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Neuraminidase inhibitors for treatment and prophylaxis of influenza in children: systematic review and meta-analysis of randomised controlled trials

BMJ 2009; 339 doi: (Published 10 August 2009) Cite this as: BMJ 2009;339:b3172
  1. Matthew Shun-Shin, academic foundation year 2 doctor1,
  2. Matthew Thompson, senior clinical scientist2,
  3. Carl Heneghan, clinical lecturer2,
  4. Rafael Perera, university lecturer in medical statistics2,
  5. Anthony Harnden, university lecturer in general practice2,
  6. David Mant, professor of general practice2
  1. 1Kadoorie Centre, John Radcliffe Hospital, Headington, Oxford OX3 9DU
  2. 2Oxford University Department of Primary Health Care, Rosemary Rue Building, Headington, Oxford OX3 7LF
  1. Correspondence to: M Thompson matthew.thompson{at}
  • Accepted 3 August 2009


Objective To assess the effects of the neuraminidase inhibitors oseltamivir and zanamivir in treatment of children with seasonal influenza and prevention of transmission to children in households.

Design Systematic review and meta-analysis of data from published and unpublished randomised controlled trials.

Data sources Medline and Embase to June 2009, trial registries, and manufacturers and authors of relevant studies.

Review methods Eligible studies were randomised controlled trials of neuraminidase inhibitors in children aged ≤12 in the community (that is, not admitted to hospital) with confirmed or clinically suspected influenza. Primary outcome measures were time to resolution of illness and incidence of influenza in children living in households with index cases of influenza.

Results We identified four randomised trials of treatment of influenza (two with oseltamivir, two with zanamivir) involving 1766 children (1243 with confirmed influenza, of whom 55-69% had influenza A), and three randomised trials for postexposure prophylaxis (one with oseltamivir, two with zanamivir) involving 863 children; none of these trials tested efficacy with the current pandemic strain. Treatment trials showed reductions in median time to resolution of symptoms or return to normal activities, or both, of 0.5-1.5 days, which were significant in only two trials. A 10 day course of postexposure prophylaxis with zanamivir or oseltamivir resulted in an 8% (95% confidence interval 5% to 12%) decrease in the incidence of symptomatic influenza. Based on only one trial, oseltamivir did not reduce asthma exacerbations or improve peak flow in children with asthma. Treatment was not associated with reduction in overall use of antibiotics (risk difference −0.30, −0.13 to 0.01). Zanamivir was well tolerated, but oseltamivir was associated with an increased risk of vomiting (0.05, 0.02 to 0.09, number needed to harm=20).

Conclusions Neuraminidase inhibitors provide a small benefit by shortening the duration of illness in children with seasonal influenza and reducing household transmission. They have little effect on asthma exacerbations or the use of antibiotics. Their effects on the incidence of serious complications, and on the current A/H1N1 influenza strain remain to be determined.


During epidemic years, influenza attack rates often exceed 40% in preschool children and 30% in school age children.1 School age children are the main source of spread of influenza into households. In some influenza seasons, a quarter of children presenting to emergency departments and paediatric clinics with respiratory symptoms or fever will have laboratory evidence of influenza.2 Moreover, complications of influenza are common in children and include respiratory tract infections (acute otitis media, sinusitis, bronchitis, bronchiolitis, croup), febrile convulsions, and exacerbations of asthma. Acute otitis media, for example, occurs in 20-50% of children under 6 after influenza.3 In contrast, deaths from seasonal influenza are rare. During the 2003-4 influenza season in the United States, 2.1 per million children died from influenza or its complications, such as pneumonia.4 In the current H1N1 pandemic, about 30% of cases in the United Kingdom have been in children aged under 10.5

