General practice
EAR INFECTION

FROM THE BRITISH MEDICAL JOURNAL
kindly reprinted from my purchased copy


Froom J, Culpepper L, Grob P, Barteld A, Bowers P, Bridges-Webb C, et al. Diagnosis and antibiotic treatment of acute otitis media: report from International Primary Care Network. BMJ 1990;300:582-6.
Antimicrobials for acute otitis media? a review from the international primary care network
Jack Froom, professor of family medicine,a Larry Culpepper, professor of family medicine,b Max Jacobs, associate professor of family medicine,c Ruut A DeMelker, professor of family medicine,c Larry A Green, Woodward-Chisholm chairman of family medicine,d Louk van Buchem, otorhinolaryngologist,e Paul Grob, professor of general practice,f Timothy Heeren, associate professor of biostatistics and epidemiology b

a State University of New York, Stony Brook, NY 11794, USA, b Boston University, Boston, MA 02118, USA, c University of Utrecht, 3584 CG Utrecht, Netherlands, d University of Colorado, Denver, CO 80220, USA, e St Elizabeth Hospital, 500 LC Tilburg, Netherlands, f University of Surrey, Guildford, Surrey GU2 5YG

Correspondence to: Professor Larry Culpepper Department of Family Medicine, Dowling 5 South, 1 Boston Medical Center Place, Boston, MA 02118-2393, USA.

  Introduction
Increasing worldwide resistance of bacteria to antimicrobial drugs is causing a crisis, manifested by higher morbidity, mortality, and costs.1 In 1992 the Institute of Medicine in the United States warned of the growing threat posed by resistant bacteria,2 and in 1994 the Centers for Disease Control in Atlanta initiated a prevention strategy,3 linked to a global plan by the World Health Organisation.4 Proposed remedies include development of new antimicrobials, improved sanitation, and educating patients not to ask for antimicrobials when they are not useful and physicians to prescribe them conservatively.5

About 30% of British children under the age of 3 visit their general practitioner for acute otitis media each year6 and 97% receive antimicrobials.7 In America it is the most common reason for outpatient antimicrobial use. Because this use has uncertain benefits, it merits reconsideration.

Increasing resistance to antimicrobial agents has been reported for the three most common bacterial causes of otitis media (Streptococcus pneumoniae, Haemophilus influenzae, and Moraxella catarrhalis), but rates differ between countries.8 9 In England and Wales in 1990-5, resistance to penicillin by S pneumoniae increased from 1.5% to 3.9% and to erythromycin from 2.8% to 8.6%.10

Except in the Netherlands, antimicrobials are standard treatment for acute otitis media in most developed countries.7 11 Although type and duration vary between countries, generally ampicillin, amoxycillin, or co-amoxiclav (amoxycillin-clavulanate) are preferred,with co-trimoxazole a low cost alternative.7 In the Netherlands, treatment of symptoms without antimicrobials has been adopted as routine initial treatment for otitis media,12 and this policy is associated with decreased emergence of resistance among organisms commonly found in otitis media.13 14 This approach also is being adopted in Iceland.15

  Does treatment improve outcomes?
Seven randomised blinded studies have compared antimicrobials with placebo in patients with acute otitis media (table 1) ).16 17 18 19 20 21 22 23 Comparisons aredifficult because inclusion criteria, outcome measures, duration of follow up, and the period when studies were conducted are different. Also some studies had insufficient power to evaluate small to moderate differences. Nevertheless, since results are mixed and no study found large differences between placebo and antimicrobial groups, we conclude that the benefit of routine antimicrobial use for otitis media, judged by either short or long term outcomes, is unproved.

 
Summary points

Bacterial resistance to antimicrobials is responsible for increasing morbidity, mortality, and costs

The most frequent use of antimicrobials in the United States is for otitis media

Evidence from randomised, placebo controlled trials that routine use of antimicrobials decreases the duration and severity of symptoms and prevents complications is weak

Treatment of acute otitis media differs worldwide, and careful use of antimicrobials in the Netherlands and Iceland seems to have reduced rates of resistance among organisms without compromising outcomes

The management of acute otitis media needs reassessing


A recent meta-analysis concluded that one child out of seven benefits from treatment,24 but only four of the 33 studies included had placebo or no medication groups,16 19 21 19 and no justification was given for excluding severalmethodologically sound placebo controlled studies.18 20 22 In contrast, after reviewing 50 trials, Claessen et al judged that methodological flaws precluded making recommendations.26

