OBJECTIVES. Reducing unnecessary antibiotic use, particularly among children, continues to be a public health priority. Previous intervention studies have been limited by size or design and have shown mixed results. The objective of this study was to determine the impact of a multifaceted, community-wide intervention on overall antibiotic use for young children and on use of broad-spectrum agents. In addition, we sought to compare the intervention's impact on commercially and Medicaid-insured children. METHODS. We conducted a controlled, community-level, cluster-randomized trial in 16 nonoverlapping Massachusetts communities, studied from 1998 to 2003. During 3 years, we implemented a physician behavior-change strategy that included guideline dissemination, small-group education, frequent updates and educational materials, and prescribing feedback. Parents received educational materials by mail and in primary care practices, pharmacies, and child care settings. Using health-plan data, we measured changes in antibiotics dispensed per person-year of observation among children who were aged 3 to <72 months, resided in study communities, and were insured by a participating commercial health plan or Medicaid. RESULTS. The data include 223135 person-years of observation. Antibiotic-use rates at baseline were 2.8, 1.7, and 1.4 antibiotics per person-year among those aged 3 to <24, 24 to <48, and 48 to <72 months, respectively. We observed a substantial downward trend in antibiotic prescribing, even in the absence of intervention. The intervention had no additional effect among children aged 3 to <24 months but was responsible for a 4.2% decrease among those aged 24 to <48 months and a 6.7% decrease among those aged 48 to <72 months. The intervention effect was greater among Medicaid-insured children and for broad-spectrum agents. CONCLUSIONS. A sustained, multifaceted, community-level intervention was only modestly successful at decreasing overall antibiotic use beyond substantial secular trends. The more robust impact among Medicaid-insured children and for specific medication classes provides an argument for specific targeting of resources for patient and physician behavior change.
Objective. Despite immunization with heptavalent pneumococcal conjugate vaccine (PCV7), the rising prevalence of antibiotic resistance makes Streptococcus pneumoniae a continuing threat to child health. Data on carriage of resistant organisms by healthy children in communities in which immunization with PCV7 has been implemented will help to define and decrease these risks further. Methods. Children who were <7 years old, resided in a study community, and presented for routine well care or a “sick” visit between March 13 and May 11, 2001, at 31 primary care practices in 16 geographically distinct Massachusetts communities were studied. Consenting parents provided demographic information and data on potential risk factors for carriage of S pneumoniae and of penicillin-nonsusceptible S pneumoniae (PNSP). S pneumoniae isolates from nasopharyngeal specimens were tested for resistance to commonly used antibiotics including penicillin, ceftriaxone, erythromycin, and trimethoprim/sulfamethoxazole. Isolates were serotyped and grouped into PCV7-included serotypes, potentially cross-reactive serotypes (ie, an organism of a serogroup included in the vaccine), or non-PCV7 serotypes. Diagnosis on the day of collection, history of recent antibiotic use, and history of PCV7 immunization were obtained by chart review. Separate bivariate and multivariate analyses were performed to identify correlates of colonization with S pneumoniae and colonization with PNSP, accounting for clustering within communities. Results. S pneumoniae was isolated from the nasopharynx of 190 (26%) of the 742 children studied. Of the 166 tested, 33% were nonsusceptible to penicillin, with 14% showing intermediate susceptibility (minimum inhibitory concentration [MIC] 0.12–1.0) and 19% fully resistant (MIC ≥2). Nonsusceptibility to other antibiotics was common, including ceftriaxone (14%), erythromycin (22%), and trimethoprim/sulfa (31%); 20% of S pneumoniae isolates were not susceptible to ≥3 antibiotics. Thirty-six percent of isolates were of serotypes covered by PCV7; 30% were of PCV7 serogroups and potentially cross-reactive, but not 1 of the 7 included serotypes; and 34% were unrelated to PCV7 serogroups. Nonsusceptibility to penicillin was more common in PCV7-included strains (45%) and potentially cross-reactive strains (51%) than in non-PCV7 serotypes (8%). Risk factors for PNSP colonization included child care attendance (odds ratio [OR]: 3.9; 95% confidence interval [CI]: 2.3–6.5), current respiratory tract infection (OR: 4.7; 95% CI: 2.5–8.6), and recent antibiotic use (OR: 1.7; 95% CI: 1.0–2.8). PCV7 immunization was associated with decreased carriage of PCV7-included serotypes but not with an overall decrease in S pneumoniae colonization or with a decline in PNSP colonization. Conclusions. In this multicommunity sample, pneumococcal antibiotic resistance was common and was most frequently found in PCV7-included and PCV7 serogroup strains. The long-term impact of PCV7 immunization will be partially determined by the protection that it affords against invasive infection with potentially cross-reactive serotypes, as well as the virulence and future resistance patterns of unrelated serotypes.
Health care providers are legally obliged to report cases of specified diseases to public health authorities, but existing manual, provider-initiated reporting systems generally result in incomplete, error-prone, and tardy information flow. Automated laboratory-based reports are more likely accurate and timely, but lack clinical information and treatment details. Here, we describe the Electronic Support for Public Health (ESP) application, a robust, automated, secure, portable public health detection and messaging system for cases of notifiable diseases. The ESP application applies disease specific logic to any complete source of electronic medical data in a fully automated process, and supports an optional case management workflow system for case notification control. All relevant clinical, laboratory and demographic details are securely transferred to the local health authority as an HL7 message. The ESP application has operated continuously in production mode since January 2007, applying rigorously validated case identification logic to ambulatory EMR data from more than 600,000 patients. Source code for this highly interoperable application is freely available under an approved open-source license at http://esphealth.org.
In this report, we describe the Automated Epidemiological Geotemporal Integrated Surveillance system (AEGIS), developed for real-time population health monitoring in the state of Massachusetts. AEGIS provides public health personnel with automated near-real-time situational awareness of utilization patterns at participating healthcare institutions, supporting surveillance of bioterrorism and naturally occurring outbreaks. As real-time public health surveillance systems become integrated into regional and national surveillance initiatives, the challenges of scalability, robustness, and data security become increasingly prominent. A modular and fault tolerant design helps AEGIS achieve scalability and robustness, while a distributed storage model with local autonomy helps to minimize risk of unauthorized disclosure. The report includes a description of the evolution of the design over time in response to the challenges of a regional and national integration environment.
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