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Patterns of Oral Antibiotic Use and Excess Duration at Hospital Discharge
- Corey Medler, Nicholas Mercuro, Helina Misikir, Nancy MacDonald, Melinda Neuhauser, Lauri Hicks, Arjun Srinivasan, George Divine, Marcus Zervos
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- Journal:
- Infection Control & Hospital Epidemiology / Volume 41 / Issue S1 / October 2020
- Published online by Cambridge University Press:
- 02 November 2020, pp. s522-s523
- Print publication:
- October 2020
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Background: Antimicrobial stewardship (AMS) interventions have predominantly involved inpatient antimicrobial therapy. However, for many hospitalized patients, most antibiotic use occurs after discharge, and unnecessarily prolonged courses of therapy are common. Patient transition from hospitalization to discharge represents an important opportunity for AMS intervention. We describe patterns of antibiotic use selection and duration of therapy (DOT) for common infections including discharge antibiotics. Methods: This retrospective cross-sectional analysis was derived from an IRB-approved, multihospital, quasi-experiment at a 5-hospital health system in southeastern Michigan. The study population included patients discharged from an inpatient general and specialty practice ward on oral antibiotics from November 2018 through April 2019. Patients were included with the following diagnoses: skin and soft-tissue infections (SSTIs), community-acquired pneumonia (CAP), hospital-acquired pneumonia (HAP), respiratory viral infections, acute exacerbation of chronic obstructive pulmonary disease (AECOPD), intra-abdominal infections (IAIs), and urinary tract infections (UTIs). Other diagnoses were excluded. Data were extracted from medical records including antibiotic indication, selection, and duration, as well as patient characteristics. Results: In total, 1,574 patients were screened and 800 patients were eligible for inclusion. The most common antibiotic indications were respiratory tract infections, with 487 (60.9%) patients. These included 165 AECOPD cases (20.6%) and 200 CAP cases (25%) with no multidrug resistant organism (MDRO) risk factors; 57 patients (7.1%) with MDRO risk factors; HAP in 7 patients (0.9%); and influenza in 58 patients (7.2%). Also, 205 (25.6%) patients were diagnosed with UTIs: 71 with cystitis (8.9%), 86 (10.8%) with complicated UTI (cUTI), and 48 (6%) with pyelonephritis. Furthermore, 125 patients (15.6%) were diagnosed with SSTI: 59 (7.4%) purulent and 66 (8.3%) nonpurulent. 31 (3.9%) patients had an IAI. The most commonly used antibiotics were cephalosporins in 536 patients (67%), azithromycin in 252 patients (31.5%), and fluroquinolones and tetracyclines in 231 patients (28.9%). Fluroquinolones were the most frequent antibiotic prescribed at discharge in 210 patients (26.3%). Figure 1 displays the average DOT relative to specific indications. The median duration of total antibiotic therapy exceeded institutional guideline recommendation for multiple conditions, including AECOPD (7 days vs recommended 5 days), CAP with COPD (8.3 vs 7 days ), CAP without COPD (7.7 vs 5 days), and pyelonephritis (11 vs 7–10 days). Also, 269 (33.6%) patients received unnecessary therapy; 218 (27.3%) of these were due to excess duration. Conclusions: Among a cross-section of hospitalized patients, the average DOT, including after discharge, exceeded the optimal therapy for many patients. Further understanding of patterns and influences of antibiotic prescribing is necessary to design effective AMS interventions for improvement.
Funding: This work was completed under CDC contract number 200-2018-02928.