  Does treatment prevent complications?
Although preventing mastoiditis and meningitis is a rationale for antimicrobial treatment, little evidence exists that routine treatment is effective for this purpose. Mastoiditis, a commonly reported complication of otitis media in the preantimicrobial era, is now uncommon. It is uncertain, however, whether the decrease is related to antimicrobial treatment, changes in clinical course and organism virulence, or increased host resistance. Also, uncomplicated otitis media often might not have come to medical attention in the era before antimicrobials, increasing the relative rate of reported complications.

Questions related to the routine use of antimicrobials for acute otitis media


* Are the course of and outcomes after acute otitis media improved by antimicrobial treatment?
* Do antimicrobials prevent complications of acute otitis media?

* Which children are at high risk of poor outcomes after acute otitis media? Do they benefit from antimicrobials?

* If antimicrobials are used, are the optimum type and duration of administration known?

* Have management options, other than routine antimicrobial administration, been widely used and with what results?
* Does decreased use of antimicrobials for acute otitis media influence the development of antimicrobial resistance?



Selective use of antimicrobials might yield the same benefit as routine use. In the Netherlands, among 4860 consecutive patients with acute otitis media who were not given antimicrobials, only two experienced mastoiditis; both responded to treatment with oral antimicrobial as outpatients.27 Justification for routine antimicrobial treatment of otitis media to prevent meningitis is equally weak. None of the 4860 patients developed meningitis. Kilpi et al reported that positive blood cultures in children with bacterial meningitis were equally common in those treated and not treated with antimicrobials before admission (77% and 78%).28 Even when otitis media and meningitis coexist, they are likely to result from a common upper respiratory infection with haematogenous spread, rather than direct spread from ear to meninges.29 It therefore remains uncertain whether either routine or selective antimicrobial treatment prevents the complications of mastoiditis and meningitis.

  Do children at high risk benefit from antimicrobials?
Adverse consequences of otitis media include lack of bacteriological or clinical resolution, recurrent infection, persistent effusion, hearing loss, adenoidectomy, and insertion of a tympanostomy tube . No study has addressed whether antimicrobial treatment decreases the frequency of these in all or some of those with known risk factors.

The most important risk factors for poor outcome are young age and attendance at day care centres. In a study of two groups of children infected with S pneumoniae, comparable by sex, age at first attack, and frequency of earlier attacks, more penicillin resistant strains were isolated in those under 18 months (P=0.003).30 Decreased rates of bacteriological or clinical resolution7 22 31 and increased rates ofrecurrence,32 adenoidectomy, and insertion of a tympanostomy tube33 are other consequences reported in children under 2 years old.

Day care is a risk factor for poor outcomes, including recurrent infection,34 admission to hospital, adenoidectomy, and insertion of a tympanostomy tube.33 After other risk factors (age <2 years, white race, male sex, and history of tonsillitis, enlarged adenoids, or asthma) were controlled for, children in day care had a 50% higher chance of repeated ear infections than those not in day care.35 In a nine country study, children in day care were more likely to have a history of poor hearing, tympanostomy tubes, tonsillectomy, or adenoidectomy and to be referred to an otolaryngologist at the initial visit.36

Other factors likely to contribute to poor recovery include multiple previous episodes,37 bottle feeding,38 history of ear infections in parents or siblings,39 and use of a dummy.40 Although exposure to tobacco smoke has been considered a contributor to poor outcome, the evidence is controversial and the effect weak at best.41 Although risk factors are known, no study has shown that antimicrobial treatment improves outcome in children at risk.

  What is the optimal type and duration of administration?

In the nine country study, antimicrobials did not improve outcome at two months, and no differences in rates of recovery were found for either antimicrobial type or duration.7 The optimum duration of antimicrobial treatment for otitis media is uncertain. There is evidence that two days,42 three days,43 five days,44 and 10 days are equally effective. Treatment for more than a few days might have little local effect. In a study of antimicrobial penetrance of the middle ear, penicillin concentrations decreased by about 70% after the second day of treatment (compared with the first day), suggesting that penetration depends on inflammation.45

  No compelling evidence
After addressing these four questions, we conclude that existing research offers no compelling evidence that children with acute otitis media routinely given antimicrobials have a shorter duration of symptoms, fewer recurrences, or better long term outcomes than those who do not receive them. It also is not clear that routine compared with selective use of antimicrobials prevents complications. Thus it is prudent to reconsider routine use of antimicrobials for otitis media and to consider other approaches.

