Pharmacokinetics and pharmacodynamics of new and old antimicrobial agents for acute otitis media

Controversies in the Medical Management of Persistent and Recurrent Acute Otitis Media Recommendations of a Clinical Advisory Committee

Streptococcus pneumoniae is the predominant bacterial pathogen associated with acute otitis media (AOM), causing an estimated 7 million cases annually in the United States. Bacterial resistance should be considered when selecting an antimicrobial agent for otitis media. Significant increases in drug-resistant S pneumoniae are documented worldwide, and less than 50% of S pneumoniae strains are fully susceptible to penicillin in some regions of the United States. Although amoxicillin is recommended for uncomplicated AOM, treatment guidelines should be flexible and adaptable, taking into consideration local and regional susceptibility patterns, the age of the patient, the frequency of prior infections, and the response to prior therapy. Resistant organisms are more prevalent in children younger than 2 years of age and in those who have recurrent or persistent AOM. Overdiagnosing AOM, selecting inappropriate empiric therapy, or both, leads to overuse and misuse of antibiotics and causes increased drug resistance. This article reviews persistent and recurrent AOM and discusses the pitfalls of diagnosis and the practical limitations of current treatment recommendations.

Variations in amoxicillin pharmacokinetic/pharmacodynamic parameters may explain treatment failures in acute otitis media

Pharmacokinetic/pharmacodynamic (PK/PD) modeling and Monte Carlo simulations suggest that amoxicillin should rarely fail as therapy for Streptococcus pneumoniae and Haemophilus influenzae acute otitis media (AOM) infections except when the S. pneumoniae are highly penicillin resistant or the H. influenzae are beta-lactamase producing. However, important and not infrequent exceptions to this expectation have been described. The objective of this review was to define the biologic variations in amoxicillin PK/PD parameters for the treatment of AOM in children and assess whether these variations could explain why the commonly employed amoxicillin PK/PD model is imperfect in predicting outcome for every patient in this clinical setting. To this end, a literature search of MEDLINE (1966-2006) and EMBASE (1974-2006) was conducted to identify studies that evaluated ampicillin or amoxicillin intestinal absorption, serum concentrations, and/or middle ear fluid (MEF) concentrations. Analysis of studies identified for review showed that the intestinal bioavailability of amoxicillin depends on passive diffusion and a saturable 'pump' mechanism that produces variable serum concentrations of the antibacterial agent. Indeed, substantial differences from patient to patient in serum (5- to 30-fold) and MEF (up to 20-fold) concentrations of amoxicillin occur following oral administration, and 15-35% of children have no detectable amoxicillin in MEF. These findings suggest that variability in PK/PD parameters may impact amoxicillin concentrations in serum and MEF, possibly explaining some AOM treatment failures.

Estimating amoxicillin influx/efflux in chinchilla middle ear fluid and simultaneous measurement of antibacterial effect

Understanding the transport process and the factors that control the influx/efflux of antibiotics between plasma and middle ear fluid is essential in optimizing the antimicrobial efficacy in the treatment of acute otitis media. In this study, an experimental chinchilla model with the application of a microdialysis technique was utilized to evaluate amoxicillin middle ear distribution kinetics. Amoxicillin solutions at various doses were instilled into the middle ear with a simultaneous intravenous bolus dose. Unbound amoxicillin levels were monitored by microdialysis in both ears. Serial phlebotomy provided samples for the measurement of unbound amoxicillin concentration in plasma ultrafiltrates. In infected chinchillas, discrete middle ear fluid samples were plated and cultured to characterize Streptococcus pneumoniae growth-kill kinetics. Noncompartmental analysis was used to estimate distributional and elimination clearances assuming linear pharmacokinetics. A nonlinear Michaelis-Menten equation was also used to determine the efflux clearance (from middle ear fluid to plasma) in a mammillary compartment model. No difference was observed in amoxicillin pharmacokinetics between control and infected chinchillas. Influx clearance was (4.6 +/- 2.4) x 10(-3) ml/min-kg and significantly lower than the efflux clearance estimated as (19.2 +/- 9.7) x 10(-3) ml/min-kg (P < 0.002). Nonlinear kinetics was observed in the locally dosed ear. The microdialysis procedure did not interfere with the bacterial growth-kill profile, thereby enabling pharmacokinetic and pharmacodynamic evaluation concurrently. In conclusion, the results suggested that the distribution equilibrium of amoxicillin in the middle ear favors efflux to plasma over influx. An active transport mechanism across middle ear mucosal epithelium may be involved in amoxicillin distribution.