Disclosures: None
Implementation Methods for a Collaborative Pharmacist-Led Antimicrobial Stewardship Intervention at Hospital Discharge
- Corey Medler, Nicholas Mercuro, Nancy MacDonald, Allison Weinmann, Melinda Neuhauser, Lauri Hicks, Arjun Srinivasan, George Divine, Marcus Zervos, Susan Davis
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- Journal:
- Infection Control & Hospital Epidemiology / Volume 41 / Issue S1 / October 2020
- Published online by Cambridge University Press:
- 02 November 2020, pp. s268-s269
- Print publication:
- October 2020
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Background: Unnecessary and prolonged antibiotic use is an important driver of antimicrobial resistance, increasing patient harm and resource utilization. Antimicrobials prescribed at hospital discharge represent an important opportunity to intervene and optimize therapy. Objective: We describe the implementation of a pharmacist-led multidisciplinary antimicrobial stewardship (AMS) intervention at transition of care (TOC) to improve antibiotic selection and duration. Methods: This intervention an IRB-approved multihospital, quasi-experimental, 3-phase stepped-wedge project in a 5-hospital health system. The setting included a large, urban, academic medical center in Detroit, Michigan, and 4 community hospitals in southeastern Michigan. AMS is provided by a pharmacist and infectious diseases physician at each site. For the AMS TOC intervention, pharmacists implemented 3 strategies: (1) early identification of patients to be discharged on oral antibiotics; (2) collaborative planning and communication regarding guideline-recommended antibiotic selection and duration; and (3) facilitation of discharge antibiotic prescription with appropriate stop date. Process improvements were modified to fit the academic and community hospital practice models. The process was implemented in general and specialty practice wards at each hospital site. Prior to implementation in October 2018, pharmacists were trained on tools to standardize identification, collaboration, and documentation. Pocket cards were used to augment education and electronic medical record (EMR) templates standardized documentation. Physicians and nurses on participating units were educated on the rationale and process. Following initiation, ongoing feedback was provided regularly to pharmacists to discuss challenges and to identify solutions. Process measures included the total number of patients receiving the intervention monthly, as indicated by pharmacist AMS TOC notes placed. Protocol adherence was evaluated in 25 randomly selected patients in each study phase each month. Adherence was defined as a pharmacist preparing discharge prescriptions and a placing note in the EMR. Results: Over the study period, 1,558 patient encounters received AMS TOC facilitation by a pharmacist. Monthly protocol adherence ranged from 29% to 87% (higher in academic institutions than community) (Fig. 1). Months of low protocol adherence were associated with times of reduced staffing and onboarding a large group of new employees or trainees. Additional barriers included discharges over weekends. The most common area needing clarification was how to count days of therapy to determine the appropriate stop date. A guide of how to count days of therapy was created to assist. Conclusions: Pharmacist-led antimicrobial stewardship at discharge is a feasible intervention in both academic and community settings. Identifying potential barriers and assessing strategies with multidisciplinary healthcare teams allows for optimal implementation and intervention rollout.
Funding: This work was completed under CDC contract number 200-2018-02928.
Disclosures: None
Improving Prescribing Practices at Hospital Discharge With Pharmacist-Led Antimicrobial Stewardship at Transitions of Care
- Nicholas Mercuro, Corey Medler, Nancy MacDonald, Rachel Kenney, Melinda Neuhauser, Lauri Hicks, Arjun Srinivasan, George Divine, Marcus Zervos, Susan Davis
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- Journal:
- Infection Control & Hospital Epidemiology / Volume 41 / Issue S1 / October 2020
- Published online by Cambridge University Press:
- 02 November 2020, pp. s289-s290
- Print publication:
- October 2020
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Background: Antimicrobial stewardship (AMS) is recommended in hospital, postacute, and outpatient settings. Transitions of care (TOC) are important in each of these settings; however, AMS efforts during TOC have been limited. Beginning in October 2018, we sequentially implemented a pharmacist-led multidisciplinary review of oral antimicrobial therapy prescribed at hospital discharge from general and specialty medicine wards across a health system. Pharmacists facilitated data input of discharge prescriptions following early identification and collaborative discussion of patients to be discharged on oral antimicrobials The purpose of this study was to evaluate the impact of AMS during TOC. Methods: This project was an IRB-approved stepped-wedge, quasi-experimental study in a 5-hospital health system that included hospitalized adults with skin, urinary, intra-abdominal, and respiratory tract infections who had been discharged from general and specialty wards with oral antimicrobials. Patients with complicated infections, neutropenia, or who were transferred from an outside hospital were excluded. The primary end point was optimization of antimicrobial therapy at time of hospital discharge, defined by correct selection, dose, and duration according to institutional guidance. Outcomes were compared before and after the intervention. Results: In total, 800 patients were included: 400 in the preintervention period and 400 in the postintervention period. Among this cohort, 252 (63%) received the intervention by a pharmacist per protocol during TOC. Patients had similar comorbid conditions before and after the intervention. Preintervention patients were more likely to be discharged from community hospitals. Before the intervention, 36% of discharge regimens were considered optimized, compared to 81.5% after the intervention (P < .001); this difference was largely driven by a reduction in patients receiving a duration of therapy beyond the clinical indication (44.5 vs 10%; P < .001). We observed similar clinical resolution, 30-day readmission, and adverse drug events (ADEs) between the pre- and postintervention periods. Postdischarge antimicrobial duration of therapy was reduced from 4 days (range, 3–5) to 3 days (range, 2–4) (P < .001) Severe ADEs occurred more frequently in the preintervention group (9 vs 3.3%; P = .001), which was driven by isolation of multidrug-resistant pathogens (7 vs 2.5%; P = .003) and Clostridioides difficile (1.8 vs 0.5%; P = .094). Patients who received optimal therapy at discharge were less likely to develop an ADE (aOR, 0.530; 95% CI, 0.363–0.773). Conclusions: Implementation of an AMS TOC protocol reduced antimicrobial days, optimized therapy selection, and reduced duration. This intervention was associated with improved safety without compromise of clinical effectiveness. To increase patient safety, AMS programs should target antimicrobial optimization during TOC.
Funding: This work was completed under CDC contract number 200-2018-02928.
Disclosures: None