This clinical practice guideline formulates recommendations for health care providers regarding the diagnosis, evaluation, and treatment of children, ages 1 to 21 years, with uncomplicated acute, subacute, and recurrent acute bacterial sinusitis. It was developed through a comprehensive search and analysis of the medical literature. Expert consensus opinion was used to enhance or formulate recommendations where data were insufficient.
A subcommittee, composed of pediatricians with expertise in infectious disease, allergy, epidemiology, family practice, and pediatric practice, supplemented with an otolaryngologist and radiologist, were selected to formulate the practice parameter. Several other groups (including members of the American College of Emergency Physicians, American Academy of Otolaryngology-Head and Neck Surgery, American Academy of Asthma, Allergy and Immunology, as well as numerous national committees and sections of the American Academy of Pediatrics) have reviewed and revised the guideline. Three specific issues were considered: 1) evidence for the efficacy of various antibiotics in children; 2) evidence for the efficacy of various ancillary, nonantibiotic regimens; and 3) the diagnostic accuracy and concordance of clinical symptoms, radiography (and other imaging methods), and sinus aspiration.
It is recommended that the diagnosis of acute bacterial sinusitis be based on clinical criteria in children ≤6 years of age who present with upper respiratory symptoms that are either persistent or severe. Although controversial, imaging studies may be necessary to confirm a diagnosis of acute bacterial sinusitis in children >6 years of age. Computed tomography scans of the paranasal sinuses should be reserved for children who present with complications of acute bacterial sinusitis or who have very persistent or recurrent infections and are not responsive to medical management.
There were only 5 controlled randomized trials and 8 case series on antimicrobial therapy for acute bacterial sinusitis in children. However, these data, plus data derived from the study of adults with acute bacterial sinusitis, support the recommendation that acute bacterial sinusitis be treated with antimicrobial therapy to achieve a more rapid clinical cure. Children with complications or suspected complications of acute bacterial sinusitis should be treated promptly and aggressively with antibiotics and, when appropriate, drainage. Based on controversial and limited data, no recommendations are made about the use of prophylactic antimicrobials, ancillary therapies, or complementary/alternative medicine for prevention and treatment of acute bacterial sinusitis.
This clinical practice guideline is not intended as a sole source of guidance in the diagnosis and management of acute bacterial sinusitis in children. It is designed to assist pediatricians by providing an analytic framework for evaluation and treatment. It is not intended to replace clinical judgment or establish a protocol for all patients with this condition.
- CT =
- computed tomography
The ethmoid and the maxillary sinuses form in the third to fourth gestational month and, accordingly, are present at birth. The sphenoid sinuses are generally pneumatized by 5 years of age; the frontal sinuses appear at age 7 to 8 years but are not completely developed until late adolescence. The paranasal sinuses are a common site of infection in children and adolescents.1 These infections are important as a cause of frequent morbidity and rarely may result in life-threatening complications. It may be difficult to distinguish children with uncomplicated viral upper respiratory infections or adenoiditis from those with an episode of acute bacterial sinusitis.2 Most viral infections of the upper respiratory tract involve the nose and the paranasal sinuses (viral rhinosinusitis).3 However, bacterial infections of the paranasal sinuses do not usually involve the nose. When the patient with bacterial infection of the paranasal sinuses has purulent (thick, colored, and opaque) nasal drainage, the site of infection is the paranasal sinuses; the nose is simply acting as a conduit for secretions produced in the sinuses.
The common predisposing events that set the stage for acute bacterial sinusitis are acute viral upper respiratory infections that result in a viral rhinosinusitis (a diffuse mucositis that predisposes to approximately 80% of bacterial sinus infections) and allergic inflammation (that predisposes to 20% of bacterial sinus infections).4 Children have 6 to 8 viral upper respiratory infections each year; it is estimated that between 5% to 13% of these infections may be complicated by a secondary bacterial infection of the paranasal sinuses.5–7 Acute bacterial otitis media and acute bacterial sinusitis are the most common complications of viral upper respiratory infections and are probably the most common indications for the prescription of antimicrobial agents.8The middle ear cavity connects to the nasopharynx via the eustachian tube. In a sense then, the middle ear cavity is also a paranasal sinus.9 The pathogenesis and microbiology of acute otitis media and acute bacterial sinusitis are similar.9 This similarity allows us to extrapolate information known about the treatment of acute otitis media and apply it to the treatment of acute bacterial sinusitis. This is especially helpful when considering antimicrobials and antibacterial resistance. Data on antimicrobial efficacy and antibacterial resistance also may be derived from the study of adult patients with acute sinusitis, in whom there have been more recent systematic inquiry.10 ,11
This practice guideline focuses on the diagnosis, evaluation, and treatment of children, ages 1 to 21 years, with uncomplicated acute, subacute, and recurrent acute bacterial sinusitis. Neonates and children younger than 1 year of age are not considered. Although bacterial sinusitis does occur rarely in children less than 1 year of age, their exclusion reflects, in part, the difficulty in conducting clinical investigation in this age group. This is a consequence of the small size of the paranasal sinuses and the difficulty in safely performing sinus aspiration.12 This practice parameter does not apply to children with previously recognized anatomic abnormalities of their paranasal sinuses (facial dysmorphisms or trauma), immunodeficiencies, cystic fibrosis, or immotile cilia syndrome.
A discussion of chronic sinusitis (defined by the presence of symptoms for 90 days) and acute exacerbations of chronic sinusitis are not included in this guideline. The role of bacterial infection as a primary cause of chronic sinusitis is controversial.11 ,13Chronic inflammation of the paranasal sinuses may be a consequence of noninfectious conditions such as allergy, environmental pollutants, cystic fibrosis, or gastroesophageal reflux.