The primary strategy for control of influenza is vaccination.6 Coverage, however, might be low, and often there is inadequate time to produce and distribute vaccines in response to emerging strains, such as influenza A/H5N1 and the new variant influenza A/H1N1 (Mexico). Therefore, current control strategies include using antiviral medications for preventing spread, as well as for treating infected individuals. Because amantadine and rimantidine are effective only against influenza A, are limited by drug resistance, and have poor tolerability, they have been replaced by neuraminidase inhibitors.7 Oseltamivir (Tamiflu) is administered orally and in the UK is licensed for the treatment and postexposure prophylaxis of influenza in children aged over 1. Zanamivir (Relenza) is inhaled as a dry powder and is currently licensed in the UK for the treatment and postexposure prophylaxis of influenza in children aged 5 and over. For treatment to be effective, current guidelines for treating seasonal influenza state that oseltamivir should be administered within 48 hours and zanamivir within 36 hours of onset of symptoms.8

The last update of our Cochrane review of this treatment was in 2005 and included three treatment trials and one prophylaxis trial.9 We need an accurate, up to date assessment of the benefits and harms of oseltamivir and zanamivir so that national bodies, clinicians, and parents can make evidence informed decisions about treating and preventing influenza in children. We assessed the current evidence for the effectiveness, safety, and tolerability of neuraminidase inhibitors for the treatment and prevention of influenza in children.


Eligibility and search strategy

We included all published and unpublished randomised controlled trials that compared the use of neuraminidase inhibitors in the treatment and prophylaxis of influenza in children aged 12 and under that we considered sufficiently free from bias. There were no language restrictions. We searched Medline (1966 to 1 July 2009), Embase (1980 to 28 June 2009), the clinical trial registries of the manufacturers of oseltamivir and zanamivir (GlaxoSmithKline and Roche Pharmaceuticals, respectively), the Cochrane central register of controlled trials ( Cochrane Library 2009, Issue 2), and (a meta-registry of randomised controlled clinical trials that includes the ISRCTN register). Search terms were “relenza” OR “zanamivir” OR “tamiflu” OR “oseltamivir” OR “neuraminidase inhibitor”. We also hand searched reference lists of retrieved papers, relevant NICE guidelines, and technology reports from the UK Health Technology Assessment programme.8 10 11 The two pharmaceutical manufacturers provided us with unpublished data, and we contacted authors for clarification as needed.

Assessment of risk of bias

Using the Cochrane “risk of bias” tool,12 we assessed all studies for the quality or appropriateness of allocation, blinding, and management of incomplete outcome data and the completeness of reporting of outcomes. We also evaluated baseline differences and methodological issues.

Data abstraction

Two authors (MS-S, MT) independently extracted data from included trials, including year, participants (age range, inclusion criteria, influenza test results), intervention, and results (outcome measures, effect, significance, adverse events). Disagreements in extracted data were resolved by discussion with a third review author (CH). Two authors (MS-S, MT) assessed trial quality. As the incidence of microbiologically confirmed influenza in participants recruited with influenza-like symptoms is variable, we analysed efficacy separately for all participants with influenza-like symptoms (“clinical influenza”) and for those with microbiologically confirmed influenza (“confirmed influenza”). We sought data on primary outcome measures of time to resolution of the illness in treatment trials and the attack rate of symptomatic influenza in children during the period of prophylaxis in prevention trials. Secondary outcome measures included time to resolution of individual symptoms; time to return to school, day care, or normal activity; effect on respiratory function in children with asthma; and adverse events.

Data analysis

We extracted the median number of days, with 95% confidence intervals as available, to resolution or improvement of clinical features of influenza, including global change. When appropriate we pooled global change scores. We calculated risk differences and 95% confidence intervals for dichotomous outcomes and used the I2 statistic to measure the level of statistical heterogeneity for each outcome.13 When no heterogeneity was detected, we performed a random effects meta-analysis. When there was substantial heterogeneity (I2>50%), we considered possible explanations for this and considered not combining results. We used sensitivity analysis when necessary to investigate the contribution of individual trials to any heterogeneity. Subgroup analyses included type of neuraminidase inhibitor and children with clinical or confirmed influenza. We used Review Manager version 5.0 for statistical analysis.