  What are the effects of other management options?
Dutch family physicians use antimicrobials for upper respiratory tract infections more conservatively than doctors in other countries (see box).18 27 A World Health Organisation study of tonsillitis in 17 European countries found that 68% of Dutch patients received antimicrobials compared with 94% in other countries.46 In 1990 the Dutch College of General Practitioners adopted a guideline for treating acute otitis media. It has received widespread use in the Netherlands, but its adoption elsewhere requires consideration of the current healthcare system, particularly the ability of parents to access care for their children initially and if they fail to improve after treatment of symptoms.

Dutch guideline for the treatment of acute otitis media*12

Patients 2 years and older


* Treatment of symptoms only (paracetamol with or without decongestant nose drops) for the first three days
* Re-evaluation if symptoms (pain or fever thought to be due to acute otitis media) continue for three days. At that time the doctor may continue additional observation or give an antimicrobial (amoxycillin, or erythromycin if amoxycillin is contraindicated) for seven days
* Special treatment for tympanic membrane perforation is not suggested unless it persists for 14 days, at which time a course of antimicrobials is suggested


Children between the ages of 6 months and 2 years


* Management is the same as for those 2 years and older, except for a mandatory contact (either telephone or visit) after 24 hours. If there is no improvement doctors may either start antimicrobials or wait an additional 24 hours

* Referral to an otolaryngologist suggested if patients in this age group appear to be seriously ill or do not improve after 24 hours of treatment with antimicrobials


* An English translation of the guideline is available from: The Dutch College of General Practitioners, Domus Medica, PO Box 323, 3502 GE Utrecht, Netherlands


Has this guideline resulted in more complications in Dutch children? While no controlled study has addressed this question, van Buchem et al found that only 2.7% of 4860 children given symptomatic treatment and no antimicrobial drug developed persistent fever, pain, or persistent discharge after three to four days and only two developed mastoiditis.27 Compared with cases in seven other countries where antimicrobial therapy is virtually universal, Dutch patients had similar outcomes at two months.7 Thus Dutch experience suggests feasible alternatives to antimicrobial treatment exist.

  What is the effect on antimicrobial resistance?
Antimicrobial use in children with otitis media results in the emergence of resistant organisms in those children and in the community. Among children previously given antimicrobials for otitis media, Harrison et al found a rate of ampicillin resistance in bacteria in effusions obtained during a subsequent bout of otitis media that was three times higher than normal.47 Significant increases in resistant strains of H influenzae, M catarrhalis,48 and S pneumoniae 49 have been reported among children with otitis media who have had previous antimicrobial treatment. Development and spread of multiply resistant pneumococci after treatment for otitis media have been documented in day care centres and surrounding communities,50 including instances that have led to deaths from meningitis in children treated previously for uncomplicated acute otitis media.51

Although the organisms that cause otitis media are similar across countries,52 the Netherlands has a lower prevalence of resistant strains than other European countries. A study in 1989 in the Netherlands found that only 3% of 1100 S pneumoniae cultures showed decreased sensitivity to penicillin compared with more than 10% in most countries.14 53 Similarly, 4.7% of non-type B H influenzae isolates from respiratory tract infections were resistant to amoxycillin—less than the 10% overall rate in Europe.13

In Iceland, penicillin resistant pneumococci appeared in 1988 and increased to nearly 20% of pneumococcal infections by 1993.54 After a campaign to decrease antimicrobial use, particularly for otitis media, and to control spread of infections in day care centres, this rate declined to 16.9% in 1994. The presence of resistant pneumococci among carriers who are day care attendees declined from 20% (21 of 104) in 1992 to 15% (19 of 126) in 1995.15 Nevertheless, it is not possible to state with certainty that decreased use of antimicrobials results in decreased resistance in endemic bacteria.

  What needs to be done?
Research—Placebo studies indicate that more than 80% of children with acute otitis media recover without antimicrobials. Antimicrobials might be useful for some of the remainder, but evidence of benefit is lacking. A trial should be designed to study antimicrobial effectiveness in children at high risk for poor outcomes, using carefully chosen outcome measures, with sufficient numbers of patients for subgroup analyses.

