Influenza epidemiology in adults admitted to sentinel Australian hospitals in 2014: the Influenza Complications Alert Network (FluCAN)

In 17 Australian hospitals, 1692 admissions with laboratory confirmed influenza were reported between April and October 2014, of which almost half were elderly and 85% had medical comorbidities.

Page last updated: 16 October 2015

Influenza epidemiology in adults admitted to sentinel Australian hospitals in 2014: the Influenza Complications Alert Network (FluCAN)

Allen C Cheng, Mark Holmes, Sanjaya Senanayake, Dominic E Dwyer, Saliya Hewagama, Tony Korman, Louis Irving, Simon Brown, Grant W Waterer, Cameron Hunter, N Deborah Friedman, Peter Wark, Graham Simpson, John Upham, Simon Bowler, Kristine Macartney, Chrisopher Blyth, Tom Kotsimbos, Paul Kelly

Abstract

The Influenza Complications Alert Network (FluCAN) is a sentinel hospital-based surveillance program that operates at sites in all states and territories in Australia. This report summarises the epidemiology of hospitalisations with laboratory-confirmed influenza during the 2014 influenza season. In this observational study, cases were defined as patients admitted to one of the sentinel hospitals with an acute respiratory illness with influenza confirmed by nucleic acid detection. During the period 3 April to 31 October 2014 (the 2014 influenza season), 1,692 adult patients (>16 years) were admitted with confirmed influenza to one of 15 of 17 FluCAN sentinel hospitals (excluding 2 paediatric hospitals). Of these, 47% were over 65 years of age, 10% were Indigenous Australians, 3.3% were pregnant and 85% had chronic co-morbidities. The majority of cases were due to influenza A. Influenza B was detected in 7% of patients. There were a large number of hospital admissions detected with confirmed influenza in this national observational surveillance system in 2014. These are estimated to represent a national annual burden of around 15,000 admissions and almost 100,000 bed-days nationally. Commun Dis Intell 2015;39(3):E355–E360.

Top of page

Introduction

Influenza is a common respiratory viral infection that affects up to 5%–10% of the population each year.1 Although the proportion of cases requiring hospitalisation is low, because infection with influenza virus is relatively widespread, the incidence of hospitalisation from influenza is of public health significance.2

We established a national sentinel surveillance program for severe influenza in 2009 primarily to provide timely information to public health authorities nationally on hospitalisations with laboratory-confirmed influenza. In this report, we describe the epidemiology of hospitalisation in adults with laboratory-confirmed influenza. A report on severe paediatric influenza will be reported separately.

Top of page

Methods

The Influenza Complications Alert Network (FluCAN) is a national hospital-based sentinel surveillance system.3 For the 3 most recent influenza seasons including 2014, the participating sites have been The Alfred Hospital (Vic.), Royal Melbourne Hospital (Vic.), Canberra Hospital (ACT), Calvary Hospital (ACT), Monash Medical Centre (Vic.), University Hospital Geelong (Vic.), Royal Perth Hospital (WA), Royal Adelaide Hospital (SA), Royal Hobart Hospital (Tas.), Mater Hospital (Qld), Princess Alexandra Hospital (Qld), Cairns Base Hospital (Qld), Alice Springs Hospital (NT), Westmead Hospital (NSW), and John Hunter Hospital (NSW). In 2014, 2 additional paediatric speciality hospitals also participated but paediatric data will be reported separately. Case numbers vary from previous reports due to exclusion of paediatric cases.4 Ethical approval has been obtained at all participating sites, at Monash University and the Australian National University.