We identified 4917 articles (fig 1), and two authors independently reviewed 35 full text articles to identify those that met inclusion criteria. One further unpublished trial was found from the GlaxoSmithKline registry.w1 Seven randomised controlled trials met our inclusion criteria; four of these were studies of treatment of influenzaw1-w4 and three of postexposure prophylaxis of influenza contacts in households.w5-w7 Six of the seven trials used clinical criteria for enrolment,w2-w7 with virological tests performed at a later date to produce a post hoc group of confirmed cases; one used near patient testing for influenza at enrolment.w1 One trial confirmed the presence of influenza with near patient testing only in those participants who had received influenza vaccination in the current season.w2


Fig 1 Flowchart of search results

Two of the treatment trials tested inhaled zanamivirw1 w2 and two tested oral oseltamivirw3 w4 in a total of 1766 children, of whom 1243 had confirmed influenza (table 1). Three trials recruited otherwise healthy children,w1-w3 while one specifically recruited children with asthma.w4 In the three treatment trials that reported influenza type, 55-69% of participants had influenza A.w2-w4 The treatment trials reported the primary outcome measure of time to resolution of influenza in two ways: median time to resolution of illness, which was a composite outcome comprising resolution or alleviation of symptoms and resolution of fever and return to school or normal activityw3 w4; and/or median time to resolution or alleviation of symptoms of influenza (including cough, fever, muscle and joint aches, sore throat, headache, and fever).w1-w4 Two trialsw3 w4 used the Canadian acute respiratory infection and flu scale (CARIFS).14

Table 1

 Characteristics of the trials of zanamivir and oseltamivir for treatment of influenza*

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For postexposure prophylaxis, we identified two trials of zanamivirw5 w6 and one trial of oseltamivir,w7 which involved a total of 863 paediatric contacts (427 intervention, 436 control) (table 2). All three trials randomised households as units to receive the same treatment. The drug given to the index case varied in all trials. In the oseltamivir trial all index cases received the active drugw7; in one of the zanamivir trials the index cases were given the same treatment as the household (zanamivir or placebo)w5; and in the other zanamivir trial the index case did not receive any study drug.w6 The primary outcome measured in these trials was the attack rate of symptomatic influenza in children during the period of prophylaxis.

Table 2

 Characteristics of trials of zanamivir and oseltamivir for postexposure prophylaxis of influenza*

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Assessment of quality of trials

Only one treatment trial reported sufficient detail of the methods to be judged as high quality.w2 The three others did not report sufficient details to determine whether allocation concealment and blinding were adequate (table 3).w1 w3 w4 The three trials of postexposure prophylaxis were of moderate quality.w5-w7 Two had insufficient details about allocation concealmentw5 w6 and one was open labelled (not blinded).w7 The baseline comparison data for paediatric contacts (all trials) was not available, but no differences were apparent in the data for all ages.

Table 3

 Assessment of methodological quality

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Effect of treatment on time to resolution of symptoms, resolution of illness, and return to school or normal activity

Treatment with zanamivir and oseltamivir provided a median reduction in time to resolution of symptoms of between 0.5 and 1.5 days (table 4). In children with confirmed influenza, one trial with zanamivirw2 and one with oseltamivirw3 showed significant reductions in the median time to resolution of influenza symptoms from 5.25 to 4.0 days (difference 1.25 days, 95% confidence interval 0.5 to 2.0 days, P<0.001) and from 4.2 to 2.6 days (difference 1.5 days, 0.25 to 2.5 days, P<0.001), respectively. A further trial of oseltamivir reported a similar but non-significant reduction in median time to resolution of influenza symptoms from 4.8 to 3.8 days (difference 1.1 days, confidence interval not reported, P=0.12).w4 One trial of zanamivir reported a smaller reduction in median time to resolution of symptoms from 5.5 to 5.0 days but did not report either a confidence interval or P value.w1 Only one trial reported the median time to resolution of symptoms in children with clinical influenza and found a significant reduction from 5.0 to 4.5 days (difference 0.5 days, 0.0 to 1.5 days, P=0.01).w2

