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Giebink – FDA – 01/2001 Otitis Media Epidemiology and Drug-Resistant Streptococcus pneumoniae G. Scott Giebink, M.D. Professor of Pediatrics and Otolaryngology Director, Otitis Media Research Center University of Minnesota School of Medicine
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Giebink – FDA – 01/2001 Acute Otitis Media in the US > 24 million acute otitis media office visits per year (1) ~ 80% of children in the US have at least 1 episode of otitis media by age 3 (2) ~ 50% have > 3 episodes by age 3 (2) ~ 7–12 million cases are caused by S. pneumoniae (1) (1) MMWR. 1997;46:1-24 (2) Teele DW et al. J Infect Dis. 1989;160:83-94
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Giebink – FDA – 01/2001 Bacteriology of AOM Mandel et al. Pediatr 1995 DelBeccaro et al. J Pediatr 1992
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Giebink – FDA – 01/2001 Bacteriology of Severe and Mild AOM Kaleida, et al. Pediatrics, 1991 Severity PncHiMcatMixedTotal (# ears) Mild 20 % 26 % 7 % 11 % 65 % (n=54) Severe 38 % 18 % 6 % 10 % 71 % (n=175) p=0.13
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Giebink – FDA – 01/2001 Viral-Bacterial Etiology of AOM A Pitkaranta et al. Pediatrics 1998; 102: 291-5
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Giebink – FDA – 01/2001 Otitis Media Pathogenesis Eustachian tube dysfunction / obstruction Respiratory virus infection Anatomic Middle ear bacterial invasion Inflammatory middle ear response
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Consequences of Otitis Media Acute (purulent) Otitis Media Chronic Otitis Media With Effusion (OME) Mucoid OM Secretory OM NONSUPPURATIVE SEQUELAE TM atelectasis Adhesive OM Cholesteatoma Ossicular erosion / fixation Hearing loss Conductive Sensorineural SUPPURATIVE COMPLICATIONS Chronic suppurative OM Mastoiditis Meningitis Facial nerve palsy
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Giebink – FDA – 01/2001 Pneumococcal Disease in the US approximate cases per year Meningitis Bacteremia Pneumonia Otitis Media7,000,000 500,000 50,000 3,000 5% to 7% mortality, higher in elderly 20% mortality, higher in elderly Reduction in hearing & suppurative complications 30% mortality, higher in elderly
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Giebink – FDA – 01/2001 Colonization Crossing of mucosal barrier Otitis media Sinusitis Non-bacteremic pneumonia Otitis media Sinusitis Non-bacteremic pneumonia Local invasion Pneumococcal Disease: Pathogenesis Meningitis Sepsis Invasion of bloodstream Bacteremic pneumonia
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Giebink – FDA – 01/2001 Pediatric Carriage Rates Fedson DS et al. Vaccines (3rd ed) WB Saunders; 1999:553-607
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Giebink – FDA – 01/2001 U.S. Antimicrobial Resistance Trends Among Respiratory Tract Pathogens Resistance mechanism: Beta-lactamase Altered PBPs M. catarrhalis H. influenzae S. pneumoniae
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Giebink – FDA – 01/2001 Breiman RF et al. JAMA. 1994;271:1831-1835. Streptococcus pneumoniae: Patterns of Penicillin Nonsusceptibility Major resistance trends by serotype –6B, 9V, 14, 19A, 19F, 23F are most frequent Penicillin-susceptible strains may acquire resistance over time Resistant strains are often resistant to other classes of antibiotic s