This guideline is intended for use by clinicians who treat children and adolescents in a variety of clinical settings including the office and emergency department. The purpose of the guideline is to encourage accurate diagnosis of bacterial sinusitis, appropriate use of imaging procedures, and judicious use of antibiotics.
Acute bacterial sinusitis: Bacterial infection of the paranasal sinuses lasting less than 30 days in which symptoms resolve completely.
Subacute bacterial sinusitis: Bacterial infection of the paranasal sinuses lasting between 30 and 90 days in which symptoms resolve completely.
Recurrent acute bacterial sinusitis: Episodes of bacterial infection of the paranasal sinuses, each lasting less than 30 days and separated by intervals of at least 10 days during which the patient is asymptomatic.
Chronic sinusitis: Episodes of inflammation of the paranasal sinuses lasting more than 90 days. Patients have persistent residual respiratory symptoms such as cough, rhinorrhea, or nasal obstruction.
Acute bacterial sinusitis superimposed on chronic sinusitis: Patients with residual respiratory symptoms develop new respiratory symptoms. When treated with antimicrobials, these new symptoms resolve, but the underlying residual symptoms do not.14
To develop the clinical practice guideline on the management of acute bacterial sinusitis, the American Academy of Pediatrics subcommittee partnered with the Agency for Healthcare Research and Quality and colleague organizations from family practice and otolaryngology. The Agency for Healthcare Research and Quality worked with the New England Medical Center Evidence-based Practice Center, as one of several centers that focus on conducting systematic reviews of the literature. A full report was produced by the New England Medical Center on the diagnosis and management of acute sinusitis.15 However, because there were only 5 randomized studies in children, a supplemental analysis was conducted that included nonrandomized pediatric trials. The subcommittee used both reports to form the practice guideline recommendations but relied heavily on the pediatric supplement.16
For the pediatric supplement, the major research questions to be analyzed through the literature on acute bacterial sinusitis in childhood were 1) evidence for the efficacy of various antibiotics in children; 2) evidence for the efficacy of various ancillary, nonantibiotic regimens; and 3) the diagnostic accuracy and concordance of clinical symptoms, radiography (and other imaging methods), and sinus aspiration.
The literature was searched in Medline, complemented by Excerpta Medica, from 1966 through March 1999, using the word “sinusitis.” Search criteria were limited to human studies and English language and appropriate pediatric terms. More than 1800 citations were reviewed. One hundred thirty-eight articles were fully examined, resulting in 21 qualifying studies. These studies included 5 controlled randomized trials and 8 case series on antimicrobial therapy, 3 controlled randomized trials on ancillary treatments, and 8 studies with information on diagnostic tests. The heterogeneity and paucity of the data did not allow for formal meta-analysis. When possible, rates were pooled across different studies and heterogeneity assessed.
The draft clinical practice guideline underwent extensive peer review by committees and sections within the American Academy of Pediatrics and by numerous outside organizations. Liaisons to the committee also distributed the draft within their organizations. Comments were compiled and reviewed by the subcommittee and relevant changes incorporated into the guideline.
The recommendations contained in this practice guideline are based on the best available data. Where data are lacking, a combination of evidence and expert opinion was used. Strong recommendations were based on high-quality scientific evidence or, when such was unavailable, strong expert consensus. Fair and weak recommendations are based on lesser-quality or limited data and expert consensus. Clinical options are identified as interventions for which the subcommittee could not find compelling positive or negative evidence. These clinical options are interventions that a reasonable health care professional may or may not wish to consider.
Methods of Diagnosis
Under normal circumstances the paranasal sinuses are assumed to be sterile.17–19 However, the paranasal sinuses are in continuity with surface areas, such as the nasal mucosa and nasopharynx, which are heavily colonized with bacteria. Although it is reasonable to assume that the paranasal sinuses are frequently and transiently contaminated by bacteria from neighboring surfaces, these bacteria, which are present in low density, are probably removed by the normal function of the mucociliary apparatus. Accordingly, the gold standard for the diagnosis of acute bacterial sinusitis is the recovery of bacteria in high density (≥104 colony-forming units/mL) from the cavity of a paranasal sinus.20 Although sinus aspiration is the gold standard for the diagnosis of acute bacterial sinusitis,11 it is an invasive, time-consuming, and potentially painful procedure that should only be performed by a specialist (otolaryngologist). It is not a feasible method of diagnosis for the primary care practitioner and is not recommended for the routine diagnosis of bacterial sinus infections in children. However, the results of sinus aspiration have been correlated with clinical and radiographic findings in children with acute respiratory symptoms.21 ,22
The diagnosis of acute bacterial sinusitis is based on clinical criteria in children who present with upper respiratory symptoms that are either persistent or severe (strong recommendation based on limited scientific evidence and strong consensus of the panel).
Acute bacterial sinusitis is an infection of the paranasal sinuses lasting less than 30 days that presents with either persistent or severe symptoms.4 ,23 Patients are asymptomatic after recovery from episodes of acute bacterial sinusitis.
Persistent symptoms are those that last longer than 10 to 14, but less than 30, days. Such symptoms include nasal or postnasal discharge (of any quality), daytime cough (which may be worse at night), or both.
Severe symptoms include a temperature of at least 102°F (39oC) and purulent nasal discharge present concurrently for at least 3 to 4 consecutive days in a child who seems ill. The child who seems toxic should be hospitalized and is not considered in this algorithm.