Table 4

 Effects of treatment on resolution of influenza symptoms, resolution of illness, and return to school or normal activities

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The two oseltamivir trials reported a reduction of between 0.4 and 1.5 days in the median time to resolution of illness, defined as resolution of all symptoms and resolution of fever and return to school or normal activities (table 4). In children with confirmed influenza, oseltamivir provided a significant reduction in median time to resolution of illness from 5.7 to 4.2 days (difference 1.5 days, 0.3 to 2.5 days, P<0.001) in onew3 trial and a non-significant reduction from 5.6 to 5.2 days (difference 0.4 days, confidence interval not reported, P=0.54) in the second trial.w4 In children with clinical influenza, one oseltamivir trial reported a reduction in time to resolution of illness from 5.3 to 4.4 days (difference 0.9 days, 0.2 to 1.9 days, P<0.001).w3

Three treatment trials reported the effects of treatment on return to school or normal activity (table 4).w1 w2 w4 One trial found that children given zanamivir returned to school or normal activity one day sooner in those with confirmed influenza (P=0.019), as well as in those with clinical influenza (P=0.022).w2 The other zanamivir trial reported that, by day five, 36% (62/172) of children given zanamivir and 28% (25/89) of controls had returned to school or normal activity (risk difference 0.08, −0.04 to 0.20, P=0.19).w1 The one oseltamivir trial that reported this outcome found a non-significant reduction in median time to return to school from 4.8 to 4.2 days (difference 0.6, confidence interval not reported, P=0.46) in children with confirmed influenza.w4

Two trials provided data on the natural course of confirmed influenza in children.w2 w3 Resolution of illness occurred in 75% of children within 8.7 days (90% within 14.2 days).w2 Alleviation of all symptoms occurred in 75% of children within 7.3 days (90% within 13 days).w1

Effect of treatment on reduction in cough or fever

Two of the threew1-w3 trials that reported effects of treatment on cough showed significant effects: oseltamivir reduced the median duration of cough by 1.3 days in children with confirmed influenza in one trial (P<0.001),w3 and zanamivir reduced the incidence of “moderate or severe cough” at day five in children with confirmed influenza in a second trial (P=0.001),w2 but no magnitude of effect was reported. Of the two trials that reported the median duration of fever,w1 w3 there was a significant reduction of one day in the one trial of oseltamivir (P<0.001)w3 and a reduction of 0.5 days (significance not reported) in one trial of zanamivir.w1

Effect of treatment on change in asthma severity

One trial of oseltamivir specifically recruited children with asthma.w4 Treatment did not reduce the number of asthma exacerbations in children with confirmed influenza (risk difference −0.05, −0.15 to 0.05, P=0.34) or improve median change in peak flow between study entry and day six (P=0.35) compared with controls. The trial did, however, identify a small improvement in the forced expiratory volume in one second (FEV1) between study entry and day six (median improvement 10.8% v 4.7%, P=0.01). One trial of 471 children with clinical influenza (of whom 36 (8%) had unspecified concurrent chronic respiratory conditions requiring regular medication) showed no significant difference in asthma exacerbations between zanamivir and control (−0.01, −0.03 to 0.01, P=0.30).w2 Combining the results with a random effects model showed no significant change in asthma exacerbations with neuraminidase inhibitor treatment (−0.02, −0.05 to 0.02, P=0.27, I2=16%).

Effect of treatment on antibiotic use

Two trials reported the effect of treatment on overall use of antibiotics. In one, treatment with oseltamivir was associated with a 10% reduction in overall antibiotic use in children with confirmed influenza (risk difference −0.10, −0.19 to −0.01, P=0.03).w3 In contrast, treatment with zanamivir did not reduce overall antibiotic use in children with confirmed influenza (−0.03, −0.10 to 0.04, P=0.37).w2 Combining these results with a random effects model showed a non-significant reduction in antibiotic use (fig 2) (−0.06, −0.13 to 0.01, P=0.08, I2=34%).


