Comparison of adult patients hospitalised with pandemic (H1N1) 2009 influenza and seasonal influenza during the “PROTECT” phase of the pandemic response
http://www.mja.com.au/public/issues/192_02_180110/cha10960_fm.html
eMJA Rapid Online Publication – 30 November 2009
Retrospective medical record review of all patients admitted to Liverpool Hospital, Sydney, with laboratory-confirmed influenza from the initiation of the “PROTECT” phase of the pandemic response on 17 June until the end of our study period on 31 July 2009.
Severity of illness; requirement for admission to the intensive care unit (ICU) and/or invasive ventilation; mortality.
Sixty-four adults were admitted to Liverpool Hospital with influenza, 48 with pandemic (H1N1) 2009 influenza and 16 with seasonal influenza. Thirteen patients were admitted to the ICU. Seven required invasive ventilation, with 2 patients requiring ongoing extracorporeal membrane oxygenation (ECMO). Five patients died (mortality rate, 8%) with two deaths occurring after the study period. Patients with pandemic (H1N1) 2009 influenza were younger and less likely to be immunocompromised than patients with seasonal influenza. However, the clinical features of pandemic (H1N1) 2009 influenza and seasonal influenza were similar.
Our findings show that the clinical course and outcomes of pandemic (H1N1) 2009 influenza virus are comparable to those of the current circulating seasonal influenza in Sydney. The high number of hospital admissions reflects a high incidence of disease in the community rather than an enhanced virulence of the novel pandemic influenza virus.
In early April 2009, a novel influenza A virus was identified in Mexico and Southern California.1 The subsequent rapid international spread and sustained community transmission in the Americas, Europe, New Zealand and Australia resulted in the World Health Organization escalating the pandemic influenza response to Phase 6 on 11 June 2009.2
The Australian Health Management Plan for Pandemic Influenza, which includes the ALERT, DELAY, CONTAIN, SUSTAIN, CONTROL and RECOVER phases of response,3 was predicated on pandemic influenza causing high morbidity and mortality. However, pandemic (H1N1) 2009 influenza appeared to be causing milder disease. Cases of severe disease and deaths have been reported,4 in particular, pregnant women could have severe disease.5,6 A modified strategy, the “PROTECT” phase, was thus enacted on 17 June 2009.7 It focused on identifying and treating infection in people with moderate to severe disease and those with certain risk factors (pregnancy and underlying chronic diseases), controlling outbreaks in institutions, and monitoring hospitalisation.8
The PROTECT phase coincided with the start of the influenza season in Sydney, and the surge in hospital admissions of patients with pandemic (H1N1) 2009 influenza coincided with the expected surge in seasonal influenza. This situation allowed us to compare patient characteristics, clinical features and outcomes of infection with pandemic (H1N1) 2009 influenza and seasonal influenza. Part of this work was presented at the 14th Congress of the Asian Pacific Society of Respirology in Seoul, Korea, 14–18 November 2009 (Poster no. APSR 2009-594).
We reviewed the medical records of all adult patients (aged 18 years and over) with a laboratory-confirmed diagnosis of influenza who were admitted to Liverpool Hospital, Sydney, from 17 June (the beginning of the PROTECT Phase) to 31 July 2009.
During this period, nose and/or throat swabs were collected from all patients admitted with an influenza-like illness. Following total nucleic acid extraction using the MagNA Pure System (Roche Diagnostics Australia, Sydney, NSW) influenza was confirmed by polymerase chain reaction using the Influenza 4 Easy-Plex assay kit (AusDiagnostics, Sydney, NSW). Subsequent typing was performed on all influenza A-positive isolates on the stored extract (− 80°C) using the Influenza 6 Easy-Plex assay kit (AusDiagnostics, Sydney, NSW).
Demographic and clinical details were extracted from the clinical notes and electronic information system. These details included age, sex, place of residence, and presence of comorbid conditions or risk factors for possible severe illness (eg, obesity, diabetes, pregnancy and immunosuppression). The date of onset of presenting influenza-like illness symptoms (coryza, fever, cough, breathlessness, chest pain, sore throat, lethargy, myalgia, vomiting, diarrhoea and abdominal pain), clinical signs and laboratory results (including haematological, biochemical, serological, microbiological and arterial blood gas results with patients breathing room air) were also extracted. The clinical course, management directed by the attending physicians, and outcomes at discharge were similarly recorded.