Uncomplicated viral upper respiratory infections generally last 5 to 7 days but may last longer.24 ,25 Although the respiratory symptoms may not have completely resolved by the 10th day, almost always they have peaked in severity and begun to improve. Therefore, the persistence of respiratory symptoms without any evidence that they are beginning to resolve suggests the presence of a secondary bacterial infection. Significant fever or complaints of facial pain or headache are variable. It is important for the practitioner to attempt to differentiate between sequential episodes of uncomplicated viral upper respiratory tract infections (which may seem to coalesce in the mind of the patient or parent) from the onset of acute sinusitis with persistent symptoms. The objective of treatment of acute bacterial sinusitis is to foster rapid recovery, prevent suppurative complications, and minimize exacerbations of asthma (reactive airways diseases).26
Children with acute bacterial sinusitis who present with severe symptoms need to be distinguished from those with uncomplicated viral infections who are moderately ill. If fever is present at all in uncomplicated viral infections of the upper respiratory tract, it tends to be present early in the illness, usually accompanied by other constitutional symptoms such as headache and myalgias.24Generally, the constitutional symptoms resolve in the first 48 hours and then the respiratory symptoms become prominent. In most uncomplicated viral infections, purulent nasal discharge does not appear for several days. Accordingly, it is the concurrent presentation with high fever and purulent nasal discharge for at least 3 to 4 consecutive days that helps to define the severe presentation of acute bacterial sinusitis.23 Children with severe onset of acute bacterial sinusitis may have an intense headache that is above or behind the eye; in general, they seem to be moderately ill.
Unfortunately, the physical examination does not generally contribute substantially to the diagnosis of acute bacterial sinusitis. This is explained by the similarity of physical findings in the patient with an uncomplicated viral rhinosinusitis and the patient with acute bacterial sinusitis.2 In both instances, examination of the nasal mucosa may show mild erythema and swelling of the nasal turbinates with mucopurulent discharge. Facial pain is an unusual complaint in children. Facial tenderness is a rare finding in small children and may be unreliable as an indicator of acute bacterial sinusitis in older children and adolescents. Reproducible unilateral pain, present on percussion or direct pressure over the body of the frontal and maxillary sinuses, may indicate a diagnosis of acute bacterial sinusitis.27 Likewise, observed or reported periorbital swelling is suggestive of ethmoid sinusitis. Examination of the tympanic membranes, pharynx, and cervical lymph nodes does not usually contribute to the diagnosis of acute bacterial sinusitis.
The value of the performance of transillumination of the sinuses to assess whether fluid is present in the maxillary and frontal paranasal sinuses is controversial. The technique is performed in a completely darkened room (after the examiner's eyes are adapted to the dark) by placing a transilluminator (high-intensity light beam) either in the mouth or against the cheek (for the maxillary sinuses) or under the medial aspect of the supraorbital ridge area (for the frontal sinuses) to assess the transmission of light through the sinus cavity.27 Transillumination is difficult to perform correctly and has been shown to be unreliable in children younger than 10 years.22 ,28 In the older child it may be helpful at the extremes of interpretation; if transillumination is normal, sinusitis is unlikely; if the transmission of light is absent, the maxillary or frontal sinus is likely to be filled with fluid.18
Subacute sinusitis is defined by the persistence of mild to moderate and often intermittent respiratory symptoms (nasal discharge, daytime cough, or both) for between 30 and 90 days. The nasal discharge may be of any quality, and cough is often worse at night. Low-grade fever may be periodic but is usually not prominent. The microbiology of subacute sinusitis is the same as that observed in patients with acute bacterial sinusitis.29
Patients with recurrent acute bacterial sinusitis are defined as having had 3 episodes of acute bacterial sinusitis in 6 months or 4 episodes in 12 months. The response to antibiotics is usually brisk and the patient is completely free of symptoms between episodes.
The most common cause of recurrent sinusitis is recurrent viral upper respiratory infection, often a consequence of attendance at day care or the presence of an older school-age sibling in the household. Other predisposing conditions include allergic and nonallergic rhinitis, cystic fibrosis, an immunodeficiency disorder (insufficient or dysfunctional immunoglobulins), ciliary dyskinesia, or an anatomic problem.23
Imaging studies are not necessary to confirm a diagnosis of clinical sinusitis in children ≤6 years of age (strong recommendation based on limited scientific evidence and strong consensus of the panel).
In 1981, children between the ages of 2 and 16 years presenting with either persistent or severe symptoms were evaluated with sinus radiographs.21 ,22 When children with persistent or severe symptoms were found to have abnormal sinus radiographs (complete opacification, mucosal thickening of at least 4 mm, or an air-fluid level), an aspiration of the maxillary sinus was performed. Bacteria in high density (≥104 colony-forming units/mL) were recovered in 70% to 75% of the children. This proportion of positive cultures (75%) is similar to the likelihood that a tympanocentesis will yield middle ear fluid with a positive culture for bacteria in children with otoscopic evidence of acute otitis media.30
In children with persistent symptoms, the history of protracted respiratory symptoms (>10 but <30 days without evidence of improvement) predicted significantly abnormal radiographs (complete opacification, mucosal thickening of at least 4 mm, or an air-fluid level) in 80% of children.31 For children 6 years of age or younger, the history predicted abnormal sinus radiographs in 88% of children. For children older than 6 years, the history of persistent symptoms predicted abnormal sinus radiographs in 70%. The peak age for acute bacterial sinusitis is in children 6 years of age or younger. Accordingly, in this age group, because a positive history predicts the finding of abnormal sinus radiographs so frequently (and because history plus abnormal radiographs results in a positive sinus aspirate in 75% of cases), radiographs can be safely omitted and a diagnosis of acute bacterial sinusitis can be made on clinical criteria alone. Approximately 60% of children with symptoms of sinusitis (persistent or severe) will have bacteria recovered from an aspirate of the maxillary sinus.
