza-related hospitalizations in an 8-county catchment area in Tennessee.

Methods:

The incidence of healthcare-associated influenza was determined using the traditional definition (ie, positive influenza test after hospital day 3) in addition to often underrecognized cases associated with recent post-acute care facility admission or a recent acute care hospitalization for a noninfluenza illness in the preceding 7 days.

Results:

Among the 5,904 laboratory-confirmed influenza-related hospitalizations, 147 (2.5%) had traditionally defined healthcare-associated influenza. When we included patients with a positive influenza test obtained in the first 3 days of hospitalization and who were either transferred to the hospital directly from a post-acute care facility or who were recently discharged from an acute care facility for a noninfluenza illness in the preceding 7 days, we identified an additional 1,031 cases (17.5% of all influenza-related hospitalizations).

Conclusions:

Including influenza cases associated with preadmission healthcare exposures with traditionally defined cases resulted in an 8-fold higher incidence of healthcare-associated influenza. These results emphasize the importance of capturing other healthcare exposures that may serve as the initial site of viral transmission to provide more comprehensive estimates of the burden of healthcare-associated influenza and to inform improved infection prevention strategies.

Type
Original Article
Information
Infection Control & Hospital Epidemiology , Volume 44 , Issue 11 , November 2023 , pp. 1816 - 1822
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America

Accounting for an estimated 140,000–710,000 hospitalizations and 12,000–52,000 deaths in the United States annually since 2010,1 influenza is a significant cause of morbidity and mortality. Transmission of influenza to patients has occurred in a variety of healthcare settings,Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2Reference Strausbaugh, Sukumar and Joseph6 often as the result of infected healthcare personnel,Reference Petrie and Talbot7 and it is associated with increased length of stay and poor outcomes.Reference Naudion, Lepiller and Bouiller8 Despite this impact, comprehensive estimates of the incidence of healthcare-associated influenza are limited. The most commonly used method to capture the burden of this important nosocomial infection defines healthcare-associated influenza as an influenza case diagnosed after day 3 of hospitalization,Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2,Reference Jhung, D’Mello and Pérez9,Reference Cummings, O’Halloran and Azenkot10 which ignores other preadmission healthcare exposures. Most published reports also only describe the experience of outbreaks at single institutionsReference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2,Reference Naudion, Lepiller and Bouiller8 or the epidemiology of pandemic strains.Reference Pollara, Piccinelli and Rossi3,Reference Chen, Dailey and Rao11 Lack of standardized surveillance definitions and variation in clinician-driven testing inhibit comparability between these published studiesReference Munier-Marion, Bénet and Vanhems12 and likely underestimate the number of healthcare-associated influenza hospitalizations.

Of the few published population-level estimates in the United States, the proportion of healthcare-associated influenza ranged from 0.4% to 2.8% of patients admitted with influenza.Reference Jhung, D’Mello and Pérez9,Reference Cummings, O’Halloran and Azenkot10 Although this frequency was relatively low, Jhung et alReference Jhung, D’Mello and Pérez9 and Cummings et alReference Cummings, O’Halloran and Azenkot10 found that patients with healthcare-associated influenza were more likely to have severe outcomes, including the need for ICU-level care, mechanical ventilation, and longer hospital stays.Reference Jhung, D’Mello and Pérez9,Reference Cummings, O’Halloran and Azenkot10 These studies, however, omit important preadmission healthcare exposures (eg, residence in a post-acute care facility, recent admission to an acute care facility, or key ambulatory healthcare visits) that may have served as the initial location of viral transmission.Reference Feemster, Odeniyi, Localio, Grundmeier, Coffin and Metlay13 Limited to cases identified using the traditional definition of healthcare-associated influenza with test positivity and symptom onset after day 3 of hospitalization, these studies likely underestimated the overall burden of healthcare-associated influenza.

To perform a more comprehensive assessment of healthcare-associated influenza that includes preadmission healthcare exposures, we used data from the US Influenza Hospitalization Surveillance Network (FluSurv-NET) to evaluate the population-level burden of healthcare-associated influenza over 7 influenza seasons. The incidence of healthcare-associated influenza using the traditional definition was compared to that calculated with the addition of cases associated with recent post-acute care facility admission or a recent acute care hospitalization for a noninfluenza illness to better understand the frequency of other healthcare exposures that result in hospitalization for influenza.