An influenza case was defined as a patient admitted to hospital with influenza confirmed by nucleic acid testing. Surveillance is conducted from April to November (with follow up continuing to the end of November) each year. Admission or transfer to an intensive care unit (ICU) included patients managed in a high dependency unit. The onset date was defined as the date of admission except for patients where the date of the test was more than 7 days after admission, where the onset date was the date of the test. The presence of risk factors and comorbidities was ascertained from the patient’s medical record. Restricted functional capacity was defined as those who were not fully active and not able to carry on all pre-disease performance without restriction.5

We examined factors associated with ICU admission and the length of hospital stay using multivariable regression. Factors associated with ICU admission were determined using a logistic regression model, with factors retained in the multivariable model if P<0.2. Factors associated with the length of hospital stay were modelled using a linear regression, as the mean duration of stay was the parameter of interest. Standard errors were estimated using bootstrapping (1,000 replicates) to correct for non-normality of residuals due to the skewed distribution of length of stay.

Top of page

Results

During the period 5 April to 31 October 2014 (the 2014 influenza season), 1,692 patients were admitted with laboratory-confirmed influenza to one of 15 FluCAN non-paediatric sentinel hospitals. The peak rate of admission was highest in early September, and varied by jurisdiction between mid-August and mid-September (Figure). The majority of cases were due to influenza A, but 115 (6.8%) were due to influenza B. The proportion due to influenza B varied by site from 1 of 55 cases (2%) at the University Hospital Geelong, to 32 of 180 cases (18%) at Westmead Hospital.

Figure: Date of admission in patients hospitalised with confirmed influenza, 5 April to 31 October 2014

bar chart. link to text description follows.

By week beginning on listed date; representing date of admission (or date of influenza diagnosis if acquired less than 7 days in hospital).

Text version of Figure (TXT 1 KB)

Top of page

Of these 1,692 patients, 793 (47%) were more than 65 years of age, 169 (10%) were Indigenous Australians, 56 (3.3%) were pregnant and 1,433 (85%) had chronic co-morbidities (Table 1 and Table 2). Of the 1,283 patients (76%) where influenza vaccination status was ascertained, 636 (50%) had been vaccinated. The most commonly reported co-morbidities were respiratory disease, cardiac disease, immunosuppression and diabetes. Of the total, 684 (40%) patients reported a restriction in functional status and 111 (6.6%) were resident in an aged care facility.

Table 1: Demographic characteristics of hospitalised adult patients with confirmed influenza
Characteristic Influenza type Total*
A/H1N1/09pdm A/H3N2 A/unsubtyped B
* 4 patients with disease with multiple subtypes included in total.
Total
271
309
993
115
1,692
Age group
n
%
n
%
n
%
n
%
n
%
16-49 years
126
46.5
67
21.7
276
27.8
37
32.2
507
30.0
5-65 years
79
29.2
53
17.2
234
23.6
26
22.6
392
23.2
65-79 years
51
18.8
107
34.6
250
25.2
24
20.9
434
25.7
80+ years
15
5.5
82
26.5
233
23.5
28
24.3
359
21.2
Male
136
50.2
149
48.2
436
43.9
52
45.2
776
45.9
Indigenous
11
4.1
4
1.3
146
14.7
8
7.0
169
10.0
State or territory
ACT
39
14.4
100
32.4
9
0.9
10
8.7
158
9.3
NSW
32
11.8
124
40.1
137
13.8
39
33.9
335
19.8
NT
0
0.0
0
0.0
131
13.2
9
7.8
140
8.3
Qld
19
7.0
17
5.5
172
17.3
13
11.3
221
13.1
SA
1
0.4
0
0.0
301
30.3
15
13.0
317
18.7
Tas.
30
11.1
0
0.0
22
2.2
3
2.6
55
3.3
Vic.
107
39.5
46
14.9
221
22.3
16
13.9
391
23.1
WA
43
15.9
22
7.1
0
0.0
10
8.7
75
4.4