Microdialysis studies of the distribution of antibiotics into chinchilla middle ear fluid

For conditions such as acute otitis media, in which antibiotic penetration into middle ear fluid (MEF) may be slow or limited, antibiotic plasma levels may not reflect the concentrations at the site of infection that are relevant to clinical outcome. In such cases, a model is needed that will enable prediction of the time course of unbound, pharmacologically active antibiotic levels in MEF. We describe the use of microdialysis as a sampling tool for measurement of unbound antibiotic concentrations in the MEF of the awake, freely moving chinchilla. Results of studies of MEF penetration of the beta-lactam antibiotic, cefdinir, with use of this technique are also described. Preliminary results of studies of the penetration of antibiotics into MEF of the chinchilla appear consistent with clinical findings and suggest that the chinchilla microdialysis model may prove to be a useful tool for predicting antibiotic efficacy in patients.

Pneumococcal capsular polysaccharides conjugated to protein D for prevention of acute otitis media caused by both Streptococcus pneumoniae and non-typable Haemophilus influenzae: a randomised double-blind efficacy study

BACKGROUND

Acute otitis media is one of the most commonly-diagnosed childhood infections. This study assessed the efficacy of a novel vaccine that contained polysaccharides from 11 different Streptococcus pneumoniae serotypes each conjugated to Haemophilus influenzae-derived protein D in prevention of acute otitis media.

METHODS

4968 infants were randomly assigned to receive either pneumococcal protein D conjugate or hepatitis A vaccine at the ages of 3, 4, 5, and 12-15 months and were followed-up until the end of the second year of life. Middle-ear fluid was obtained for bacteriological culture and serotyping in children who presented with abnormal tympanic membrane or presence of middle-ear effusion, plus two predefined clinical symptoms. The primary endpoint was protective efficacy against the first episode of acute otitis media caused by vaccine pneumococcal serotypes. Analysis was per protocol.

FINDINGS

From 2 weeks after the third dose to 24-27 months of age, 333 clinical episodes of acute otitis media were recorded in the protein D conjugate group (n=2455) and 499 in the control group (n=2452), giving a significant (33.6% [95% CI 20.8-44.3]) reduction in the overall incidence of acute otitis media. Vaccine efficacy was shown for episodes of acute otitis media caused by pneumococcal vaccine serotypes (52.6% [35.0-65.5] for the first episode and 57.6% [41.4-69.3] for any episode). Efficacy was also shown against episodes of acute otitis media caused by non-typable H influenzae (35.3% [1.8-57.4]). The vaccine reduced frequency of infection from vaccine-related cross-reactive pneumococcal serotypes by 65.5%, but did not significantly change the number of episodes caused by other non-vaccine serotypes.

INTERPRETATION

These results confirm that using the H influenzae-derived protein D as a carrier protein for pneumococcal polysaccharides not only allowed protection against pneumococcal otitis, but also against acute otitis media due to non-typable H influenzae. Whether this approach would also allow improved protection against lower respiratory tract infections warrants further investigation.

The chinchilla microdialysis model for the study of antibiotic distribution to middle ear fluid

In cases of slow or limited penetration of an antibiotic to the site of infection such as in acute otitis media (the middle ear), plasma levels of the agent may not reflect the concentrations that are relevant in determining clinical outcome. There is a need for a model that allows prediction of the time-course of unbound, pharmacologically active drug levels in middle ear fluid (MEF). This article introduces microdialysis as a sampling tool to measure unbound antibiotic concentrations in the MEF of the chinchilla, and briefly summarizes the results of studies of MEF penetration of a cephalosporin, a macrolide, and a ketolide antibiotic using this technique. The general concurrence of preliminary results of the chinchilla studies with clinical findings suggests that the chinchilla microdialysis model may be useful in predicting efficacy in patients.