Methods

FluSurv-NET is a population-based, multicenter surveillance system that collects data on laboratory-confirmed influenza-associated hospitalizations in pediatric and adult patients in acute care hospitals within predefined counties in the 14 states participating in the Emerging Infections Program (EIP).14,Reference Chaves, Lynfield, Lindegren, Bresee and Finelli15 The EIP is a collaborative network organized by the Centers for Disease Control and Prevention in partnership with state health departments and academic medical centers.16 Within FluSurv-NET, persons of any age residing within the defined catchment area admitted between October and April of every year with a positive influenza test collected within 14 days prior to or during the hospitalization are included. For each identified case, medical history, clinical course, medical interventions, and outcomes are obtained through medical chart abstraction performed by trained personnel. In this study, persons meeting the FluSurv-NET case definition and admitted between 2012 and 2019 and residing in an 8-county catchment area in middle Tennessee (ie, Cheatham, Davidson, Dickson, Robertson, Rutherford, Sumner, Williamson, and Wilson counties) were included. Laboratory confirmation was defined as a positive influenza test by molecular assay, rapid antigen testing, or viral culture.

The “traditional” definition of healthcare-associated influenza was defined as cases that occurred in persons with a positive influenza test after day 3 of the index hospitalization.Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2,Reference Jhung, D’Mello and Pérez9,Reference Cummings, O’Halloran and Azenkot10 To include other preadmission healthcare settings in which influenza virus exposure and transmission may have occurred, we identified persons with a positive influenza test collected in the first 3 days of hospitalization who either (1) were transferred from a post-acute care facility, or (2) were discharged from an acute care facility for a noninfluenza illness in the 7 days preceding the index influenza admission (Fig. 1). These “additional healthcare exposures” combined with the cases meeting the “traditional” definition collectively represent the more comprehensive “expanded” definition of healthcare-associated influenza. Cases transferred directly from skilled nursing facilities, inpatient rehabilitation facilities, long-term acute care hospitals, inpatient hospice, and mental health facilities were included. Recent acute care hospital discharges were ascertained from FluSurv-NET and the Tennessee Department of Health Hospital Discharge Data System. Cases with only outpatient encounters in the days preceding admission could not be captured in the surveillance process and were therefore not included in the expanded definition.

Fig. 1. Traditional definition of healthcare-associated influenza and additional preadmission healthcare exposures.1 Influenza-related hospitalizations with a positive test after day 3 were included in the traditional definition.Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2 Influenza-related hospitalizations with a positive test in the first 3 days of admission among patients directly transferred from a post-acute care facility or discharged from a non-influenza acute care hospitalization in the 7 days preceding the index admission were included in the additional preadmission healthcare exposure category.Reference Pollara, Piccinelli and Rossi3 Cases meeting the traditional definition and those captured by the addition of the preadmission healthcare exposures were included in the expanded definition of healthcare-associated influenza. Note. HD, hospital day.

Cases described as healthcare-associated influenza by either the traditional or expanded definitions were expressed as a percentage of the total laboratory-confirmed influenza-related hospitalizations by annual influenza season and overall. Additionally, the proportion of positive cases attributed to each type of healthcare exposure (ie, index hospitalization, associated with post-acute care transfer, or associated with recent acute care admission) were calculated. We calculated unadjusted incidence rates per 100,000 population stratified by type of healthcare exposure by year and overall using the number of cases meeting the definitional criteria as the numerator and the population within the predefined catchment area, as recorded by the National Center for Health Statistics’ vintage bridged-race postcensal population estimates,17 as the denominator. Additionally, a simple Poisson regression model was conducted to evaluate the association between cases and healthcare exposure using the traditional definition as the reference. Incidence rate ratios (IRRs) have been reported with their 95% confidence intervals (CI). Analyses were conducted in Stata version 16 software (StataCorp, College Station, TX). This study was approved by the Vanderbilt University Medical Center and Tennessee Department of Health Institutional Review Boards.