Fig 2 Incidence of antibiotic use in children with confirmed influenza

Effect of treatment on otitis media

Treatment had no effect on the incidence of otitis media (risk difference −0.01, −0.04 to 0.02; P=0.92, I2=0%) in two trials of children aged 5-12 (who had an overall incidence of otitis media of 6%).w1 w4 In a third trial,w3 as reported in a separate abstract,w8 in children with confirmed influenza treatment with oseltamivir had no effect on the development of otitis media (confirmed with tympanometry) at day 10 in children aged 6-12 (−0.02, −0.11 to 0.06, P=0.57) but did reduce the incidence of otitis media from 31% to 15% in children aged 1-5 (−0.16, −0.29 to −0.04, P=0.009).

Effect of postexposure prophylaxis

A 10 day course of prophylaxis with either zanamivirw5 w6 or oseltamivirw7 was associated with an 8% reduction (risk difference −0.08, −0.12 to −0.05, P<0.001, I2=0%) in the risk of developing confirmed symptomatic influenza after the introduction of an index case of clinical influenza into the household. This equates to a number needed to treat of 13 (9 to 20) to prevent one additional household case of symptomatic influenza (fig 3).


Fig 3 Incidence of confirmed symptomatic influenza in paediatric contacts of index cases with clinical influenza

Safety and tolerability of oseltamivir and zanamivir

The four treatment trials reported on tolerability and adverse events.w1-w4 Overall reported adherence was high; 97% of participants took more than eight of the 10 doses of zanamivir,w2 and 90% took all 10 doses of oseltamivir.w3 There was no significant difference in the number of withdrawals because of adverse events between either zanamivir or oseltamivir and placebo.

All four treatment studies reported on the incidence of nausea, vomiting, and diarrhoea. Combination of data from all four trials that reported vomiting showed significant heterogeneity (I2=75%). Subgroup analysis of the two trials of zanamivir showed no significant increase in vomiting (risk difference 0.00, −0.02 to 0.02, P=0.82, I2=0%),w1 w2 whereas the two trials of oseltamivir showed an additional one in 20 children treated would have vomiting (0.05, 0.02 to 0.09, P=0.007, I2=0%).w3 w4 Overall, vomiting occurred in 6.7% (57/852) of untreated children with clinical influenza.w1-w4 In addition, there was a low incidence of nausea (3.4%, 29/852) and diarrhoea (6.6%, 56/852). Neither was affected by treatment with neuraminidase inhibitors (−0.01, −0.03 to 0.00, P=0.06, I2=0%, and −0.01, −0.03 to 0.00, P=0.16, I2=0%, respectively).

The two trials of zanamivir for prophylaxis stated that the incidence of adverse events was similar between treatment and control groups but did not provide quantitative data on the paediatric subgroups.w5 w6 No deaths were reported.


Treatment of influenza in children with zanamivir and oseltamivir provided a more rapid resolution of symptoms and resolution of illness generally (resolution of symptoms and fever and return to school or normal activity) by between 0.5 to 1.5 days. These reductions, however, were not all significant, leaving uncertainty in both the size and confidence in these effects. Because of inadequate reporting of trial data and heterogeneity of the studies we were unable to pool results. Effects on individual symptoms were also not consistent. Cough was significantly reduced by treatment in two trials and fever in one of two trials; for both symptoms the magnitude of effect, when reported, was about one day. Children given oseltamivir or zanamivir returned to school or normal activity between 0.5 and 1 day more rapidly than those in control groups. By day five of the illness, however, only a third of children in either group had returned to school or normal activity. Furthermore, clinicians should be aware that for one in 10 children symptoms of influenza might persist for more than two weeks.