Chest x-rays were reviewed and classified according to the type, pattern and extent of any abnormalities. The principal respiratory diagnosis was made after review of the complete record, with pneumonia defined as the presence of consistent radiological abnormalities and clinical signs.
Health-care-associated influenza was defined as onset of symptoms more than 4 days after admission, to correspond with the upper limit of influenza virus incubation.9
Continuous and categorical data were analysed with Microsoft Office Excel 2007 (Microsoft Corporation, Redmond, Wash, USA) and SPSS student version 16.0 (SPSS Inc, Chicago, Ill, USA) using two-sample t tests, Fisher’s Exact test, or adjusted or unadjusted χ2 tests, as appropriate.
The study was approved by the Sydney South West Area Health Service, Human Research Ethics Committee (Project No. QA2009/047).
Sixty-five patients were admitted to Liverpool Hospital with a laboratory-confirmed diagnosis of influenza between 17 June and 31 July 2009. One of these patients had been admitted for ischaemic gut, and was excluded from the analysis because the patient did not have a concurrent influenza-like illness. Of the remaining 64 patients, 48 tested positive for pandemic (H1N1) 2009 influenza and the remaining 16 tested positive for seasonal influenza A (11 for subtype H3 and five for untypeable non-pandemic [H1N1] 2009 influenza). The epidemic curve showed that the peak of the outbreak occurred around 8 July (Box 1). Five of the 64 cases of influenza (all pandemic [H1N1] 2009) were health-care associated.
Box 2 shows demographic characteristics and presenting features and outcomes for patients admitted with pandemic (H1N1) 2009 and seasonal influenza. Patients with pandemic (H1N1) 2009 influenza were significantly younger than those presenting with seasonal influenza (mean age, 45 years v 64 years; P < 0.01). Patients with seasonal influenza were more commonly immunosuppressed than patients with pandemic (H1N1) 2009 (P < 0.05). Although a relationship with pregnancy (patients in their postpartum period or pregnant) was more common in the pandemic (H1N1) 2009 group (eight patients v one patient with seasonal influenza), this difference did not reach statistical significance (Box 2).
Thirteen patients were admitted to the intensive care unit (ICU) — three with seasonal and 10 with pandemic (H1N1) 2009 influenza. The clinical course and hospitalisation of these patients is illustrated in Box 3. Of the three patients remaining in ICU, two died (patient 13 and patient 6 in Box 3 on 8 August and 12 August, respectively), with the remaining patient discharged alive from hospital on 23 September 2009.
Box 2 shows that the mean duration of symptoms before presentation was 4 days, with fever, cough and dyspnoea being the most common symptoms in both groups. Similarly, there was no difference in the clinical signs between the two groups, with a diagnosis of pneumonia occurring in similar proportions of patients with seasonal and pandemic (H1N1) 2009 influenza.
Laboratory results showed no difference between the two groups in mean total white blood cell count, nadir lymphocyte count, C-reactive protein concentration, and mean partial pressure of arterial oxygen (patients breathing room air) at presentation. Forty-six patients had blood cultures and 12 had sputum cultures performed. Three patients had bacterial co-infections with Streptococcus pneumoniae and Haemophilus influenzae confirmed by blood culture, and methicillin-sensitive Staphylococcus aureus was isolated from one sputum culture.
Chest x-rays were taken of 59 of the 64 patients, and abnormalities were detected in 31 patients. Abnormal radiological features ranged from localised infiltrates to bilateral airspace consolidation (Box 4). Four patients had radiological abnormalities attributable to chronic lung conditions without evidence of concurrent pneumonia.
Fifty-three hospitalised patients were treated with a neuraminidase inhibitor and antibiotics. Corticosteroids were significantly more likely to be prescribed in the seasonal influenza group compared with the pandemic (H1N1) 2009 group (P < 0.05; Box 2). However, all corticosteroid use was deemed to be for treatment of an underlying respiratory illness rather than influenza. Treatment response did not differ significantly between the two groups, and the overall mean time to defervescence was 2.6 days (range, 0–10 days) and mean number of days in hospital was 8 days (range, 0–61 days). Overall, there were five deaths (four in the pandemic (H1N1) 2009 group and one in the seasonal influenza group). Two deaths occurred in the ICU (see above).