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Giebink – FDA – 01/2001 Penicillin Nonsusceptibility Among Isolates Causing Invasive Pneumococcal Disease* Spika JS et al. J Infect Dis. 1991;163:1273-8 Breiman RF et al. JAMA. 1994;271:1831-5 Butler JC et al. J Infect Dis. 1996;174:986-93 Cetron MS et al. ASM, 1997.Abstract MMWR. 1999;48:656-61 Whitney CG et al. NEJM 2001; 343:1917-24 *Isolates obtained from patients of all ages. 0 5 10 15 20 25 30 1979–871991–921993–941995–961997 Collection year Resistant isolates (%) 5.0 6.7 17.3 20.8 25.0 1998 24.0
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Giebink – FDA – 01/2001 Penicillin Susceptibility by Region 68% 64% 61% 72%61% 74% 63% 43%56% 1996-97 2752 isolates 51 medical centers Thornsberry et al. AAC 1999;43:2612
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Giebink – FDA – 01/2001 Pneumococcal Susceptibilities: US 1996-97 % Susceptible (NCCLS breakpoints) Pen SPen IPen R (n=820) (n=218) (n=238) Amoxicillin99.983.910.5 Amox-Clav99.977.90.8 Cefuroxime99.146.81.7 Cefotaxime99.985.35.9 Ceftriaxone99.985.810.1 Erythromycin93.561.930.7 Azithromycin93.764.231.2 Clarithromycin93.761.931.6 Thornsberry et al. AAC 1999;43:2612
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Giebink – FDA – 01/2001 Pneumococcal Susceptibilities: US 1996-97 % Susceptible (NCCLS breakpoints) Pen SPen IPen R (n=820) (n=218) (n=238) Grepafloxacin99.999.599.5 Sparfloxacin99.899.599.2 Levofloxacin100.099.599.2 Ofloxacin99.899.599.2 Clindamycin98.886.781.9 Rifampin99.8100.099.6 Tetracycline96.072.048.7 TMP-SMX96.786.659.6 Vancomycin100.0100.0100.0 Thornsberry et al. AAC 1999;43:2612
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Giebink – FDA – 01/2001 Pneumococcal Susceptibility by Specimen Source Blood/CSF Respiratory Ear Eye (n=370) (n=682) (n=85) (n=58) Penicillin77.860.9*44.7*65.5* Amoxicillin89.779.0*58.8*82.5 Amox-Clav87.276.3*55.3*78.9 Ceftriaxone88.479.9*60.0*84.2 Erythromycin85.472.9*65.9*79.3 Clindamycin96.593.888.2*87.9* TMP-SMX92.786.6*77.4*93.0 Tetracycline90.881.1*76.2*77.2* * % susceptible significantly lower (P<0.05) than that for blood or CSF. Thornsberry et al. AAC 1999;43:2612
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Giebink – FDA – 01/2001 Pneumococcal Susceptibility by Age 13 yr (n=284) (n=134) (n=813) Penicillin4961*70* Amoxicillin687485* Amox-Clav6273*83* Ceftriaxone6777*86* Erythromycin637580* Clindamycin8795*96* TMP-SMX828191* Tetracycline7786*85* * % susceptible significantly higher (P<0.05) than that for the <2 yr group Thornsberry et al. AAC 1999;43:2612
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Giebink – FDA – 01/2001 Pneumococcal Susceptibilities: US 1998 CDC – 7 Cities – 16.5 million population % Susceptible (NCCLS breakpoints) Pen SPen IPen R (n=2636) (n=356) (n=483) Amoxicillin10098.217.8 Cefuroxime99.965.20 Cefotaxime99.985.35.9 Ceftriaxone10097.257.6 Erythromycin96.864.938.7 Tetracycline98.780.974.5 TMP-SMX93.450.67.7 Whitney et al. NEJM 2001;343:1917
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Giebink – FDA – 01/2001 Pneumococcal Susceptibilities: US 1998 CDC – 7 Cities – 16.5 million population % Susceptible (NCCLS breakpoints) Pen SPen IPen R (n=820) (n=218) (n=238) Levofloxacin99.199.799.3 Chloramphenicol99.693.385.3 Clindamycin99.589.387.8 Rifampin99.810099.8 Synercid 10099.499.8 Vancomycin100100100 Whitney et al. NEJM 2001;343:1917
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Giebink – FDA – 01/2001 Increasing Prevalence of Multidrug-Resistant Pneumococci in the US Whitney et al. NEJM 2001;343:1917