In contrast to the general agreement that radiographs are not necessary in children 6 years of age or younger with persistent symptoms, the need for radiographs as a confirmatory test of acute sinusitis in children older than 6 years with persistent symptoms and for all children (regardless of age) with severe symptoms is controversial.32 ,33 Some practitioners may elect to perform sinus radiographs with the expectation or suspicion that the study may be normal. A normal radiograph is powerful evidence that bacterial sinusitis is not the cause of the clinical syndrome.34 However, the American College of Radiology has taken the position that the diagnosis of acute uncomplicated sinusitis should be made on clinical grounds alone.35 They support this position by noting that plain radiographs of the paranasal sinuses are technically difficult to perform, particularly in very young children. Correct positioning may be difficult to achieve and therefore the radiographic images may overestimate and underestimate the presence of abnormalities within the paranasal sinuses.36 ,37 The college would reserve the use of images for situations in which the patient does not recover or worsens during the course of appropriate antimicrobial therapy. Similarly, a recent set of guidelines generated by the Sinus and Allergy Health Partnership (representing numerous constituencies) does not recommend either radiographs or computed tomography (CT) or magnetic resonance imaging scans to diagnose uncomplicated cases of acute bacterial sinusitis in any age group.1
It is essential to recognize that abnormal images of the sinuses (either radiographs, CT, or magnetic resonance imaging) cannot stand alone as diagnostic evidence of acute bacterial sinusitis under any circumstances. Images can serve only as confirmatory measures of sinus disease in patients whose clinical histories are supportive of the diagnosis. Numerous investigations have demonstrated the high frequency of abnormal images in the paranasal sinuses of children undergoing imaging for indications other than suspected sinusitis.38–40 In a study by Glasier et al,39 almost 100% of young children who were undergoing CT examination for reasons other than sinus disease and who had an upper respiratory tract infection in the previous 2 weeks demonstrated soft tissue changes in their sinuses. A study by Gwaltney et al in 19943 found that abnormalities of the paranasal sinuses on CT scan are extremely common in young adults with acute (<72 hours) uncomplicated viral upper respiratory infections. This study and others serve to underscore that when abnormalities of the mucosa are present on images they indicate the presence of inflammation but do not disclose whether the inflammatory process is caused by viral infection, bacterial infection, allergy, or chemical irritation (eg, chlorine exposure in the swimmer).
CT scans of the paranasal sinuses should be reserved for patients in whom surgery is being considered as a management strategy (strong recommendation based on good evidence and strong panel consensus).
Despite the limitations of CT scans,3 38–40 they offer a detailed image of sinus anatomy and, when taken in conjunction with clinical findings, remain a useful adjunct to guide surgical treatment. Computed tomography scans are indicated in children who present with complications of acute bacterial sinus infection or those who have very persistent or recurrent infections that are not responsive to medical management.33 In these instances, the image, preferably a complete CT scan of the paranasal sinuses, is essential to provide precise anatomic information to the clinician. These are instances in which the physician may be contemplating surgical intervention, including aspiration of the paranasal sinuses.
Antibiotics are recommended for the management of acute bacterial sinusitis to achieve a more rapid clinical cure (strong recommendation based on good evidence and strong panel consensus).
To promote the judicious use of antibiotics, it is essential that children diagnosed as having acute bacterial sinusitis meet the defining clinical presentations of “persistent” or “severe” disease as described previously.41 This will minimize the number of children with uncomplicated viral upper respiratory tract infections who are treated with antimicrobials.
In a study comparing antimicrobial therapy with placebo in the treatment of children with the clinical and radiographic diagnosis of acute bacterial sinusitis, children receiving antimicrobial therapy recovered more quickly and more often than those receiving placebo.31 On the third day of treatment, 83% of children receiving an antimicrobial were cured or improved compared with 51% of the children in the placebo group. (Forty-five percent of children receiving antimicrobial therapy were cured [complete resolution of respiratory symptoms] compared with 11% receiving placebo.) On the 10th day of treatment, 79% of children receiving an antimicrobial were cured or improved compared with 60% of children receiving placebo. Approximately 50% to 60% of children will improve gradually without the use of antimicrobials; however, the recovery of an additional 20% to 30% is delayed substantially compared with children who receive appropriate antibiotics.
A recent study by Garbutt et al42 has challenged the notion that children identified as having acute sinusitis on clinical grounds alone (without the performance of images) will benefit from antimicrobial therapy. When children randomized to low-dose antibiotic therapy were compared with those receiving placebo there were no differences observed in outcome, either in the timing or frequency of recovery. The discrepancy in results between this investigation and the Wald31 study may be attributable to the inclusion in this study of a larger cohort of older children (who may not have had sinusitis) and the exclusion of more seriously ill children with a temperature >39°C or facial pain. Current recommendations for antibiotic management of uncomplicated sinusitis vary depending on a previous history of antibiotic exposure (in the previous 1–3 months), attendance at day care, and age. Some of the children in the Garbutt study might have qualified for high-dose amoxicillin-clavulanate to overcome antimicrobial resistant pathogens.
Comparative bacteriologic cure rates in studies of adults with acute sinusitis indicate the efficacy of antimicrobial treatment.11 ,43 The findings of these studies indicate that antimicrobials in adequate doses with appropriate antibacterial spectra are highly effective in eradicating or substantially reducing bacteria in the sinus cavity, whereas those with inadequate spectrum or given in inadequate doses are not (Table 1).