Prevention of acute otitis media—Sufficient information exists to support aggressive encouragement of breast feeding and avoidance of tobacco smoke.38 55 There is insufficient evidence of effectiveness to recommend pneumococcal vaccine.56 Over 70% of cases of acute otitis media are immediately preceded by viral respiratory infections,31 and there is convincing evidence that contaminated hands and surfaces are more important than airborne respiratory droplets in viral transmission.57 58 Campaigns to encourage day care centres to increase hand washing by staff and children and the use of virocidal agents to wipe surfaces might reduce viral transmission and subsequent otitis media.

Treatment of acute otitis media—Clinicians should immediately reconsider the routine use of antimicrobials for children with otitis media and consider treating symptoms with analgesics and observation for lack of improvement. Children less than 2 years old require frequent re-evaluation if not treated. Doctors are often uncertain about the diagnosis of otitis media 7; in such circumstances in particular antimicrobials should be withheld. If antimicrobials are used they should be given for less than 10 days. In addition doctors should identify modifiable risks for poor outcome and work with parents to eliminate them. The potential benefits of these actions are profound. They could reduce costs without compromising outcomes while reducing the risk of bacterial resistance.

  Acknowledgements

This paper is dedicated to the memory of Dr Max Jacobs, whose intellect, wit, and ability to solve problems internationally made our collaboration possible. He died suddenly on 21 December 1996.

Funding: Agency for Health Care Policy and Research, Grant No. RO1 HS07035-03.

Conflict of interest: None.