Resistant Haemophilus influenzae in community-acquired respiratory tract infections: a role for cefixime

An increase in Haemophilus influenzae resistance has been documented around the world during the last 30 years. Resistance is due to the production of beta-lactamases, and/or changes to penicillin-binding protein (PBP) targets. The resistance problem has led to the need for new therapeutic strategies aimed at maintaining effective management of both upper respiratory tract infections (URTIs) and lower respiratory tract infections (LRTIs). Among antimicrobial agents tested, third-generation cephalosporins have been shown to possess excellent in vitro activity against beta-lactamase-positive and -negative isolates, corresponding with proven clinical efficacy in a wide range of RTIs. The role of H. influenzae in RTIs is outlined, changing trends in epidemiological surveillance studies monitored and implications for therapy, based upon results of clinical trials discussed.

Etiology of acute otitis media in childhood and evaluation of two different protocols of antibiotic therapy: 10 days cefaclor vs. 3 days azitromycin

BACKGROUND

Acute otitis media (AOM) is a common childhood infection that is frequently treated by antibiotics. There are no prospective and comprehensive trials evaluating childhood AOM for etiologic pathogens and resistance pattern in Turkey. The aims of the study were to determine the bacterial etiologies and resistance patterns, and identify the efficacy and the relapse rates of 3 days of azitromycin and 10 days of cefaclor therapy in AOM.

METHODS

This prospective, randomized, single-blind, open study was carried out in 78 cases of AOM. Mean age was 30.7+/-27 months. Tympanocentesis and aspiration of middle ear fluid (MEF) were used to obtain purulent material from the middle ear. Group 1 consisted of the cases (n=41) on azitromycin therapy and Group 2 (n=37) on cefaclor. Dosage of azitromycin was 10 mg/kg per day for 3 days and cefaclor 40 mg/kg per day for 10 days. The patients were evaluated on days 3-5 (second visit), day 10 (third visit), and day 30 (fourth visit) during follow-up.

RESULTS

A total of 50 species were isolated from 44 of 78 cases from which materials were obtained (44/78; 56.4%). Most frequently isolated microorganism was Streptococcus pneumoniae (n=18; 36%), followed by Haemophilus influenzae (n=11; 22%), S. aureus (n=9; 18%), Moraxella catarrhalis (n=4; 8%), and group A beta-hemolytic streptococcus (GAS, n=4; 8%). Enterococcus faecalis was isolated from three cases and H. parainfluenzae from one. Penicillin and amoxicillin resistances of bacteria were found to be 40 and 36%, respectively. The frequency of penicillin and amoxicillin resistance in </=24-month age group was 59 and 66.6%, respectively. The patients did not demonstrate significant differences in terms of cure rate on the third to fifth day (Group 1: 32.5%; Group 2: 36.4%), 10th day (Group 1: 76.9%; Group 2: 84.8%), and on 30th day (Group 1: 91.3%; Group 2: 81.8%). There were no significant differences with respect to side effects, relapse, and re-infection rate between the two groups.

CONCLUSION

In more than half of the AOM cases, bacteria were isolated from MEF and most frequently isolated organisms were S. pneumoniae, H. influenzae, and S. aureus. Three-day azitromycin therapy was as effective as 10-day cefaclor therapy.