The microbiology of acute, subacute, and recurrent acute bacterial sinusitis has been outlined in several studies.20–22 The principal bacterial pathogens are Streptococcus pneumoniae, nontypeable Haemophilus influenzae, and Moraxella catarrhalis. S pneumoniae is recovered from approximately 30% of children with acute bacterial sinusitis, whereas H influenzae and M catarrhalis are each recovered from about 20%.23 In the remaining 30% of children, aspirates of the maxillary sinus are sterile. It is noteworthy that neither Streptococcus aureus nor respiratory anaerobes are likely to be recovered from children with acute bacterial sinusitis.22
Currently, approximately 50% of H influenzae and 100% ofM catarrhalis are likely to be β-lactamase positive nationwide.44 ,45 Upper respiratory tract isolates ofS pneumoniae are not susceptible to penicillin in 15% to 38% (average 25%) of children; approximately 50% are highly resistant to penicillin and the remaining half are intermediate in resistance.1 ,46 ,47 The mechanism of penicillin resistance in S pneumoniae is an alteration of penicillin binding proteins. This phenomenon, which varies considerably according to geographic location, results in resistance to penicillin and cephalosporin. Table 2 shows the calculation for the likelihood that a child with acute bacterial sinusitis will harbor a resistant pathogen and not respond to treatment with amoxicillin. The following should be considered: the prevalence of each bacterial species as a cause of acute bacterial sinusitis, the prevalence of resistance among each bacterial species, and the rate of spontaneous improvement. Extrapolating from data derived from patients with acute otitis media, 15% of children with acute bacterial sinusitis caused by S pneumoniae will recover spontaneously, half of the children with acute bacterial sinusitis caused by H influenzae and half to three-quarters of the children infected with M catarrhalis also will recover spontaneously.48 Furthermore, only S pneumoniae that are highly resistant to penicillin will not respond to conventional doses of amoxicillin. Accordingly, in the absence of any risk factors, approximately 80% of children with acute bacterial sinusitis will respond to treatment with amoxicillin. Risk factors for the presence of bacterial species that are likely to be resistant to amoxicillin include 1) attendance at day care, 2) recent receipt (<90 days) of antimicrobial treatment, and 3) age less than 2 years.49 ,50
The desire to continue to use amoxicillin as first-line therapy in patients suspected of having acute bacterial sinusitis relates to its general effectiveness, safety, and tolerability; low cost; and narrow spectrum. For children younger than 2 years of age with uncomplicated acute bacterial sinusitis that is mild to moderate in degree of severity, who do not attend day care, and have not recently been treated with an antimicrobial, amoxicillin is recommended at either a usual dose of 45 mg/kg/d in 2 divided doses or a high dose of 90 mg/kg/d in 2 divided doses (Fig 1). If the patient is allergic to amoxicillin, either cefdinir (14 mg/kg/d in 1 or 2 doses), cefuroxime (30 mg/kg/d in 2 divided doses), or cefpodoxime (10 mg/kg/d once daily) can be used (only if the allergic reaction was not a type 1 hypersensitivity reaction). In cases of serious allergic reactions, clarithromycin (15 mg/kg/d in 2 divided doses) or azithromycin (10 mg/kg/d on day 1, 5 mg/kg/d × 4 days as a single daily dose) can be used in an effort to select an antimicrobial of an entirely different class. The Food and Drug Administration has not approved azithromycin for use in patients with sinusitis. Alternative therapy in the penicillin-allergic patient who is known to be infected with a penicillin-resistant S pneumoniae is clindamycin at 30 to 40 mg/kg/d in 3 divided doses.
Most patients with acute bacterial sinusitis who are treated with an appropriate antimicrobial agent respond promptly (within 48–72 hours) with a diminution of respiratory symptoms (reduction of nasal discharge and cough) and an improvement in general well-being.11 ,23 ,31 If a patient fails to improve, either the antimicrobial is ineffective or the diagnosis of sinusitis is not correct.
If patients do not improve while receiving the usual dose of amoxicillin (45 mg/kg/d), have recently been treated with an antimicrobial, have an illness that is moderate or more severe, or attend day care, therapy should be initiated with high-dose amoxicillin-clavulanate (80–90 mg/kg/d of amoxicillin component, with 6.4 mg/kg/d of clavulanate in 2 divided doses). This dose of amoxicillin will yield sinus fluid levels that exceed the minimum inhibitory concentration of all S pneumoniae that are intermediate in resistance to penicillin and most, but not all, highly resistant S pneumoniae. There is sufficient potassium clavulanate to inhibit all β-lactamase producing H influenzae and M catarrhalis. Alternative therapies include cefdinir, cefuroxime, or cefpodoxime. A single dose of ceftriaxone (at 50 mg/kg/d), given either intravenously or intramuscularly, can be used in children with vomiting that precludes administration of oral antibiotics. Twenty-four hours later, when the child is clinically improved, an oral antibiotic is substituted to complete the therapy. Although trimethoprim-sulfamethoxazole and erythromycin-sulfisoxazole have traditionally been useful in the past as first- and second-line therapy for patients with acute bacterial sinusitis, recent pneumococcal surveillance studies indicate that resistance to these 2 combination agents is substantial.51 ,52 Therefore, when patients fail to improve while receiving amoxicillin, neither trimethoprim-sulfamethoxazole nor erythromycin-sulfisoxazole are appropriate choices for antimicrobial therapy. For patients who do not improve with a second course of antibiotics or who are acutely ill, there are 2 options. It is appropriate to consult an otolaryngologist for consideration of maxillary sinus aspiration to obtain a sample of sinus secretions for culture and sensitivity so that therapy can be adjusted precisely. Alternatively, the physician may prescribe intravenous cefotaxime or ceftriaxone (either in hospital or at home) and refer to an otolaryngologist only if the patient does not improve on intravenous antibiotics. Some authorities recommend performing cultures of the middle meatus instead of aspiration of the maxillary sinus to determine the cause of acute bacterial sinusitis.53 However, there are no data in children that have correlated cultures of the middle meatus with cultures of the maxillary sinus aspirate.54
The optimal duration of therapy for patients with acute bacterial sinusitis has not received systematic study. Often empiric recommendations are made for 10, 14, 21, or 28 days of therapy. An alternative suggestion has been made that antibiotic therapy be continued until the patient becomes free of symptoms and then for an additional 7 days.23 This strategy, which individualizes treatment for each patient, results in a minimum course of 10 days and avoids prolonged courses of antibiotics in patients who are asymptomatic and thereby unlikely to be compliant.