Results

Among the 5,904 laboratory-confirmed influenza-related hospitalizations from 2012 through 2019 in the surveillance catchment area, most patients (52%) were aged ≥65 years (median age, 66 years; IQR, 50–79), were non-Hispanic White (73%), and had 1 or more underlying medical condition (91% of adults) (Table 1). In the total cohort, nearly 20% of patients admitted with influenza required ICU-level care and had a median hospital length of stay of 3 days (IQR, 2–6 days).

Table 1. Characteristics of Patients with an Influenza-Related Hospitalization, FluSurv-NET, 2012–2019

a Healthcare-associated influenza among patients with pre-admission healthcare exposures was compared to healthcare-associated influenza as defined by the traditional definition using chi-square.

b Self-reported race and ethnicity as captured in the electronic medical record.

Of these influenza-related hospitalizations, 147 (2.5%) had traditionally defined healthcare-associated influenza. Relative to the total cohort, these patients had a higher proportion of ICU admission (32% vs 19%; P < .001) and a longer median length of stay (12 days vs 3 days, respectively).

The inclusion of persons with a positive influenza test obtained in the first 3 days of hospitalization with a preadmission healthcare exposure identified an additional 1,031 cases (17.5% of all influenza-related hospitalizations). Of these additional cases, 289 (4.9%) were transferred from a post-acute care facility, 682 (11.6%) had a recent acute care hospital admission in the preceding 7 days, and 60 (1%) had both a recent acute care hospital admission and contact with a post-acute care facility (Fig. 2). Compared to those cases defined using only the traditional definition, cases defined by these additional healthcare exposures were more likely female (59% vs 50%; P = .041) and non-Hispanic White (79% vs 68%; P = .008). Within this group, the median length of stay more closely resembled that of the total cohort; however, similar to cases defined using only the traditional definition, the cohort identified with the additional healthcare exposures had a higher proportion of ICU admission than the total cohort of laboratory-confirmed influenza (27% vs 19%; P < .001).

Fig. 2. Proportion of influenza-related hospitalizations by type of healthcare exposure, FluSurv-NET, 2012–2019.1 Cases meeting the traditional definition and those captured by the additional preadmission healthcare exposures were included in the expanded definition of healthcare-associated influenza.Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2 Influenza-related hospitalizations with a positive test after hospital day 3 were included in the traditional definition.Reference Pollara, Piccinelli and Rossi3 Influenza-related hospitalizations with a positive test in the first 3 days of admission in patients directly transferred from a post-acute care facility.Reference Lansbury, Brown and Nguyen-Van-Tam4 Influenza-related hospitalizations with a positive test in the first 3 days of admission in patients discharged from a noninfluenza acute care hospitalization in the 7 days preceding index admission.

After including the additional healthcare exposures into the expanded definition, the proportion of laboratory-confirmed influenza-related hospitalizations that were healthcare-associated increased from 2.5% to 20%. The proportion of healthcare-associated influenza cases varied by each annual influenza season, ranging from 1.3% to 3.4% for cases defined using the traditional definition and 16.9% to 21.3% for cases defined using the expanded definition (Fig. 3).

Fig. 3. Proportion of influenza-related hospitalizations by traditional and expanded definitions of healthcare-associated influenza, FluSurv-NET, 2012–2019.

Among all influenza-related hospitalizations, the unadjusted rate of traditionally defined healthcare-associated influenza was 1.3 per 100,000 (with an annual seasonal range of 0.4–3.5, data not shown). This rate increased to 10.2 per 100,000 (range, 4.7–22.1) when the more comprehensive expanded definition of healthcare-associated influenza was used. Relative to the traditional definition, the incidence rate ratio of healthcare-associated influenza by the expanded definition was over 8-fold higher (8.0; 95% CI, 6.8–9.5) (Fig. 4).

Fig. 4. Incidence rate ratio of healthcare-associated influenza by type of preadmission healthcare exposure, FluSurv-NET, 2012–2019.