Diagnosis and management of acute otitis media in the urgent care setting

The prevalence of otitis media is increasing, which affects health care resource utilization across all segments, including the urgent care setting. One of the greatest challenges in the management of acute otitis media (AOM) is the effective treatment of cases caused by pathogens that are resistant to commonly used antibiotics. Whereas the production of beta-lactamases among strains of Haemophilus influenzae and Moraxella catarrhalis is an important consideration for antimicrobial therapy, the high prevalence of resistance to penicillin and other classes of antibiotics among strains of Streptococcus pneumoniae represents a greater clinical concern. The Centers for Disease Control and Prevention (CDC) recently convened the Drug Resistant S. pneumoniae Therapeutic Working Group to develop evidence-based recommendations for the treatment of AOM in an era of prevalent resistance. The recommendations from this group included amoxicillin as the preferred first-line drug because of the demonstrated activity against penicillin-intermediate and -resistant strains of S. pneumoniae, using higher dosages of up to 90 mg/kg per day in certain settings. For patients in whom initial treatment is unsuccessful after 3 days, the recommended agents included high-dose amoxicillin-clavulanate (for activity against beta-lactamase-producing pathogens), clindamycin, cefuroxime axetil, or 1 to 3 doses of intramuscular ceftriaxone. The principles set forth in these guidelines can assist the therapeutic decisionmaking process for practitioners in the urgent care setting.

Microdialysis studies of the middle ear distribution kinetics of amoxicillin in the awake chinchilla

This work was performed to develop an experimental animal model for the study of antibiotic drug distribution into middle ear fluid (MEF) and to evaluate its relevance and significance to the clinical treatment of otitis media (OM). Chinchillas were assigned to normal or infected ear groups after Eustachian tube obstruction (ETO) or direct trans-bullar inoculation with type 3 Streptococcus pneumoniae. Following survival surgery to implant microdialysis (MD) probes in the jugular vein and middle ear (ME), amoxicillin was given intravenously (iv) as a bolus or infusion. Drug concentrations in blood and MEF were continuously monitored by microdialysis. The measured concentrations were corrected for probe recovery by simultaneous retrodialysis. Multiple MEF and blood sampling was also performed to validate the animal model and MD sampling technique. Bacterial infection was successfully induced 3-7 days after the inoculation, whereas the control group gave negative bacterial culture results. The beta-lactam antibiotic, amoxicillin, exhibited an elimination half-life of 0.33+/-0.23 h (n = 9) in chinchilla blood, 1.46+/-0.50 h (n = 5) and 1.75+/-0.84 h (n = 4) in MEF of normal and infected ears (p = 0.6), respectively. MEF-to-blood amoxicillin concentration ratios at steady state following iv infusion were 0.26+/-0.06 (n = 5) and 0.28+/-0.11 (n = 4) for normal and infected ears (p = 0.7), respectively. MD allows continuous monitoring of drug concentration-time profiles in blood and MEF in an awake chinchilla model. The concentrations measured by MD were validated by direct sampling. The ratio of the area under the curve (AUC) of drug concentration in MEF versus time to that in blood after iv bolus doses was less than unity, as was the steady-state concentration ratio following constant-rate iv infusion, suggesting an active transport mechanism was involved in the efflux of amoxicillin from the ME of chinchilla. The results of studies involving infected ears were not significantly different from those in normal ears in terms of amoxicillin distribution across the ME mucosal membrane after systemic administration.

Diagnosis and treatment of upper respiratory tract infections in the primary care setting

BACKGROUND

Acute respiratory tract infections such as acute exacerbations of chronic bronchitis (AECB), acute otitis media (AOM), and acute bacterial rhinosinusitis (ABRS) account for approximately 75% of antibiotic prescriptions written and are among the leading reasons for physician office visits in the United States. Resistance of the predominant pathogens in respiratory tract infections (Streptococcus pneumoniae, Haemophilus influenzae, and Moraxella catarrhalis) to available antibiotics has led clinicians to reevaluate the diagnosis and management of these infections.

OBJECTIVE

The purpose of this review is to provide primary care practitioners with an accessible combined resource for the management of AECB, AOM, and ABRS.

METHODS

This review was based on discussions from a roundtable meeting (sponsored by an educational grant from GlaxoSmithKline) that convened clinicians versed in the management of upper and lower respiratory tract infections. In addition, primary articles were identified by a MEDLINE search and through secondary sources.