No recommendations are made based on controversial and limited data.
Adjuvant therapies used to supplement the effect of antimicrobials have received relatively little systematic investigation.55Available agents include saline nasal irrigation (hypertonic or normal saline), antihistamines, decongestants (topical or systemic), mucolytic agents, and topical intranasal steroids.
Currently there are no data to recommend the use of H1 antihistamines in nonallergic children with acute bacterial sinusitis. There is a single prospective study in which children with presumed acute bacterial sinusitis were randomized to receive either decongestant-antihistamine or placebo in addition to amoxicillin. The active treatment group received topical oxymetazoline and oral decongestant-antihistamine syrup (brompheniramine and phenylpropanolamine). No difference in clinical or radiographic resolution was noted between groups.56
There has been a single study of intranasal steroids as an adjunct to antibiotics in young children with presumed acute bacterial sinusitis. Intranasal budesonide spray had a modest effect on symptoms only during the second week of therapy.57 A multicenter, double-blind, randomized, parallel trial evaluating flunisolide spray as an adjunct to oral antibiotic therapy was reported in patients at least 14 years of age.58 The benefit of flunisolide was marginal and of minimal clinical importance. There is little reason to expect a substantial benefit from intranasal steroids in patients with acute bacterial sinusitis when antibiotics work effectively in the first 3 to 4 days of treatment.
No clinical trials of mucolytics have been reported in nonatopic children or adults with acute bacterial sinusitis.59Neither saline nose drops nor nasal spray have been studied in patients with acute bacterial sinusitis. However, by preventing crust formation and liquefying secretions, they may be helpful. In addition, saline also may act as a mild vasoconstrictor of nasal blood flow.59 A method for performing a nasal saline flush was reported anecdotally by Schwartz.60
No recommendations are made based on limited and controversial data.
Antibiotic prophylaxis as a strategy to prevent infection in patients who experience recurrent episodes of acute bacterial sinusitis has not been systematically evaluated and is controversial.59 Although previously successful in children who experience recurrent episodes of acute otitis media,61 ,62 there is little enthusiasm for this approach in light of current concerns regarding the increasing prevalence of antibiotic-resistant organisms. Nonetheless, it may be used in a few highly selected patients whose infections have been defined meticulously (always fulfilling criteria for persistent or severe presentation) and are very frequent (at least 3 infections in 6 months or 4 infections in 12 months). Amoxicillin (20 mg/kg/d given at night) and sulfisoxazole (75 mg/kg/d in 2 divided doses) have been used successfully to prevent episodes of acute otitis media. Usually prophylaxis is maintained until the end of the respiratory season. It is appropriate to initiate an evaluation for factors that commonly predispose to episodes of recurrent acute bacterial sinusitis such as atopy, immunodeficiency, cystic fibrosis, and dysmotile cilia syndrome. Children with craniofacial abnormalities also are at risk to develop acute bacterial sinusitis.
Complementary/Alternative Medicine for Prevention and Treatment of Rhinosinusitis
No recommendations are made based on limited and controversial data.
A substantial number of children, adolescents, and their parents use nonprescription cold medicines or simple home-based remedies such as soups, fruit juices, or teas as alternatives or complements to conventional therapy for the treatment of upper respiratory infections including rhinosinusitis.63 ,64 Others use herbal remedies and nutritional supplements or seek care from acupuncturists, chiropractors, homeopaths, naturopaths, aromatherapists, massage and therapeutic touch practitioners, and a variety of other healing modalities.64–67
Few of these therapies for upper respiratory tract infection or rhinosinusitis have been validated in randomized controlled trials. Claims that homeopathic medicines,68–70 vitamin C preparations,71 or zinc lozenges72 prevent upper respiratory infections or hasten their resolution are controversial. A recently published study provides evidence that zinc nasal gel is effective in shortening the duration of symptoms of the common cold when taken within 24 hours of their onset.73Studies performed among adults indicating efficacy ofEchinacea preparations in stimulating the immune system, thereby reducing the incidence, duration, or severity of respiratory infections, are debated74 ,75; however, a recent meta-analysis suggested a predominance of generally positive effects.76
Physicians treating children and young adults should be aware that many of their patients are using complementary therapies, often without informing them. Most of these remedies are harmless and, whether through pharmacologic or placebo effect, a perception of efficacy in providing relief from symptoms has stood the test of time. Nevertheless, many herbal medicines sold in the United States are of uncertain efficacy, content, and toxicity and carry a potential for serious adverse effects.77 Of particular concern is the ability of the botanicals, either by direct interaction or by altering excretion mechanisms, to magnify or oppose the effect of conventional medicines that patients may be using concurrently.78 Physicians should inquire about the use of complementary medicine for upper respiratory tract infections among their patients, particularly those on long-term medication for chronic conditions. Information on dietary supplements is available on a regularly updated Internet site.79
Children with complications or suspected complications of acute bacterial sinusitis should be treated promptly and aggressively. This should include referral to an otolaryngologist usually with the consultation of an infectious disease specialist, ophthalmologist, and neurosurgeon (strong recommendation based on strong consensus of the panel).