Top of page

Table 2: Risk factors, severity and outcomes in hospitalised adult patients with confirmed influenza
  Not admitted to intensive care unit Admitted to intensive care unit Total
Total
1,481
211
1,692
n % n % n %
Pregnancy
52
3.5
4
1.9
56
3.3
Nursing home resident
109
7.4
2
0.9
111
6.6
Restricted functional status
610
41.2
74
35.1
684
40.4
Medical comorbidities
1,252
84.5
181
85.8
1433
84.7
Chronic cardiac disease
511
34.5
61
28.9
572
33.8
Chronic renal disease
224
15.1
27
12.8
251
14.8
Chronic renal disease
589
39.8
111
52.6
700
41.4
Diabetes
383
25.9
45
21.3
428
25.3
Chronic liver disease
67
4.5
16
7.6
83
4.9
Immunosuppressed
279
18.8
31
14.7
310
18.3
Chronic neurological disease
260
17.6
20
9.5
280
16.5
Influenza vaccination
580/1,132
51.2
56/151
37.1
636/1,283
49.6
Influenza subtype
A/H1N1/09pdm
216
14.6
55
26.1
271
16.0
A/H3N2
274
18.5
35
16.6
309
18.3
A/unsubtyped
885
59.8
108
51.2
993
58.7
B
102
6.9
13
6.2
115
6.8
Multiple strains
4
0.3
0
0.0
4
0.2
In hospital mortality
23/1,330
1.7
21/186
11.3
44/1,516
2.9

Top of page

Presentation and treatment

For 1,546 patients with laboratory-confirmed influenza where the duration of symptoms was known, the median duration of symptoms prior to admission was 3 days (interquartile range (IQR): 2, 5 days). Of patients with influenza, 950 (56%) received oseltamivir; of these, 299 were known to have received oseltamivir within 48 hours of symptom onset. The duration of hospital stay was similar in patients that did not receive antivirals (median 4 days, IQR 2, 7 days), received antivirals within 48 hours of symptom onset (4 days, IQR 2, 7 days) or who received antivirals more than 48 hours after symptom onset (5 days, IQR 3, 8 days).

Admissions to intensive care

Of all cases, 179 patients (10.6%) were initially admitted to ICU and a further 32 (2%) were subsequently transferred to ICU after initial admission to a general ward. In a multivariate model, elderly patients and nursing home residents were associated with a lower risk of ICU admission in patients admitted to hospital with laboratory-confirmed influenza Table 3). In this model, medical comorbidities were associated with a higher risk of ICU admission and pregnancy was associated with a low risk of ICU admission, but these differences were not statistically significant. There were no significant differences in the risk of admission by influenza type.

Table 3: Factors associated with admission to intensive care in patients hospitalised with confirmed influenza
Variable Crude odds ratio (95% CI) P value Adjusted odds ratio (95% CI) P value
NI Not included in final model.
Age >65 years
0.43 (0.31, 0.58)
<0.001
0.43 (0.31, 0.59)
<0.001
Medical comorbidities
1.10 (0.73, 1.66)
0.639
1.43 (0.94, 2.17)
0.099
Pregnancy
0.53 (0.19, 1.48)
0.227
0.37 (0.13, 1.05)
0.062
Indigenous Australian
1.12 (0.70, 1.78)
0.637
NI
Restricted functional status
0.77 (0.57, 1.04)
0.091
Nursing home resident
0.12 (0.03, 0.49)
0.003
0.16 (0.04, 0.68)
0.013
Influenza type
Influenza A
1 (referent)
Influenza B
0.89 (0.49, 1.61)
0.688
NI

Top of page

Outcome

The mean length of hospital stay for all patients was 6.6 days. Admission to ICU was associated with an increase in mean hospital length of stay of 8.3 days compared with those not admitted to ICU; other factors associated with a prolonged length of stay included medical comorbidities and restricted pre-morbid functional capacity. Factors associated with a shorter length of stay included pregnancy and Indigenous ethnicity (Table 4).

Table 4: Factors associated with length of hospital stay from presentation or diagnosis with influenza
Variable Crude coefficient (95% CI) P value Adjusted coefficient (95% CI) P value
* Bootstrapped linear regression: baseline length of stay 3.7 days (representing mean length of stay in a non-elderly, non-Indigenous patient with no comorbidities or functional restriction, not admitted to intensive care unit).

NI Not included in final model.