RESULTS

To reduce the prevalence of resistance, judicious and appropriate use of antibiotics must be implemented in clinical practice. With accurate diagnosis of bacterial and nonbacterial conditions, and patient education on antibiotic use and misuse, the excessive use of antibiotics and ensuing resistance can be reduced. The incorporation of pharmacokinetic and pharmacodynamic data with minimum inhibitory concentration values can provide a more comprehensive assessment of antibiotic activity in vivo. Stratification of patients with AECB according to patient characteristics and frequency of exacerbation can be used to determine which patients will benefit from antibiotic treatment and to guide clinicians in their choice of antibiotic. The Drug-Resistant Streptococcus pneumoniae Therapeutic Working Group has issued recommendations on the management of AOM based on prior antibiotic therapy, which is a risk factor for antimicrobial resistance. The Sinus and Allergy Health Partnership guidelines for the treatment of ABRS in adults and children are based on the predicted efficacy of various antibiotics as well as patient age, severity of disease, likelihood of bacterial infection, likelihood of spontaneous resolution, and in vitro susceptibility of the predominant pathogens based on pharmacokinetic and pharmacodynamic breakpoints.

CONCLUSIONS

Guidelines for the management of AECB, AOM, and ABRS emphasize the importance of differentiating between bacterial and nonbacterial infections, choosing an antibiotic based on the likelihood of infection with resistant pathogens, and providing coverage against the predominant pathogens. The judicious use of antibiotics also has been identified as an instrumental part of controlling unnecessary antibiotic use and subsequent resistance.

Acute otitis media in Brazilian children: analysis of microbiology and antimicrobial susceptibility

Between 1990 and 1995, a total of 300 children, ages 2 months to 5 years, received diagnoses of acute otitis media (AOM) in a hospital emergency room in São Paulo, Brazil, and were recruited for this study. The investigation was undertaken, first, to identify microorganisms and antimicrobial susceptibilities of pathogens from AOM in Brazilian children; next, to ascertain, by comparison, whether the isolates of Streptococcus pneumoniae have the same serotypes as those included in the new conjugated heptavalent pneumococcal vaccine; and last, to determine whether additional and/or different serotypes are needed in the vaccine to ensure an immunogenic response against pneumococcal pathogens for the indigenous children in this study. Microorganisms were isolated from ear fluid of 192 patients (64%). The 5 most prevalent pathogens were S pneumoniae (48 isolates; 16%), Haemophilus influenzae (21 isolates; 7%), Moraxella catarhalis (15 isolates; 5%), Pseudomonas aeruginosa (6 isolates; 2%), and Staphylococcus aureus (3 isolates; 1%). These 5 represented 93 of the 192 total isolates. Resistance to antibiotics was found in the 3 primary pathogens. No high-level resistance of S pneumoniae to penicillin was found; instead, there was high-level resistance to trimethoprim-sulfamethoxazole. Ten serotypes of S pneumoniae were isolated: 6B, 9V, 11A, 16, 18C, 19A, 19F, 23A, 23B, and 23F. Only 5 of the 10 serotypes isolated were included in the conjugated heptavalent pneumococcal vaccine. Therefore, the other 5 serotypes (24 of 48 strains) should be considered in selecting antigens for the new vaccine.

Evaluating the need, timing and best choice of antibiotic therapy for acute otitis media and tonsillopharyngitis infections in children