Discussion

Comprehensive estimates of the incidence of healthcare-associated influenza in the United States are limited. The majority of published studies describe outbreaks within single institutions,Reference Bischoff, Petraglia, McLouth, Viviano, Bischoff and Palavecino2,Reference Pollara, Piccinelli and Rossi3,Reference Naudion, Lepiller and Bouiller8,Reference Chen, Dailey and Rao11 and the variability used to define healthcare-associated influenza limits comparison across studies.Reference Munier-Marion, Bénet and Vanhems12,Reference Vanhems, Landelle and Bénet18 In addition, very few studies utilize a larger population-level surveillance to examine healthcare-associated influenza burden, and these reports were limited to traditionally defined cases with hospital-onset of symptoms or positive diagnostic testing after 3 days of hospitalization.Reference Jhung, D’Mello and Pérez9,Reference Cummings, O’Halloran and Azenkot10,Reference Godoy, Torner and Soldevila19 The current study addresses several of these limitations. Using a population-based surveillance system of laboratory-confirmed hospitalized cases of influenza over 7 influenza seasons in middle Tennessee. Our findings further demonstrate that the traditional definition of hospitalized healthcare-associated influenza underestimates the potential true incidence of this important nosocomial infection by failing to include preadmission healthcare exposures.

These findings reinforce and augment those from a recently published study from the Canadian Nosocomial Infection Surveillance Program between 2006 and 2012. In their analysis, laboratory-confirmed influenza was considered in those patients with symptom onset within 96 hours after transfer from another facility or readmission <96 hours after discharge in addition to those patients with more traditional hospital-onset of symptoms. Including these additional healthcare exposures, the frequency of healthcare-associated influenza was much higher at 17.3% of all hospitalized influenza cases,Reference Taylor, Mitchell and McGeer20 similar to the findings of our study. Moreover, 60.5% of the cases were associated with a recent stay in a long-term care facility,Reference Taylor, Mitchell and McGeer20 emphasizing the need for more comprehensive influenza surveillance and implementation of infection prevention strategies in these non-acute care settings.

Outbreaks of influenza in long-term care facilities have been well described,Reference Lansbury, Brown and Nguyen-Van-Tam4,Reference Strausbaugh, Sukumar and Joseph6 yet relatively little is known about the degree to which outpatient or other healthcare settings contribute to the incidence of healthcare-associated influenza. In a retrospective cohort study among pediatric patients, a significant association was detected between outpatient clinic visits and the increased incidence of influenza-like illness (ILI) after a non-ILI encounter during periods of high respiratory virus transmission.Reference Feemster, Odeniyi, Localio, Grundmeier, Coffin and Metlay13 Improved understanding of how these healthcare settings may contribute to healthcare-associated influenza has important implications for horizontal infection control practices and may generate novel ways to lessen viral spread. These settings often present unique challenges to the general application of infection prevention practices that differ from those used in inpatient facilities,Reference Lansbury, Brown and Nguyen-Van-Tam4,Reference Sturm, Flood, Montoya, Mody and Cassone21,Reference Smith, Bennett and Bradley22 but these settings provide care for a number of particularly vulnerable patients with a burgeoning aging population and shift in the delivery of increasingly complex subspecialty care to outpatient settings.

Standardized and more complete definitions of healthcare-associated influenza could also improve clinician awareness and early detection of influenza as patients hospitalized with influenza may not present with the common signs and symptoms associated with an influenza-like illness.Reference Babcock, Merz and Fraser23 Timely recognition leads to rapid implementation of respiratory isolation precautions and reduced subsequent nosocomial transmission. As the results of this study suggest, healthcare-associated influenza has been associated with adverse outcomes, including longer length of stay, as well as increased need for ICU-level care, mechanical ventilation, and mortality relative to community-acquired influenza.Reference Godoy, Torner and Soldevila19