  References

1. Neu HC. The crisis in antibiotic resistance. Science 1992;257:1036-8. [Medline]
2. Lederberg J, Shope RE, Oaks SC, eds. Emerging infections: microbial threats to health in the United States. Washington, DC: Institute of Medicine, National Academy Press, 1992.
3. Centers for Disease Control and Prevention. Addressing emerging infectious disease threats. Atlanta: US Department of Health and Human Services, Public Health Service, 1994.
4. LeDuc JW. World Health Organization strategy for emerging infectious diseases. JAMA 1996;275:318-20.
5. Cohen ML. Epidemiology of drug resistance: implications for a post-antimicrobial era. Science 1992;257:1050-5.
6. Ross AK, Croft PR, Collins M. Incidence of acute otitis media in infants in a general practice. J R Coll Gen Pract 1988;38:70-2.
7. Froom J, Culpepper L, Grob P, Barteld A, Bowers P, Bridges-Webb C, et al. Diagnosis and antibiotic treatment of acute otitis media: report from International Primary Care Network. BMJ 1990;300:582-6.
8. Faden H, Doern G, Wolf J, Blocker M. Antimicrobial susceptibility of nasopharyngeal isolates of potential pathogens recovered from infants before antibiotic therapy: implications for the management of otitis media. Pediatr Infect Dis J 1994;13:609-12. [Medline]
9. Henderson KW, Gilligan PH, Wait K, Goff DA. Nasopharyngeal carriage of antibiotic-resistant pneumococci by children in group day care. J Infect Dis 1988;157:256-63. [Medline]
10. Johnson AP, Speller DCE, George RC, Warner M, Domingue G, Efstratiou A. Prevalence of antibiotic resistance to pneumococci in England and Wales: results of observational surveys in 1990 and 1995. BMJ 1996;312:1454-6. [Abstract/Free Full Text]
11. De Melker RA, Kuyvenhoven MM. Management of upper respiratory infection in Dutch general practice. Br J Gen Pract 1991;41:504-7.
12. Appelman CLM, Bossen PC, Dunk JHM, van de Lisdonk EH, de Melker RA, van Weert HCPM. Guideline. Dutch College of Family Doctors. Acute otitis media. Utrecht: Dutch College of Family Doctors, 1990.
13. Machka K, Braveny I, Dabernat H, Dombusch K, van Dyck E, Kayser FH, et al. Distribution and resistance patterns of Haemophilus influenzae: a European Cooperative study. Eur J Clin Microbiol Infect Dis 1988;7:14-24.
14. De Neeling AJ, Hemmes JH, van Klingeren B. Resistentie tegen antibiotica bij routine isolaten van bacteriën in zeven streeklaboratoria (English abstract). Bilthoven: Rijksinstituut Voor Volksgezondheid en Milieuhygiene, 1993 (report No 253601001).
15. Stephenson J. Icelandic researchers are showing the way to bring down rates of antibiotic-resistant bacteria. JAMA 1996;275:175-6. [Medline]
16. Halsted C, Lepow ML, Balassanian N, Emmerich J, Wolinsky E. Otitis media: clinical observations, microbiology, and evaluation of therapy. Am J Dis Child 1968;115:542-51.
17. Howie VM, Ploussard JH. Effectiveness of erythromycin estolate, triple sulfonamide, ampicillin, erythromycin estolate-triple sulfonamide, and placebo in 280 patients with acute otitis media under 2 and one-half years of age. Clin Pediatr 1972;11:205-14. [Medline]
18. van Buchem FL, Dunk JHM, van't Hof MA. Therapy of acute otitis media: myringotomy, antibiotics, or neither: a double-blind study in children. Lancet 1981;ii:883-7.
19. Mygind N, Meistrup-Larsen KI, Thomsen J, Thomsen VF, Josefsson K, Sorensen H. Penicillin in acute otitis media: a double-blind, placebo-controlled trial. Clin Otolaryngol 1981;6:5-13.
20. Kaleida PH, Casselbrant ML, Rockette HE, Paradise JL, Bluestone CD, Blatter MM, et al. Amoxicillin or myringotomy or both for acute otitis media: results of a randomized clinical trial. Pediatrics 1991;87:466-74.
21. Burke P, Bain J, Robinson D, Dunleavey J. Acute red ear in children: controlled trial of non-antibiotic treatment in general practice. BMJ 1991;303:558-62. [Medline]
22. Appelman CLM, Claessen JQPJ, Touw-Otten FWMM, Hordijk GJ, DeMelker RA. Co-amoxiclav in recurrent acute otitis media: placebo controlled study. BMJ 1991;303:1450-2.
23. Claessen JQPJ, Appleman CLM, Touw-Otten FWMM, de Melker RA, Hordijk GJ. Persistence of middle ear dysfunction after recurrent acute otitis media. Clin Otolaryngol 1994;19:35-40.
24. Rosenfeld RM, Vertrees JE, Carr J, Cipolle RJ, Uden DL, Giebink GS, et al. Clinical efficacy of antimicrobial drugs for acute otitis media: meta-analysis of 5400 children from thirty-three randomized trials. J Pediatrics 1994;124:355-67. [Medline]
25. Laxdal OE, Merida J, Trefor Jones RH. Treatment of acute otitis media: a controlled study of 142 children. Can Med Assoc J 1970;102:263-8.
26. Claessen JQPJ, Appleman CLM, Touw-Otten FWMM, de Melker RA, Hordijk GJ. A review of clinical trials regarding treatment of acute otitis media. Clin Otolaryngol 1992;17:251-7.
27. Van Buchem FL, Peeters MF, van't Hof MA. Acute otitis media: a new treatment strategy. BMJ 1985;290:1033-7.
28. Kilpi T, Anttila M, Kallio MJ, Peltola H. Severity of childhood bacterial meningitis: duration of illness before diagnosis. Lancet 1991;338:406-9. [Medline]