RACF Residential aged care facility.
Age >65 years
1.07 (0.19, 1.96)
0.017
0.79 (-0.03, 1.60)
0.059
Medical comorbidities
2.10 (1.28, 2.91)
<0.001
1.20 (0.37, 2.03)
0.004
Indigenous Australian
-1.92 (-2.81, -1.03)
<0.001
-1.44 (-2.19, -0.70)
<0.001
Pregnancy
-3.10 (-4.28, -1.91)
<0.001
-1.69 (-2.56, -0.82)
<0.001
Influenza B (vs Influenza A)
-0.13 (-1.52, 1.26)
0.854
NI
RACF resident
1.33 (-0.15, 2.80)
0.079
Restricted functional capacity
2.06 (1.32, 2.80)
<0.001
1.59 (0.95, 2.24)
<0.001
Intensive care admission
8.12 (6.40, 9.84)
<0.001
8.31 (6.53, 10.08)
<0.001

Top of page

Of the 1,516 patients where hospital mortality status was documented, 44 (2.9%) patients died, which included 21 patients in ICU. Of all in-hospital deaths, 32 (73%) were patients more than 65 years of age, 43 (98%) had medical comorbidities and 2 (1.9%) were Indigenous Australians. Significant medical comorbidities in patients who died following admission with laboratory-confirmed influenza were recorded as chronic cardiac disease (n=19), chronic respiratory disease (n=23), immunosuppression (n=11), diabetes (n=14) and renal disease (n=9).

Top of page

Discussion

Hospital-based sentinel surveillance provides timely and detailed information on the severity of illness, and complements community- and primary care-based surveillance systems that provide information on the extent of spread. Surveillance programs similar to FluCAN are operating in many countries.6–10 The FluCAN system in Australia includes sites in all jurisdictions with representation from metropolitan and regional hospitals, specialist paediatric hospitals and those in tropical and subtropical regions. By collecting data on patients with acute respiratory illness who test negative for influenza, vaccine coverage (particularly in vulnerable patients) and vaccine effectiveness against severe influenza can be estimated from the same study.11, 12

In 2014, we recorded almost 1,700 admissions to the 15 hospitals that participated in this surveillance network, representing the highest number of admissions since surveillance commenced in 2009. Virological surveillance suggested influenza A(H1N1)pdm09 predominated across most jurisdictions throughout the season, however influenza A(H3N2) was predominant in New South Wales and the Australian Capital Territory.4 Influenza B (B/Yamagata-lineage) was less common in this season than in 2013.13 Due to differences in the number and size of sentinel hospitals in each jurisdiction, the relative number of cases between jurisdictions may not represent differences in true influenza incidence.

Compared with previous years, the 2014 season was slightly earlier (mid-August to early September compared with mid-September in 2013). Patients admitted in 2014 (47% were over 65 years) were older than in 2013 (32% over 65 years), but had a similar age profile to those in 2012 (46% over 65 years).

In contrast to other studies, we found that the demographic profile and proportion with chronic comorbidities was similar in patients who were admitted to ICU compared with those admitted to the general wards.14 Older patients were under-represented in ICU; this is likely to reflect a lower severity of illness, as older patients with mild disease may still require care in hospital. This may also reflect policies discouraging admission of the frail elderly into ICU if deemed futile.

We found that the length of stay was longer in those with more severe illness (ICU admission) and functional impairment. Interestingly, some risk groups (elderly, pregnant, Indigenous Australians) had a shorter length of hospital stay suggesting that the severity of illness is the primary driver for length of stay, rather than underlying risk factors. It may also reflect ascertainment bias in that patients with risk factors may have been more likely to be tested for influenza.

Top of page

With a mean length of stay of 6.6 days, the patients with laboratory-confirmed influenza detected in this surveillance system represent over 9,870 bed days in the 15 sentinel hospitals. As the hospitals represented in this network represent approximately 12% of the national hospital bed capacity, the cases detected here are likely to represent approximately 15,000 admissions and almost 100,000 bed days nationally. Although the estimate of disease-attributable cost varies widely according to the method of calculation,15 recent Australian costing data suggest that the direct hospital inpatient cost of admissions with confirmed influenza is approximately A$60 million to A$100 million based on accounting costs.16 This is likely to represent a minimum estimate due to influenza case under-ascertainment, healthcare costs incurred following discharge and costs borne by other payers.