A major strength of our study was that the epidemics of seasonal and pandemic (H1N1) 2009 influenza occurred concurrently, which allowed us to make a direct comparison. Our data show that there was no difference between the two groups except that patients admitted with pandemic (H1N1) 2009 influenza tended to be younger and less immunocompromised. The clinical, radiological and laboratory features at presentation were similar in both patient groups, as were the clinical course, management and outcomes. Our findings show that, for hospitalised patients, the clinical manifestations and severity of pandemic (H1N1) 2009 and seasonal influenza were similar. This suggests that the number of admissions to our hospital and ICU reflected the higher burden of disease in the community rather than a greater virulence of the novel pandemic influenza virus.
Significant morbidity and mortality from influenza in pregnant women during previous pandemics has been reported.10,11 For seasonal influenza, the highest morbidity for pregnant women occurred in the third trimester.12 There have been several reports that pregnant women are at increased risk of severe complications from pandemic (H1N1) 2009 influenza.5,6 However, we were unable to demonstrate a difference in clinical severity between the seasonal and the pandemic viruses. The reliability of our estimate is limited by the small sample size, and a definitive answer to this question requires a multicentre study.
The clinical and epidemiological characteristics of 18 people hospitalised with pneumonia caused by pandemic (H1N1) 2009 influenza in Mexico City have been reported.13 The age, presence of comorbid conditions, presenting symptoms, laboratory findings and clinical features were similar to those in our group. However, in the Mexican series the higher proportion of abnormalities on chest x-ray (all patients), the number of patients with severe disease requiring invasive ventilation (12), and the mortality rate (39%) differ from our series (mortality rate, 8%). This could reflect differing admission criteria and smaller numbers.
In conclusion, our study shows that the clinical disease caused by the novel pandemic (H1N1) 2009 influenza virus in humans is comparable to that caused by the current circulating seasonal influenza strains in Sydney. The number of patients with severe disease reflects the disease burden in the community resulting from the pandemic. Pregnant women are at risk of severe infection from influenza, but whether pandemic (H1N1) 2009 influenza is particularly virulent in pregnant women and those in their postpartum period requires further study. It remains unclear whether antiviral drugs alter the clinical course of severe influenza infection.
1 Admissions to Liverpool Hospital of 64 adults with confirmed seasonal and pandemic (H1N1) 2009 influenza during the “PROTECT” phase of the epidemic*
2 Demographic, clinical and laboratory features of the 64 patients admitted to Liverpool hospital with seasonal and pandemic (H1N1) 2009 influenza, 17 June to 31 July 2009
3 Clinical courses of 13 patients admitted to Liverpool Intensive Care Unit (ICU) with pandemic (H1N1) 2009 influenza and seasonal influenza, 17 June to 31 July 2009*
* As of 31 July 2009, three patients remained in the ICU, with two of these being treated with extracorporeal membrane oxygenation. |
4 Chest x-rays showing typical abnormalities found in patients hospitalised with influenza, 17 June to 31 July 2009
Patient with pandemic (H1N1) 2009 influenza showing airspace opacity in the left upper and left lower lobes and medial right upper zone. |
Patient with pandemic (H1N1) 2009 influenza showing bilateral interstitial and airspace opacity. |
Patient with seasonal influenza showing bilateral airspace opacity. |
We thank the medical and nursing staff of Liverpool Hospital, who assisted with the clinical care of patients affected by influenza, and the scientific staff of Sydney South West Pathology Service — Liverpool, who performed the diagnostic testing on the patients. We also thank Professor Guy Marks for his comments on our manuscript.
1 Department of Respiratory Medicine, Liverpool Hospital, Sydney, NSW.
2 Department of Microbiology and Infectious Diseases, Sydney South West Pathology Service, Sydney, NSW.
3 Microbiology and Infectious Diseases Unit, School of Medicine, University of Western Sydney, Sydney, NSW.
Correspondence: i.gosbellATuws.edu.au
- Ginsberg M, Hopkins J, Maroufi A, et al. Swine influenza A (H1N1) infection in two children — southern California, March–April 2009. MMWR Morb Mortal Wkly Rep 2009; 58: 400-402.