29. Eavey RD, Gao Y-Z, Schuknecht HF, Gonzalez-Pineda M. Otologic features of bacterial meningitis of childhood. Pediatrics 1985;106(3):402-7.
30. Barry B, Gehanno P, Blumen M, Boucot I. Clinical outcome of acute otitis media caused by pneumococci with decreased susceptibility to penicillin. Scand J Infect Dis 1994;26:446-52. [Medline]
31. Froom J, Culpepper L, Grob P, Barteld A, Bowers P, Bridges-Webb C, et al. Effect of patient characteristics and disease manifestations on the outcome of acute otitis media at two months. Arch Fam Med 1993;2:841-6.
32. Rasmussen F. Recurrence of acute otitis media at preschool age in Sweden. J Epidemiol Community Health 1994;48:33-5.
33. Alho OP, Koivu M, Sorri M, Oja H, Kilkku O. Which children are being operated on for recurrent acute otitis media? Arch Otolaryngol Head Neck Surg 1994;120:807-11.
34. Louhiala PJ, Jaakkola N, Ruotsalainen R, Jaakkola JJ. Form of day care and respiratory infection among Finnish children. Am J Public Health 1995;85:1109-12.
35. Hardy AM, Fowler MG. Child care arrangements and repeated ear infections in young children. Am J Public Health 1993;83:1321-5.
36. Froom J, Culpepper L. Otitis media in day care children: a report from the International Primary Care Network. J Fam Pract 1991;32:289-94.
37. Alho OP, Oja H, Koivu M, Sorri M. Risk factors for chronic otitis media with effusion in infancy. Each acute otitis media episode induces a high but transient risk. Arch Otolaryngol Head Neck Surg 1995;121:839-43.
38. Sassen ML, Brand R, Grote JJ. Breast-feeding and acute otitis media. Am J Otolaryngol 1994;15:351-7.
39. Teele DW, Klein JO, Rosner B. Epidemiology of otitis media during the first seven years of life in children in greater Boston: a prospective cohort study. J Infect Dis 1989;160:83-94. [Medline]
40. Niemela M, Uhari M, Mottonen M. A pacifier increases the risk of recurrent acute otitis media in children in day care centers. Pediatrics 1995;96:884-8. [Abstract]
41. Blakley BW, Blakley JE. Smoking and middle ear disease: are they related? A review article. Otolaryngol Head Neck Surg 1995;112:441-6.
42. Meistrup-Larsen KI, Sorensen H, Johnsen NJ, Thomsen J, Mygind N, Sederberg-Olsen J. Two versus seven days penicillin treatment for acute otitis media. Acta Otolaryngol 1983;96:99-104.
43. Chaput de Saintonge DM, Levine DF, Savage IT, Gurgess GWS. Trial of three-day and ten-day course of amoxycillin in otitis media. BMJ 1982;284:1078-81. [Medline]
44. Hendrickse WA, Kusmiesz H, Shelton S, Nelson JD. Five vs. ten days of therapy for acute otitis media. Pediatr Infect Dis J 1988;7:17-23.
45. Lundgren K, Ingvarsson L, Rudcrantz H. The concentration of penicillin-V in middle ear exudate. J Pediatr Otorhinolaryngol 1979;1:93-6.
46. Touw-Otten FW, Johansen KS. Diagnosis, antibiotic treatment and outcome of acute tonsillitis: report of a WHO regional office for Europe study in 17 European countries. Fam Pract 1992;9:255-64.
47. Harrison CJ, Marks MI, Welch DF. Microbiology of recently treated acute otitis media compared with previously untreated acute otitis media. Pediatr Infect Dis J 1985;4:641-6.
48. Faden H, Bernstein J, Stanievich J, Brodsky L, Ogra PL. Effect of prior antibiotic treatment on middle ear disease in children. Ann Otol Rhinol Laryngol 1992;101:87-91. [Medline]
49. Ford KL, Mason EO Jr, Kaplan SL, Lamberth LB, Tillman J. Factors associated with middle ear isolates of Streptococcus pneumoniae resistant to penicillin in a children's hospital. J Pediatrics 1991;119:941-4. [Medline]
50. Reichler MR, Allphin AA, Breiman RF, Schreiber JR, Arnold JE, McDougal LK, et al. The spread of multiply resistant Streptococcus pneumoniae at a day care center in Ohio. J Infect Dis 1992;166:1346-53.
51. Sloas MM, Barrett FF, Chesney PJ, English BK, Hill BC, Tenover FC, et al. Cephalosporin treatment failure in penicillin- and cephalosporin-resistant Streptococcus pneumoniae meningitis. Pediatr Infect Dis J 1992;11:662-6.
52. Bluestone CD, Klein JO. Otitis media in infants and children. Philadelphia: WB Saunders Company, 1988:45-8.
53. Van Klingeren B, Michelen MF, Wagenvoort JHT. Beheersing van het resistentievraagstuk door het voeren van een antbioticum beleid. Ned Tijdschr Geneeskd 1992;136:860-4. [Medline]
54. Aarason VA, Kristinson KG, Sigurdsson JA, Stefansdottir G, Molstad S. Do antimicrobials increase carriage rate of penicillin resistant pneumococci in children? BMJ 1996;313:387-91. [Abstract/Free Full Text]
55. Stenstrom R, Bernard PAM, Ben-Simhon H. Exposure to environmental tobacco smoke as a risk factor for recurrent acute otitis media in children under the age of five years. Int J Pediatr Otorhinolaryngol 1993;27:127-36.
56. Lee CJ, Wang TR. Pneumococcal infection and immunization in children. Crit Rev Microbiol 1994;20:1-12.
57. Gwaltney JM, Hendley JO. Transmission of experimental rhinovirus infection by contaminated surface. Am J Epidemiol 1982;116:828-33.
58. Murray BE. Can antibiotic resistance be controlled? N Engl J Med 1994;330:1229-30. [Free Full Text]
(Accepted 28 May 1997)