There are several limitations to this study. There may be under-ascertainment of influenza due to poor quality sample collection or the lack of use of influenza laboratory tests, despite the diagnosis of influenza having implications for infection control and antiviral use in hospitals. Delayed presentations or secondary bacterial pneumonia may be associated with false negative influenza tests as the influenza infection may be cleared by the time of presentation. Ascertainment in tropical regions is limited by sampling in the winter season only.

In summary, we detected a large number of hospital admissions with laboratory-confirmed influenza in a national observational study in 2014 compared with previous years. A high proportion of patients with severe influenza, and almost all deaths, occurred in patients with chronic comorbidities. In admitted patients, younger age was associated with ICU admission, highlighting the importance of this under-vaccinated risk group.

Top of page

Acknowledgements

We thank Ellen MacDonald, Sophie Damianopoulos (Royal Perth Hospital), Ainsley Swanson, Julie Quinn (Monash Medical Centre), Rebecca Davis (The Mater Hospital Brisbane), Patricia King, Christabel Wilson (Westmead Hospital), Sue Dixon, Sue Richmond (Cairns Base Hospital), Tina Collins, Michelle Collins (Princess Alexandra Hospital), Wendy Beckingham, Sammy Xu (The Canberra Hospital), Tara Marshall, Ashitha Kurian, Catriona Doran, Sarah Richards, Mary McAlister, Louise Milazzo, Jenny McGrath (Royal Adelaide Hospital), Amber Smith, Lorissa Hopkins, Douglas Dorahy (John Hunter Hospital), Susan Wagg (Royal Hobart Hospital), Michelle Thompson (Royal Melbourne Hospital), Janine Roney, Leah Christie, Jill Garlick (The Alfred), Kate Ellis (University Hospital Geelong). We acknowledge the support of the Australian Department of Health for funding this system.

Author details

Prof Allen C Cheng, Alfred Health; Monash University

Prof Mark Holmes, University of Adelaide, Royal Adelaide Hospital,

A/Prof Sanjaya Senenayake, Australian National University, The Canberra Hospital,

Prof Dominic E Dwyer, University of Sydney, Westmead Hospital,

Dr Saliya Hewagama, Alice Springs Hospital,

A/Prof Tony Korman, Monash Medical Centre; Monash University,

A/Prof Louis Irving, Royal Melbourne Hospital, University of Melbourne,

Prof Simon Brown, University of Western Australia, Royal Perth Hospital,

Prof Grant Waterer, University of Western Australia, Royal Perth Hospital,

Dr Cameron Hunter, University of Tasmania,

Dr N. Deborah Friedman, University Hospital Geelong,

Prof Peter Wark, University of Newcastle, John Hunter Hospital,

Dr Graham Simpson, Cairns Base Hospital,

Prof John Upham, Princess Alexandra Hospital, University of Queensland,

Dr Simon Bowler, Mater Hospitals,

A/Prof Kristine Macartney, Children’s Hospital at Westmead,

A/Prof Christopher Blyth, Princess Margaret Hospital, University of Western Australia, Telethon Kids Institute,

A/Prof Tom Kotsimbos, Alfred Health; Monash University

Prof Paul Kelly, ACT Health Directorate

Corresponding author: A/Prof Allen Cheng, Department of Epidemiology and Preventive Medicine, Monash University, Commercial Road, MELBOURNE VIC 3004. Email: allen.cheng@monash.edu

