BACKGROUND: We describe the relative impact of the heptavalent pneumococcal conjugate vaccine (PCV7, introduced 2001) and antibiotic use on colonization by antibiotic-resistant pneumococci in urban Alaskan children during 2000-2010. METHODS: We obtained nasopharyngeal swab specimens from a convenience sample of children aged <5 years at clinics annually during 2000-2004 and 2008-2010. PCV7 status and antibiotic use <90 days before enrollment were determined by interview/medical records review. Pneumococci were characterized by serotype and susceptibility to penicillin (PCN). Isolates with full PCN resistance (PCN-R) or intermediate PCN resistance (PCN-I) were classified as PCN-NS. RESULTS: We recruited 3496 children (median, 452 per year). During 2000-2010, a range of 18-29% per year of children used PCN/amoxicillin (P value for trend = 0.09); the proportion age-appropriately vaccinated with PCV7 increased (0[FIGURE DASH]90%; P < 0.01). Among pneumococcal isolates, the PCV7-serotype proportion decreased (53-<1%; P < 0.01) and non[FIGURE DASH]PCV7-serotype proportion increased (43-95%; P < 0.01). PCN-R pneumococcal colonization prevalence decreased (23-9%; P < 0.01) and PCN-I pneumococcal colonization prevalence increased (13-24%; P < 0.01); overall PCN-NS pneumococcal colonization prevalence was unchanged. PCN-NS among colonizing PCV7-type and non[FIGURE DASH]PCV7-type pneumococci remained unchanged; a mean of 31% per year of PCV7-type and 10% per year of non[FIGURE DASH]PCV7-type isolates were PCN-R, and 10% per year of PCV7 and 20% per year of non[FIGURE DASH]PCV7-type isolates were PCN-I. CONCLUSIONS: Overall, PCN-NS pneumococcal colonization remained unchanged during 2000-2010 because increased colonization by predominantly PCN-I non-PCV7 serotypes offset decreased colonization by predominantly PCN-R PCV7 serotypes. Proportion PCN-NS did not increase within colonizing pneumococcal serotype groups (PCV7 vs. non-PCV7) despite stable PCN use in our population.
BACKGROUND: We describe the relative impact of the heptavalent pneumococcal conjugate vaccine (PCV7, introduced 2001) and antibiotic use on colonization by antibiotic-resistant pneumococci in urban Alaskan children during 2000-2010. METHODS: We obtained nasopharyngeal swab specimens from a convenience sample of children aged <5 years at clinics annually during 2000-2004 and 2008-2010. PCV7 status and antibiotic use <90 days before enrollment were determined by interview/medical records review. Pneumococci were characterized by serotype and susceptibility to penicillin (PCN). Isolates with full PCN resistance (PCN-R) or intermediate PCN resistance (PCN-I) were classified as PCN-NS. RESULTS: We recruited 3496 children (median, 452 per year). During 2000-2010, a range of 18-29% per year of children used PCN/amoxicillin (P value for trend = 0.09); the proportion age-appropriately vaccinated with PCV7 increased (0[FIGURE DASH]90%; P < 0.01). Among pneumococcal isolates, the PCV7-serotype proportion decreased (53-<1%; P < 0.01) and non[FIGURE DASH]PCV7-serotype proportion increased (43-95%; P < 0.01). PCN-Rpneumococcal colonization prevalence decreased (23-9%; P < 0.01) and PCN-I pneumococcal colonization prevalence increased (13-24%; P < 0.01); overall PCN-NS pneumococcal colonization prevalence was unchanged. PCN-NS among colonizing PCV7-type and non[FIGURE DASH]PCV7-type pneumococci remained unchanged; a mean of 31% per year of PCV7-type and 10% per year of non[FIGURE DASH]PCV7-type isolates were PCN-R, and 10% per year of PCV7 and 20% per year of non[FIGURE DASH]PCV7-type isolates were PCN-I. CONCLUSIONS: Overall, PCN-NS pneumococcal colonization remained unchanged during 2000-2010 because increased colonization by predominantly PCN-I non-PCV7 serotypes offset decreased colonization by predominantly PCN-R PCV7 serotypes. Proportion PCN-NS did not increase within colonizing pneumococcal serotype groups (PCV7 vs. non-PCV7) despite stable PCN use in our population.
Authors: D Bogaert; M Sluijter; N Lemmens-den Toom; T J Mitchell; W H F Goessens; S C Clarke; R de Groot; P W M Hermans Journal: Microbiology (Reading) Date: 2006-02 Impact factor: 2.777
Authors: Susan S Huang; Virginia L Hinrichsen; Abbie E Stevenson; Sheryl L Rifas-Shiman; Ken Kleinman; Stephen I Pelton; Marc Lipsitch; William P Hanage; Grace M Lee; Jonathan A Finkelstein Journal: Pediatrics Date: 2009-07 Impact factor: 7.124
Authors: T J Coffey; M C Enright; M Daniels; J K Morona; R Morona; W Hryniewicz; J C Paton; B G Spratt Journal: Mol Microbiol Date: 1998-01 Impact factor: 3.501
Authors: Thomas W Hennessy; Rosalyn J Singleton; Lisa R Bulkow; Dana L Bruden; Debby A Hurlburt; Debra Parks; Matthew Moore; Alan J Parkinson; Anne Schuchat; Jay C Butler Journal: Vaccine Date: 2005-09-12 Impact factor: 3.641
Authors: M Hussain; A Melegaro; R G Pebody; R George; W J Edmunds; R Talukdar; S A Martin; A Efstratiou; E Miller Journal: Epidemiol Infect Date: 2005-10 Impact factor: 2.451
Authors: R Cohen; E Bingen; E Varon; F de La Rocque; N Brahimi; C Levy; M Boucherat; J Langue; P Geslin Journal: Pediatr Infect Dis J Date: 1997-06 Impact factor: 2.129