This article has been cited by other articles:




L. Mascitelli and F. Pezzetta
Recurrent Otitis Media in Children
JAMA, March 19, 2003; 289(11): 1383 - 1383.
[Full Text] [PDF]

------------------------------------------------------------------------



 R. F. Chen, J. M. Westfall, T. Fahey, N. Stocks, S. H. Woolf, N. Brooks, A.-C. Nyquist, R. Gonzales, J. F. Steiner, M. A. Sande, B. Schwartz, and A. G. Mainous III
Antibiotics for Children With Upper Respiratory Tract Infections
JAMA, October 28, 1998; 280(16): 1399 - 1402.
[Full Text] [PDF]

------------------------------------------------------------------------



 S. Nyfors, E. Kononen, R. Syrjanen, E. Komulainen, and H. Jousimies-Somer
Emergence of penicillin resistance among Fusobacterium nucleatum populations of commensal oral flora during early childhood
J. Antimicrob. Chemother., January 1, 2003; 51(1): 107 - 112.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 J. O. Hendley
Otitis Media
N. Engl. J. Med., October 10, 2002; 347(15): 1169 - 1174.
[Full Text] [PDF]

------------------------------------------------------------------------



 P. Little, C. Gould, M. Moore, G. Warner, J. Dunleavey, I. Williamson, C. Del Mar, and J. Doust
Predictors of poor outcome and benefits from antibiotics in children with acute otitis media: pragmatic randomised trial * Commentary: research directions for treatment for acute otitis media
BMJ, July 6, 2002; 325(7354): 22 - 22.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 N. Zwar, J. Henderson, H. Britt, K. McGeechan, and G. Yeo
Influencing antibiotic prescribing by prescriber feedback and management guidelines: a 5-year follow-up
Fam. Pract., February 1, 2002; 19(1): 12 - 17.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 Should Acute Otitis Patients Get Antibiotics?
Journal Watch Emergency Medicine, September 1, 1997; 1997(901): 3 - 3.
[Full Text]

------------------------------------------------------------------------



 C. M. Verduin, C. Hol, A. Fleer, H. van Dijk, and A. van Belkum
Moraxella catarrhalis: from Emerging to Established Pathogen
Clin. Microbiol. Rev., January 1, 2002; 15(1): 125 - 144.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 E. Westman and A. Melhus
The treatment of Haemophilus influenzae acute otitis media with amoxicillin protects against reinfection but not against structural changes
J. Antimicrob. Chemother., January 1, 2002; 49(1): 141 - 147.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 A. Melhus
Effects of amoxicillin on the expression of cytokines during experimental acute otitis media caused by non-typeable Haemophilus influenzae
J. Antimicrob. Chemother., September 1, 2001; 48(3): 397 - 402.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 E. C. J. Johansen, T. Lildholdt, N. Damsbo, and E. W. Eriksen
Tympanometry for diagnosis and treatment of otitis media in general practice
Fam. Pract., August 1, 2000; 17(4): 317 - 322.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 G. S. Takata, L. S. Chan, P. Shekelle, S. C. Morton, W. Mason, and S. M. Marcy
Evidence Assessment of Management of Acute Otitis Media: I. The Role of Antibiotics in Treatment of Uncomplicated Acute Otitis Media
Pediatrics, August 1, 2001; 108(2): 239 - 247.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 J. A. Finkelstein, R. L. Davis, S. F. Dowell, J. P. Metlay, S. B. Soumerai, S. L. Rifas-Shiman, M. Higham, Z. Miller, I. Miroshnik, A. Pedan, and R. Platt
Reducing Antibiotic Use in Children: A Randomized Trial in 12 Practices
Pediatrics, July 1, 2001; 108(1): 1 - 7.
[Abstract] [Full Text] [PDF]