The complications of acute bacterial sinusitis usually involve either the orbit, the central nervous system, or both. Although rare, complications can result in permanent blindness or death if not treated promptly and appropriately.
Periorbital and intraorbital inflammation and infection are the most common complications of acute sinusitis and most often are caused by acute ethmoiditis. These disorders are commonly classified in relation to the orbital septum. The orbital septum is a sheet of connective tissue continuous with the periosteum of the orbital bones that separates tissues of the eyelid from those of the orbit. Preseptal inflammation involves only the eyelid, whereas postseptal inflammation involves structures of the orbit. Complications can be classified as 1) periorbital (or preseptal) cellulitis or sympathetic edema (periorbital cellulitis is not a true orbital complication. The periorbital swelling is attributable to passive venous congestion; infection is confined to the paranasal sinuses), 2) subperiosteal abscess, 3) orbital abscess, 4) orbital cellulitis, or 5) cavernous sinus thrombosis.
Mild cases of periorbital cellulitis (eyelid <50% closed) may be treated with appropriate oral antibiotic therapy as an outpatient with daily patient encounters. However, if the patient has not improved in 24 to 48 hours or if the infection is progressing rapidly, it is appropriate to admit the patient to the hospital for antimicrobial therapy consisting of intravenous ceftriaxone (100 mg/kg/d in 2 divided doses) or ampicillin-sulbactam (200 mg/kg/d in 4 divided doses). Vancomycin (60 mg/kg/d in 4 divided doses) may be added in children in whom infection is either known or likely to be caused byS pneumoniae that are highly resistant to penicillin.
If proptosis, impaired visual acuity, or impaired extraocular mobility are present on examination, a CT scan (preferably coronal thin cut with contrast) of the orbits/sinuses is essential to exclude a suppurative complication. In such cases, the patient should be evaluated by an otolaryngologist and an ophthalmologist. Suppurative complications generally require prompt surgical drainage. An exception to this is the patient with a small subperiosteal abscess and minimal ocular abnormalities for whom intravenous antibiotic treatment for 24 to 48 hours is recommended while performing frequent visual and mental status checks. Patients who have changes in visual acuity or mental status or who fail to improve within 24 to 48 hours require prompt surgical intervention and drainage of the abscess. Antibiotics can be altered, if inappropriate, when results of culture and sensitivity studies become available.
In patients with altered mental status, neurosurgical consultation is indicated. Signs of increased intracranial pressure (headache and vomiting) or nuchal rigidity require immediate CT scanning (with contrast) of the brain, orbits, and sinuses to exclude intracranial complications such as cavernous sinus thrombosis, osteomyelitis of the frontal bone (Pott's puffy tumor), meningitis, subdural empyema, epidural abscess, and brain abscess. Central nervous system complications, such as meningitis and empyemas, should be treated either with intravenous cefotaxime or ceftriaxone and vancomycin pending the results of culture and susceptibility testing.
AREAS FOR FUTURE RESEARCH
The extensive Medline searches to review the literature for the diagnosis and treatment of acute bacterial sinusitis in children uncovered the fact that there are scant data on which to base recommendations. Accordingly, areas for future research include the following:
Conduct more and larger studies correlating the clinical findings of acute bacterial sinusitis with findings of sinus aspiration, imaging, and treatment outcome.
Develop noninvasive strategies to accurately diagnose acute bacterial sinusitis in children.
Correlate cultures obtained from the middle meatus of the maxillary sinus of infected individuals with cultures obtained from the maxillary sinus by puncture of the antrum.
Develop imaging technology that differentiates bacterial infection from viral infection or allergic inflammation.
Develop rapid diagnostic methods to image the sinuses without radiation.
Determine the optimal duration of antimicrobial therapy for children with acute bacterial sinusitis.
Determine the causes and treatment of subacute and recurrent acute bacterial sinusitis.
Determine the efficacy of prophylaxis with antimicrobials to prevent recurrent acute bacterial sinusitis.
Determine the impact of bacterial resistance among S pneumoniae, H influenzae, and M catarrhalison outcome of treatment with antibiotics by the performance of randomized, double-blind, placebo-controlled studies in well-defined populations of patients.
Determine the role of adjuvant therapies (mucolytics, decongestants, antihistamines, etc) in patients with acute bacterial sinusitis by the performance of prospective, randomized, clinical trials.
Determine the role of complementary and alternative medicine strategies in patients with acute bacterial sinusitis by performing systematic, prospective, randomized clinical trials.
Assess the effect of the pneumococcal conjugate vaccine on the epidemiology of acute bacterial sinusitis.
Develop new bacterial and viral vaccines to reduce the incidence of acute bacterial sinusitis.
This clinical practice guideline provides evidence-based recommendations for the management of bacterial rhinosinusitis in children ages 1 to 21 years. The guideline emphasizes 1) appropriate diagnosis in children who present with persistent or severe upper respiratory symptoms; 2) the utility of imaging studies to confirm a diagnosis; 3) treatment therapies such as antibiotic use including prophylaxis, adjuvant treatment, and alternative interventions; and 4) management of complications. The guideline provides decision-making strategies for managing sinusitis to assist primary care providers in diagnosing and treating children with this common health problem.