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Giebink – FDA – 01/2001 Pneumococcal Resistance to Penicillin by Serotype in Children <5 Years: US 1998 PCV-7%Non-PCV% typesresistanttypesresistant 41.610 6B42.130 9V60.86A53.7 1433.37F0 18C2.412F0 19F40.219A65.5 23F44.822F0 All others20.9 Whitney et al. NEJM 2001;343:1917
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Child Care Effect on OM: % URIs Complicated by OM Wald, et al. Pediatrics 1991;87:129
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Giebink – FDA – 01/2001 Prevalence of Pneumococcal Carriage Among Day Care Center Children With 3 Cases of MDRSP-14 Meningitis (DCC-A) n=80n=46n=52n=48 Craig et al. Clin Infect Dis 1999;29:1257
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Giebink – FDA – 01/2001 Distribution of Unique Pneumococcal Strains Among 264 Children in 8 Day Care Centers Beer-Sheva, Israel: 10/96 – 2/97 Day Care Center (% carrying strain at least once) SerotypeResistance12345678 6APen, Em--45--8199--3 15S31--8------135 15Pen--328--3----3 19FPen, Em,----------15---- T-S, Tet 19FTet--------22------ 23AS----3--9----21 23BS------16-------- Pen, penicillin; Em, erythromycin; T-S, trimethoprim-sulfamethoxazole; Tet, tetracycline; S, susceptible to all Givon-Lavi et al. Clin Infect Dis 1999;29:1274
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Giebink – FDA – 01/2001 Chemoprophylaxis Effect on Pneumococcal Carriage Craig et al. Clin Infect Dis 1999;29:1257 No rif or clinda resistant strains
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Giebink – FDA – 01/2001 Markers of Antibiotic Effectiveness Bacteriologic efficacy = sterilize middle ear fluid Clinical efficacy = resolve clinical symptoms & signs »Relapse with the same bacteria Pharmacokinetic surrogates = antibiotic concentration time over MIC »Middle ear fluid »Plasma
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Giebink – FDA – 01/2001 AOM: Clinical Response to Placebo or Amoxicillin Placebo (mild) orAmoxicillin Myringotomy (severe)only Mild AOM92%96% Severe AOM76%90% P=0.006 Kaleida et al. Pediatrics, 1991 P=0.009 % clinically cured / improved
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Giebink – FDA – 01/2001 Clinical vs. Bacteriologic Outcomes in 293 Children with Bacterial AOM Bacteriologic ClinicalFailureSuccessTotal Failure15 17 32 Success25236261 Total40253293 Sensitivity of clinical outcome: 236 / 253 = 93% Specificity of clinical outcome: 15 / 40 = 37% Carlin, et al. J Pediatrics, 1991
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Giebink – FDA – 01/2001 Bacteriologic Failure in 2-Tap Studies Pneumococci H influenzae All Drug Pen-S Pen-I Pen-R lac- lac+ bacteria Amoxicillin0% (10) 29% (4) --21% (28) 60% (5) 25% (63) Cefuroxime9% (22) --21% (19) 15% (45) 16% (93) Cefaclor10% (41) --62% (29) 40% (85) 36% (171) Azithromycin0% (12) --100% (6) 71% (34) 47% (57) Ceftriaxone0% (8) --14% (29) 0% (45) 7% (75) (number of patients) R. Dagan (Mar 1997)
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Giebink – FDA – 01/2001 The “Pollyanna Phenomenon” in AOM Treatment Trials Marchant et al. J Pediatr 1992; 120:72 No antibiotic treatment
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Giebink – FDA – 01/2001 Antibiotic Treatment Failure Clinical and Bacteriologic Failure Noncompliance Resistant bacterial pathogen – inadequate T > MIC Sensitive bacteria, but drug distribution failure (e.g., AOM complicating chronic mucoid OME; viral infection) Immune deficiency -- acquired, congenital Bacteriologic Success / Clinical Failure Concurrent viral infection Persisting ME inflammation after clearing bacterial pathogen
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