------------------------------------------------------------------------



 P. Little, C. Gould, I. Williamson, M. Moore, G. Warner, and J. Dunleavey
Pragmatic randomised controlled trial of two prescribing strategies for childhood acute otitis media
BMJ, February 10, 2001; 322(7282): 336 - 342.
[Abstract] [Full Text]

------------------------------------------------------------------------



 R. Dagan, K. P. Klugman, W. A. Craig, and F. Baquero
Evidence to support the rationale that bacterial eradication in respiratory tract infection is an important aim of antimicrobial therapy
J. Antimicrob. Chemother., February 1, 2001; 47(2): 129 - 140.
[Abstract] [Full Text]

------------------------------------------------------------------------



 A. Thornett, E. I Cantekin, E. King, R J Lilford, D. Braunholtz, G Sandhu, H A Saleh, T Wright, R A M J Damoiseaux, F A M van Balen, A W Hoes, T J M Verheij, and R A de Melker
Amoxicillin for otitis media in general practice
BMJ, September 23, 2000; 321(7263): 765 - 765.
[Full Text]

------------------------------------------------------------------------



 R. F. Pass
Respiratory Virus Infection and Otitis Media
Pediatrics, August 1, 1998; 102(2): 400 - 401.
[Full Text] [PDF]

------------------------------------------------------------------------



 R. A M J Damoiseaux, F. A M van Balen, A. W Hoes, T. J M Verheij, and R. A de Melker
Primary care based randomised, double blind trial of amoxicillin versus placebo for acute otitis media in children aged under 2 years
BMJ, February 5, 2000; 320(7231): 350 - 354.
[Abstract] [Full Text]

------------------------------------------------------------------------



 T. Arvola, K. Laiho, S. Torkkeli, H. Mykkänen, S. Salminen, L. Maunula, and E. Isolauri
Prophylactic Lactobacillus GG Reduces Antibiotic-Associated Diarrhea in Children With Respiratory Infections: A Randomized Study
Pediatrics, November 1, 1999; 104(5): 64e - 64.
[Abstract] [Full Text]

------------------------------------------------------------------------



 P. O'Neill
Clinical evidence: Acute otitis media
BMJ, September 25, 1999; 319(7213): 833 - 835.
[Full Text]

------------------------------------------------------------------------



 C. Cates
An evidence based approach to reducing antibiotic use in children with acute otitis media: controlled before and after study
BMJ, March 13, 1999; 318(7185): 715 - 716.
[Full Text]

------------------------------------------------------------------------



 T. Fahey, N. Stocks, and T. Thomas
Systematic review of the treatment of upper respiratory tract infection
Arch. Dis. Child., September 1, 1998; 79(3): 225 - 230.
[Abstract] [Full Text]

------------------------------------------------------------------------



 H. Bauchner and B. Philipp
Reducing Inappropriate Oral Antibiotic Use: A Prescription for Change
Pediatrics, July 1, 1998; 102(1): 142 - 144.
[Full Text]

------------------------------------------------------------------------



 P. Huovinen and O. Cars
Control of antimicrobial resistance: time for action
BMJ, September 5, 1998; 317(7159): 613 - 614.
[Full Text]

------------------------------------------------------------------------



 T. Fahey, D. Sharp, A. Majeed, and T. Harris
Acute otitis media in children
BMJ, February 14, 1998; 316(7131): 630a - 630.
[Full Text]

------------------------------------------------------------------------



 A. Majeed and T. Harris
Acute otitis media in children
BMJ, August 9, 1997; 315(7104): 321 - 322.
[Full Text]

------------------------------------------------------------------------

Related letters in BMJ:

Acute otitis media in children
Tom Fahey, Deborah Sharp, Azeem Majeed, and Tess Harris
BMJ 1998 316: 630. [Letter]

Amoxicillin for otitis media in general practice
Andrew Thornett, Erdem I Cantekin, Elizabeth King, R J Lilford, David Braunholtz, G Sandhu, H A Saleh, T Wright, R A M J Damoiseaux, F A M van Balen, A W Hoes, T J M Verheij, and R A de Melker
BMJ 2000 321: 765. [Letter]


------------------------------------------------------------------------
© 2003 BMJ Publishing Group Ltd