The subcommittee wishes to acknowledge the Agency for Healthcare Research and Quality and the New England Medical Center Evidence-based Practice Center for their work in developing the evidence report. We especially thank John P. A. Ioannidis, MD, and Joseph Lau, MD, for their work on the technical report.
Subcommittee on Management of Sinusitis
Ellen R. Wald, MD, Chairperson
W. Clayton Bordley, MD, MPH
David H. Darrow, MD, DDS
Katherine Teets Grimm, MD
Jack M. Gwaltney, Jr, MD
S. Michael Marcy, MD
Melvin O. Senac, Jr, MD
Paul V. Williams, MD
Larry Culpepper, MD, MPH
American Academy of Family Physicians
David L. Walner, MD
American Academy of Otolaryngology-Head and Neck Surgery
Carla Herrerias, MPH
Committee on Quality Improvement, 2000–2001
Charles J. Homer, MD, MPH, Chairperson
Richard D. Baltz, MD
Michael J. Goldberg, MD
Gerald B. Hickson, MD
Paul V. Miles, MD
Thomas B. Newman, MD, MPH
Joan E. Shook, MD
William M. Zurhellen, MD
Charles H. Deitschel, Jr, MD
Committee on Medical Liability
Denise Dougherty, PhD
Agency for Healthcare Research and Quality Institutions
F. Lane France, MD
Committee on Practice and Ambulatory Medicine
Kelly J. Kelleher, MD, MPH
Section on Epidemiology
Betty A. Lowe, MD
National Association of Children's Hospitals and Related Institutions
Ellen Schwalenstocker, MBA
National Association of Children's Hospitals and Related Institutions
Richard N. Shiffman, MD
Section on Computers and Other Technology
The recommendations in this statement do not indicate an exclusive course of treatment or serve as a standard of medical care. Variations, taking into account individual circumstances, may be appropriate.
- Wald ER,
- Guerra N,
- Byers C
- Gwaltney JM Jr,
- Scheld WM,
- Sande MA,
- Sydnor A
- Gwaltney JM Jr
- ↵Lau J, Ioannidis JP, Wald ER. Diagnosis and Treatment of Uncomplicated Acute Sinusitis in Children. Evidence Report/Technology Assessment: Number 9. Rockville, MD: Agency for Healthcare Research and Quality, US Department of Health and Human Services; 2000. AHRQ Contract No. 290-97-0019. Available at:http://www.ahrq.gov/clinic/sinuschsum.htm Accessed February 23, 2001
- ↵Lau J, Zucker D, Engels EA, et al. Diagnosis and Treatment of Acute Bacterial Rhinosinusitis. Summary, Evidence Report/Technology Assessment: Number 9. Rockville, MD: Agency for Healthcare Research and Quality, US Department of Health and Human Services; 1999. AHRQ Contract No. 290–97-0019. Available at:http://hstat.nlm.nih.gov/ftrs/tocview Accessed February 23, 2001
- Arruda LK,
- Mimica IM,
- Sole D,
- et al.
- ↵Gwaltney JM Jr, Hendley JO, Simon G, Jordan WS. Rhinovirus infection in an industrial population. II. Characteristics of illness and antibody response. JAMA. 1967;202;494–500
- ↵Kline MW. Otitis media. In: McMillan JA, DeAngelis CD, Feigin RD, Warshaw JB, eds. Oski's Pediatrics: Principles and Practice. Philadelphia, PA: Lippincott Williams & Wilkins; 1999:1301–1304
- Wald ER,
- Chiponis D,
- Ledesma-Medina J
- Kovatch AL,
- Wald ER,
- Ledesma-Medina J,
- Chiponis DM,
- Bedingfield B
- ↵McAlister WH, Parker BR, Kushner DC, et al. Sinusitis in the pediatric population. In: ACR Appropriateness Criteria. Reston, VA: American College of Radiology; 2000. Available at:http://www.acr.org/departments/appropriateness_criteria/toc.html.Accessed February 23, 2001
- Garbutt JM,
- Goldstein M,
- Gellman E,
- Shannon W,
- Littenberg B
- Doern GV,
- Brueggemann AB,
- Pierce G,
- Holley HP,
- Rauch A
- Doern GV,
- Jones RN,
- Pfaller MA,
- Kugler K
- Howie VM,
- Ploussard JH
- ↵Levine OS, Farley M, Harrison LH, Lefkowitz L, McGeer A, Schwartz B. Risk factors for invasive pneumococcal disease in children: a population-based case-control study in North America.Pediatrics. 1999;103(3). Available at:http://www.pediatrics.org/cgi/content/full/103/3/e28 Accessed February 28, 2001
- Jacobs MR,
- Bajaksouzian S,
- Zilles A,
- Lin G,
- Pankuch GA,
- Appelbaum PC
- Doern GV,
- Pfaller MA,
- Kugler K,
- Freeman J,
- Jones RN
- McCormick DP,
- John SD,
- Swischuk LE,
- Uchida T
- ↵Kemper KJ. The Holistic Pediatrician: A Parent's Comprehensive Guide to Safe and Effective Therapies for the 25 Most Common Childhood Ailments. New York, NY: Harper Perennial; 1996
- Spigelblatt L,
- Laine-Ammara G,
- Pless IB,
- Guyver A
- de Lange de Klerk ES,
- Blommers J,
- Kuik DJ,
- Bezemer PD,
- Feenstra L
- Turner RB,
- Riker DK,
- Gangemi JD
- ↵Office of Dietary Supplements. International Bibliographic Information on Dietary Supplements (IBIDS) Database. Available at:http://ods.od.nih.gov/databases/ibids.html Accessed February 23, 2001
- Copyright © 2001 American Academy of Pediatrics