This study had several limitations. First, determination of an influenza-related hospitalization is dependent on clinician-driven testing. Variability in clinical practice and institutional testing protocols may have resulted in significant underrecognition of influenza burden.Reference Reed, Chaves and Daily Kirley24 We did not apply any multipliers to the burden estimate to account for testing practices; therefore, these burden estimates are very conservative. Secondly, categorizing cases as community- or healthcare-associated based on the date of test positivity may lead to misclassification, particularly without chart review to assess for symptoms consistent with ILI before test positivity. Not all potential preadmission healthcare exposures (eg, dialysis, infusion clinic, and outpatient clinic visits) were captured in the expanded definition, possibly leading to misattribution of cases as community-associated if the actual viral transmission occurred in these healthcare settings. Additionally, only influenza cases that required hospitalization were captured. Notably, the delay between admission and the date of test positivity used in the traditional definition is conservative based on the median incubation period for influenza (ie, 1.4 and 0.6 days for influenza A and B, respectively),Reference Lessler, Reich, Brookmeyer, Perl, Nelson and Cummings25 thereby increasing the specificity of our definition. For these reasons, these results still may underestimate the true burden of healthcare-associated influenza.Reference Vanhems, Landelle and Bénet18 Conversely, including cases that occurred within 7 days of discharge from an acute care facility may misrepresent some cases that were actually community acquired. The challenge in attributing a source of transmission of a case of influenza must be acknowledged, as one can rarely determine this with absolute confidence. Hence, the use of the term “healthcare associated” and not “healthcare acquired,” which provides the association that can direct infection prevention interventions that should reduce healthcare-associated virus transmission even with the inability to definitively attribute the source of transmission of a specific case. Lastly, while these study results support the need for comprehensive and systematic surveillance of healthcare-associated influenza, there are barriers to capturing these other exposures accurately as part of a routine surveillance program. Improved data collection and tracking in the electronic medical record could assist with this effort.

In summary, restricting surveillance of healthcare-associated influenza to only those cases possibly acquired during the current acute care admission underestimates the prevalence of this important yet underrecognized nosocomial infection. Standardization of definitions and surveillance methods could improve the understanding of influenza transmission and inform clinical practice and infection prevention strategies to mitigate healthcare-associated transmission across all types of healthcare facilities.

Acknowledgments

We thank Karen Leib, RN, Terri McMinn, and John Ujwok at the Vanderbilt University School of Medicine.

Financial support

This research was supported by the Centers for Disease Control and Prevention through the Emerging Infections Program (grant no. CK17-1701) and was supported by the National Center for Advancing Translational Sciences (CTSA grant no. UL1 TR002243). Its contents are solely the responsibility of the authors and do not necessarily represent official views of the National Center for Advancing Translational Sciences or the National Institutes of Health.

Conflicts of interest

H.K.T. receives funding from the Centers for Disease Control and Prevention through the Emerging Infections Program. T.R.T. serves on the Board of Directors for OmniSolve. All other authors have no conflicts to report.

Footnotes

PREVIOUS PRESENTATION: Preliminary results of this study were presented as abstract no. 47 at the Society of Healthcare Epidemiology of America Spring 2021 Conference on April 7–8, 2021, held virtually.

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Figure 0

Fig. 1. Traditional definition of healthcare-associated influenza and additional preadmission healthcare exposures.1Influenza-related hospitalizations with a positive test after day 3 were included in the traditional definition.2 Influenza-related hospitalizations with a positive test in the first 3 days of admission among patients directly transferred from a post-acute care facility or discharged from a non-influenza acute care hospitalization in the 7 days preceding the index admission were included in the additional preadmission healthcare exposure category.3 Cases meeting the traditional definition and those captured by the addition of the preadmission healthcare exposures were included in the expanded definition of healthcare-associated influenza. Note. HD, hospital day.

Figure 1

Table 1. Characteristics of Patients with an Influenza-Related Hospitalization, FluSurv-NET, 2012–2019

Figure 2

Fig. 2. Proportion of influenza-related hospitalizations by type of healthcare exposure, FluSurv-NET, 2012–2019.1Cases meeting the traditional definition and those captured by the additional preadmission healthcare exposures were included in the expanded definition of healthcare-associated influenza.2Influenza-related hospitalizations with a positive test after hospital day 3 were included in the traditional definition.3Influenza-related hospitalizations with a positive test in the first 3 days of admission in patients directly transferred from a post-acute care facility.4Influenza-related hospitalizations with a positive test in the first 3 days of admission in patients discharged from a noninfluenza acute care hospitalization in the 7 days preceding index admission.

Figure 3

Fig. 3. Proportion of influenza-related hospitalizations by traditional and expanded definitions of healthcare-associated influenza, FluSurv-NET, 2012–2019.

Figure 4

Fig. 4. Incidence rate ratio of healthcare-associated influenza by type of preadmission healthcare exposure, FluSurv-NET, 2012–2019.