Top of page

References

  1. Dawood FS, Iuliano AD, Reed C, Meltzer MI, Shay DK, Cheng PY, et al. Estimated global mortality associated with the first 12 months of 2009 pandemic influenza A H1N1 virus circulation: a modelling study. Lancet Infect Dis 2012;12(9):687–695.
  2. Newall AT, Wood JG, Macintyre CR. Influenza-related hospitalisation and death in Australians aged 50 years and older. Vaccine 2008;26(17):2135–2141.
  3. Kelly PM, Kotsimbos T, Reynolds A, Wood-Baker R, Hancox B, Brown SGA, et al. FluCAN 2009: initial results from sentinel surveillance for adult influenza and pneumonia in eight Australian hospitals. Med J Aust 2011;194(4):169–174.
  4. Australian Government Department of Health. Australian Influenza Surveillance Report, 27 September to 10 October 2014. Available from: http://www1.health.gov.au/internet/main/publishing.nsf/Content/cda-surveil-ozflu-flucurr.htm/$File/Australian-Influenza-Surveillance-Report.pdf Canberra: Australian Government; 2014.
  5. Oken MM, Creech RH, Tormey DC, Horton J, Davis TE, McFadden ET, et al. Toxicity and response criteria of the Eastern Cooperative Oncology Group. Am J Clin Oncol 1982;5(6):649–655.
  6. Kyeyagalire R, Tempia S, Cohen AL, Smith AD, McAnerney JM, Dermaux-Msimang V, et al. Hospitalizations associated with influenza and respiratory syncytial virus among patients attending a network of private hospitals in South Africa, 2007–2012. BMC Infect Dis 2014;14(1):694.
  7. Katz MA, Muthoka P, Emukule GO, Kalani R, Njuguna H, Waiboci LW, et al. Results from the first six years of national sentinel surveillance for influenza in Kenya, July 2007–June 2013. PLoS One 2014;9(6):e98615.
  8. Puig-Barbera J, Natividad-Sancho A, Launay O, Burtseva E, Ciblak MA, Tormos A, et al. 2012–2013 Seasonal influenza vaccine effectiveness against influenza hospitalizations: Results from the Global Influenza Hospital Surveillance Network. PLoS One 2014;9(6):e100497.
  9. Epperson S, Blanton L, Kniss K, Mustaquim D, Steffens C, Wallis T, et al. Influenza activity—United States, 2013–14 season and composition of the 2014–15 influenza vaccines. MMWR Morb Mortal Wkly Rep 2014;63(22):483–490.
  10. Turner N, Pierse N, Bissielo A, Huang Q, Radke S, Baker M, et al. Effectiveness of seasonal trivalent inactivated influenza vaccine in preventing influenza hospitalisations and primary care visits in Auckland, New Zealand, in 2013. Euro Surveill 2014;19(34).
  11. Cheng AC, Brown SB, Waterer GW, Holmes M, Senenayake S, Friedman ND, et al. Influenza epidemiology, vaccine coverage and vaccine effectiveness in sentinel Australian hospitals in 2012: the Influenza Complications Alert Network (FluCAN). Commun Dis Intell 2013;37(3):E246–E252.
  12. Cheng AC, Holmes M, Irving LB, Brown SG, Waterer GW, Korman TM, et al. Influenza vaccine effectiveness against hospitalisation with confirmed influenza in the 2010–11 seasons: A test-negative observational study. PLoS ONE 2013;8(7):e68760.
  13. Cheng AC, Dwyer DE, Holmes M, Irving LB, Brown SGA, Waterer GW, et al. Influenza epidemiology, vaccine coverage and vaccine effectiveness in sentinel Australian hospitals in 2013: the Influenza Complications Alert Network. Commun Dis Intell 2014;38(2):E143–E149.
  14. Van Kerkhove MD, Vandemaele KA, Shinde V, Jaramillo-Gutierrez G, Koukounari A, Donnelly CA, et al. Risk factors for severe outcomes following 2009 influenza A (H1N1) infection: a global pooled analysis. PLoS Med 2011;8(7):e1001053.
  15. Stewardson AJ, Harbarth S, Graves N. Valuation of hospital bed-days released by infection control programs: a comparison of methods. Infect Control Hosp Epidemiol 2014;35(10):1294–1297.
  16. Banks MD, Graves N, Bauer JD, Ash S. Cost effectiveness of nutrition support in the prevention of pressure ulcer in hospitals. Eur J Clin Nutr 2013;67(1):42–46.

Top of page