Deciding whether an antibiotic is necessary, when to begin therapy and selecting an optimal drug is an everyday challenge in clinical practice. In vitro susceptibility testing which determines the minimum concentration necessary for a particular antibiotic to inhibit or kill most strains of a bacterial species and pharmacodynamic modeling are useful but have limitations. The need for antibiotic therapy for acute otitis media (AOM) has been recently questioned. However, explanations for uniformly positive results with many antibiotic and placebo comparative trials include overdiagnosis of AOM at study entry, inclusion of patients with mild or uncomplicated AOM and broad criteria for the definition of clinical success. Recurrent and persistent AOM does not have as favorable a natural history as uncomplicated AOM; children below 2 years of age benefit most from antibiotic therapy. Selecting the best choice among the many antibiotics that can be used to treat AOM has become more complex over the last decade due to escalating antibiotic resistance among the pathogens that cause this infection. Broader spectrum antibiotics such as cefdinir, the newly introduced third generation cephalosporin, have their most prominent use in the treatment of persistent and recurrent AOM. In the early 1950s and 1960s penicillin clearly was the best available agent for the treatment of group A streptococcal (GAS) infections. In the 1970s the situation began to change as cephalosporin antibiotics became available. Superior eradication rates with cephalosporins such as cefdinir have now been well-documented. The leading hypothesis to explain the widening gap in efficacy between penicillin and cephalosporins relates to two major concepts: the presence of copathogens and differential alteration of the normal microbial ecology in the throat as a consequence of the selected therapy. There are positive and negative consequences to early initiation of antibiotic therapy for GAS tonsillopharyngitis. Penicillin has persisting good efficacy in patients older than the age of 12 years and in those who have been ill for >2 days. Shortening therapy for GAS tonsillopharyngitis offers a therapeutic advantage. Cefpodoxime proxetil and cefdinir have a 5-day indication for the treatment of GAS tonsillopharyngitis. Antibiotics with lower side effect profile, infrequent dosing, good palatability in suspension formulation and efficacy with short duration of treatment may lead to better outcomes because noncompliance often results in failed therapy, persistence of infection and morbidity.

Of bugs and drugs. A guide through the labyrinth of antimicrobial therapy for respiratory tract infections

Choosing appropriate antimicrobial therapy is no longer a simple process. Even for the common problems of respiratory tract disease in children and adults, selection is complicated by both increasing microbial resistance and the daunting number of extended-spectrum antibiotics now on the market. In this article, Drs Singh and Arrieta look at the problem from all aspects and give their specific recommendations.

In vitro activity and pharmacodynamics of oral beta-lactam antibiotics against Streptococcus pneumoniae from southeast Missouri

STUDY OBJECTIVES

To determine the frequency of reduced susceptibility to penicillin, and to compare the in vitro activity and pharmacodynamics of oral beta-lactam antibiotics against clinical isolates of Streptococcus pneumoniae from southeast Missouri.

SETTING

Cape Girardeau, Missouri (population 35,500). Interventions. Minimum inhibitory concentrations (MICs) were determined for penicillin, amoxicillin, amoxicillin-clavulanic acid, cefprozil, cefuroxime, cefpodoxime, cefaclor, and loracarbef by E test for 108 isolates of S. pneumoniae. The MIC50, MIC90, and percentage susceptibility were calculated for each agent. Pharmacokinetic variables were obtained from the literature, and serum concentration-time profiles were simulated for a 25-kg child taking pediatric dosages commonly administered to treat otitis media. The average time above MIC (T > MIC) was calculated as percentage of the dosing interval using free concentrations and the MIC for each individual isolate. Analysis of variance (Scheffe post hoc test) was used to determine differences among agents for in vitro activity and T > MIC (level of significance, p<0.05).

MEASUREMENTS AND MAIN RESULTS

The frequency of penicillin-nonsusceptible S. pneumoniae was 28.7% (31/108). For 25 penicillin-intermediate isolates, amoxicillin and amoxicillin-clavulanic acid were significantly more active than cefprozil, cefaclor, and loracarbef. The T > MIC for amoxicillin and amoxicillin-clavulanic acid, simulated at 13.3 mg/kg every 8 hours, was significantly longer than that for all other beta-lactams.

CONCLUSION

Amoxicillin and amoxicillin-clavulanic acid have superior in vitro activity and longer T > MIC for penicillin-intermediate isolates than the other oral beta-lactams.

Current Concepts of Therapy for Otitis Media

The therapy for acute otitis media is currently a topic in evolution. What was once a straightforward approach of matching middle ear pathogens to appropriate antibiotics has become a complex calculus that attempts to balance multiple terms such as spontaneous cure, emergence of resistance, pharmacokinetics-dynamics, antibiotic therapeutic efficacy, suppurative complications, and cost. This review highlights new developments in our understanding of this complex interaction of the issues surrounding a physician's decision to begin antibiotic therapy for acute otitis media.