- World Health Organization. Pandemic (H1N1) 2009. http://www.who.int/csr/disease/swineflu/en/index.html (accessed 6 Aug 2009).
- Australian Government Department of Health and Ageing. Australian health management plan for pandemic influenza. 2008. http://www.flupandemic.gov.au/internet/panflu/publishing.nsf/Content/ahmppi-1 (accessed 6 Aug 2009).
- Kaufman MA, Duke GJ, McGain F, et al. Life-threatening respiratory failure from H1N1 influenza 09 (human swine influenza). Med J Aust 2009; 191: 154-156.
- Fonseca V, Davis M, Wing R, et al. Novel influenza A (H1N1) virus infections in three pregnant women — United States, April–May 2009. MMWR Morb Mortal Wkly Rep 2009; 58: 497-500.
- Jamieson DJ, Honein MA, Rasmussen SA, et al. H1N1 2009 influenza virus infection during pregnancy in the USA. Lancet 2009; 374: 451-458.
- Australian Government Department of Health and Ageing. H1N1 Influenza 09 latest news. New pandemic phase PROTECT. 17 June 2009. http://www.health.gov.au/internet/healthemergency/publishing.nsf/Content/news-170609 (accessed Nov 2009).
- New South Wales Department of Health. Emergency. Pandemic influenza A (H1N1) 2009. Questions and answers. Common questions and answers regarding H1N1 Influenza 09. http://www.emergency.health.nsw.gov.au/swineflu/consumers/qa.asp (accessed 6 Aug 2009).
- Centers for Disease Control and Prevention. Influenza. In: Heymann DL, editor. Control of communicable diseases manual. Washington, DC: American Public Health Association, 2008: 315-331.
- Harris JW. Influenza occurring in pregnant women. JAMA 1919; 72: 978-980.
- Freeman DW, Barno A. Deaths from Asian influenza associated with pregnancy. Am J Obstet Gynecol 1959; 78: 1172-1175.
- Neuzil KM, Reed GW, Mitchel EF, et al. Impact of influenza on acute cardiopulmonary hospitalizations in pregnant women. Am J Epidemiol 1998; 148: 1094-1102.
- Perez-Padilla R, de la Rosa-Zamboni D, Ponce de Leon S, et al. Pneumonia and respiratory failure from swine-origin influenza A (H1N1) in Mexico. N Engl J Med 2009; 361: 680-689. Epub 2009 Jun 29.
- From: The Australian
- The Australian December 01, 2009
source : http://www.theaustralian.com.au/news/health-science/swine-flu-is-no-worse-than-seasonal-strains/story-e6frg8y6-1225805509987?from=public_rss
THE dominant expert view that swine flu is much more dangerous than seasonal strains is under attack from Australian research, which has found little to no difference in patients infected by the two types.
In results that could undermine uptake of the swine flu vaccine, researchers tracked the progress of all patients admitted to a major Sydney hospital during the recent epidemic, finding the course of the illness was “comparable to those of the current circulating seasonal influenza in Sydney”. The findings threaten to debunk the firming medical orthodoxy that swine flu hits patients much harder than the strains that circulate every winter, particularly children and pregnant women.
The results have already been criticised by some infectious diseases experts, who say the findings are based on very small numbers and do, in fact, point to a greater danger from swine flu.
The study’s authors, from Sydney’s Liverpool Hospital, the Sydney South West Pathology Service and the University of Western Sydney, said their results showed that high numbers of hospital admissions for swine flu reflected the rapid spread of the disease, not any increased virulence of the H1N1 virus.
“Our findings show that, for hospitalised patients, the clinical manifestations and severity of pandemic (H1N1) 2009 and seasonal influenza were similar,” they wrote in the study published online yesterday by the Medical Journal of Australia.
Even among pregnant women — a group that was said to have been particularly at risk of severe complications in the recent epidemic — the authors said they were “unable to demonstrate a difference in clinical severity” compared with pregnant women with annual flu strains. For the research, the authors tracked all 64 adults who were admitted to Liverpool Hospital with influenza from June 17 until July 31.