The effects on complications showed inconsistent results. Oseltamivir and zanamivir showed little or no effect on the number of asthma exacerbations, with oseltamivir providing a small improvement in FEV1 in the first six days of illness in only one trial. Moreover, effects on rates of otitis media were no different in children aged 5-6 and 12 but were significantly lower in children younger than 5. With a household prophylaxis strategy, 13 children would need to be treated with a 10 day course of zanamivir or oseltamivir to prevent one additional child developing influenza. Finally, zanamivir seemed to cause no more side effects than placebo, whereas oseltamivir was associated with an additional one in 20 children treated developing vomiting.

Comparison with existing literature

This review adds to our Cochrane review updated in 2005, which included only three trials of treatment and one on postexposure prophylaxis.9 It concluded that neuraminidase inhibitors were effective in shortening the duration of illness and showed no significant effect on prophylaxis. This review, which included an additional treatment trial, found insufficient data to allow pooling, but the effects reported are consistent enough to conclude that treatment results in 0.5 to 1.5 day reduction in influenza symptoms or illness, or both. In the present review, we also obtained data of postexposure prophylaxis from two additional trials, which allows us to be more certain about the effect on contact cases (P<0.001). A systematic review of neuraminidase inhibitors for treatment and prevention of influenza in adults concluded that both zanamivir and oseltamivir provided small beneficial effects for alleviating symptoms; the ratio of the median times to resolution between the treatment and placebo groups were 1.33 and 1.30, respectively.15 In adults, both drugs were effective at postexposure prophylaxis in people with confirmed influenza but not those with influenza-like illness.15

Our findings also suggest that any effects present were less in children with clinically defined influenza than in those with microbiologically confirmed influenza. This might present a problem in seasonal influenza in primary care, where the accuracy of clinical diagnosis (without near patient testing) might be limited.16 For example, influenza was detected in only 30-39% of nasopharyngeal swabs submitted for virological surveillance in children attending UK general practices with influenza-like illness during three successive winter seasons.17 In pandemic influenza, however, a greater proportion of children presenting with influenza-like symptoms are likely to have influenza, which would tend to increase the apparent efficacy of neuraminidase inhibitors in clinical cases. The difference in the effect of oseltamivir and zanamivir on secondary complications of influenza such as otitis media and the subsequent use of antibiotics might be due to the low systemic absorption of inhaled zanamivir compared with oral oseltamivir, which has 80% bioavailability and good penetration to middle ear and sinuses, or due to the age groups selected for the zanamivir trials.18 Reductions of secondary complications could be an important factor in the decision to treat and should be balanced with the higher rates of adverse effects, particularly vomiting, with oseltamivir.

Strengths and weaknesses of review

Our review has some limitations. Firstly, our search strategy, while comprehensive, might have missed published and unpublished trials. Although our search was comprehensive and builds on previous Cochrane search strategies, important negative findings might not have been published beyond the conference abstract stage. We have addressed this issue to some extent by obtaining unpublished data from one manufacturer. We are also aware of seven ongoing randomised controlled trials of neuraminidase inhibitors in children, as well as several studies involving the current pandemic strain, which might affect the findings of this review (table 5). Secondly, study quality was generally moderate, with only one of seven included studies rated free from bias, and the quality of the others was limited by poor reporting. Thirdly, studies varied both in the outcomes measured and the consistency of reporting of results, which severely hampered our ability to aggregate results. Fourthly, there were few data on children with comorbidities, with only a single trial of children with asthma: trials excluded “high risk” children such as those who are immunosuppressed or with chronic cardiac or respiratory problems. Fifthly, there was significant heterogeneity in the rates of vaccination between the trials, ranging from 2% to 20%, which might reduce the apparent efficacy as the severity of influenza illness is often milder in vaccinated than in unvaccinated children.19 Finally, none of the studies was sufficiently powered to determine the effects of neuraminidase inhibitors on serious complication of influenza (such as pneumonia or admission to hospital), and we found no evidence from these trials on efficacy and safety in children aged under 1.

Table 5

 Ongoing trials of neuraminidase inhibitors for influenza in children

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Implications for seasonal and pandemic influenza

For children with seasonal influenza neuraminidase inhibitors seem to have a small effect in terms of reducing duration of illness of between 0.5 and 1.5 days. There is currently no evidence to single out special treatment for children with asthma. It is difficult to know the extent to which these findings can be generalised to children in the current A/H1N1 pandemic. At present, most cases in children have been mild, but recommendations in several countries encourage treatment of children with suspected or confirmed A/H1N1 flu. While morbidity and mortality in the current pandemic remain low, a more conservative strategy might be considered prudent, given the limited data, side effects such as vomiting, and the potential for developing resistant strains of influenza.

Use of neuraminidase inhibitors to limit the spread of influenza is a key component of containment strategies. The evidence of magnitude of this effect (at least for seasonal influenza) is now clear: 13 people need to be treated to prevent one additional case. In a prolonged pandemic, however, those most likely to be treated (such as healthcare professionals) might require multiple courses as the number of contacts escalates.

Further areas for research

In the seven randomised controlled trials currently under way, six are treatment trials and one a prophylaxis trial (table 5). Three of the trials are being undertaken in immunocompromised children and one in children in a developing country. These trials might also provide some data to help guide clinicians and parents in the current influenza pandemic, as well as data on effects in children with comorbidities, who might be at higher risk of complications. Defining the role of antibiotics in reducing complications from secondary infections in seasonal and pandemic influenza must also be a priority as there are observational data to show that antibiotics provide a small benefit in children with seasonal influenza.20 In the UK and the US oseltamivir is not licensed for children aged under 1. This limitation was supported by animal studies that found that high doses caused death in juvenile but not adult rats, with a disproportionately high concentration of the drug found in the brain.21 We did not find any randomised trial data in this age group, but we are aware of two case series in 148 children aged under 1 treated with oseltamivir, which found no mortality or encephalitis.22 23 In the current pandemic, there is a pressing need to understand the benefits and potential adverse effects of these drugs as the current evidence base supporting this age boundary is limited.

What is already known on this topic

  • Children are particularly vulnerable to seasonal epidemics of influenza, and some will go on to develop secondary complications

  • The neuraminidase inhibitors oseltamivir and zanamivir are used for treating children with symptomatic influenza and preventing infection in contacts

  • In the current A/H1N1 pandemic, neuraminidase inhibitors have been used for prophylaxis and are currently recommended for the empirical treatment of children with influenza-like illness

What this study adds

  • Antivirals (oseltamivir and zanamivir) shorten the median duration of influenza by 0.5 to 1.5 days and reduce transmission of influenza by 8%

  • Antiviral treatment does not have a clinically significant effect on reducing asthma exacerbations or on overall use of antibiotics, but oseltamivir is associated with an increased risk of vomiting

  • The effects of antivirals on reducing the course of illness or preventing complications in children with the current influenza pandemic are not known but, based on current evidence, might be limited


Cite this as: BMJ 2009;339:b3172


  • The Department of Primary Health Care is a member of the NIHR funded School of Primary Care Research. Richard Mayon-White provided valuable advice on drafts of the manuscript. Nia Roberts provided assistance with literature searching and organisation. We also thank Nick Matheson, Mkael Symmonds-Abrahams, Sasha Shepherd, and Aziz Sheikh, who were involved in the previous Cochrane systematic review, and GlaxoSmithKline (Alison Webster) and Roche (James Smith) for providing data.

  • Contributors: MS-S and MT conducted the searches, collated and reviewed the studies, extracted the data, performed the initial analysis, and wrote the initial draft. CH and RP contributed to the analysis, revised and commented on various drafts, and provided methodological support. AH conceived the idea for and the design of the study and wrote the initial protocol. DM revised and commented on various drafts. All authors contributed to the final report. MT is guarantor.

  • Funding: This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. The Department of Primary Health care is part of the NIHR School of Primary Care Research.

  • Competing interests: None declared.

  • Ethical approval: Not required.

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