RESUMEN
We retrospectively reviewed the records of 136 veterans with a penicillin allergy label during a quality improvement initiative. We identified 82 inpatients eligible for removal of penicillin allergy by oral amoxicillin challenge, including 40 out of 82 (48%) still eligible after accounting for other limiting factors.
RESUMEN
The presence of a penicillin allergy label in a patient's medical chart is associated with negative clinical and economic outcomes. Given that less than 10% of reported reactions are truly immunoglobulin E-mediated, removal of unverified penicillin allergy labels is a public health priority and an area of ongoing implementation research. The Veterans Health Administration (VHA) is the largest integrated healthcare system in the United States, with almost 9 million veterans currently enrolled. However, studies analyzing the impact of the penicillin allergy label in this population are limited to single facilities and largely focus on short-term outcomes of allergy documentation correction, usage of ß-lactams, and avoidance of antibiotic-related side effects. Broader, national VHA studies focusing on health outcomes and costs are lacking. As with non-VHA facilities, penicillin allergy evaluations are limited owing to the absence of formal allergy/immunology services at most VHA facilities. Pharmacy-driven screening and referral for clinic-based penicillin skin testing is a promising and frequently discussed modality in the literature, but its scalability within the VHA is not yet proven. Broader, evidence-based strategies that can be adapted to the available resources of individual VHA facilities, including those without on-site access to allergy providers, are needed.
RESUMEN
An outpatient parenteral antimicrobial therapy team from a Veterans Affairs facility managed patients discharged from their own facility and neighboring community hospitals. There were no significant differences in adverse outcomes between the groups, but a majority of regimens were modified from those initially proposed by community providers.
RESUMEN
We report a case of cervical blastomycosis with associated paravertebral involvement and severe spinal canal stenosis in a 48-year-old patient presenting with acute airway obstruction from a retropharyngeal abscess. Our case was also complicated by severe hypokalemia that developed during the blastomycosis treatment course with posaconazole and which improved after discontinuation and replacement therapy. After 12 months of blastomycosis-targeted therapy, our patient had complete resolution of clinical, laboratory, and radiological findings of blastomycosis.
RESUMEN
PURPOSE: Utilization of rapid diagnostic testing alongside intensive antimicrobial stewardship interventions improves patient outcomes. We sought to determine the clinical impact of a rapid blood culture identification (BCID) panel in an established Antimicrobial Stewardship Program (ASP) with limited personnel resources. METHODS: A single center retrospective pre- and post-intervention cohort study was performed following the implementation of a BCID panel on patients admitted with at least 1 positive blood culture during the study period. The primary outcome was time to optimal therapy from blood culture collection. Secondary outcomes included days of therapy (DOT), length of stay, and 30-day mortality and readmission rates. RESULTS: 277 patients were screened with 180 patients included, with 82 patients in the pre-BCID and 98 in the post-BCID arms. Median time to optimal therapy was 73.8 hours (IQR; 1.1-79.6) in the pre-BCID arm and 34.7 hours (IQR; 10.9-71.6) in the post-BCID arm (p ≤ 0.001). Median DOT for vancomycin was 4 and 3 days (p ≤ 0.001), and for piperacillin-tazobactam was 3.5 and 2 days (p ≤ 0.007), for the pre-BCID and post-BCID arms, respectively. Median length of hospitalization was decreased from 11 to 9 days (p = 0.031). No significant change in 30-day readmission rate was noted, with a trend toward lower mortality (12% vs 5%; p = 0.086). CONCLUSION: Introduction of BCID into the daily workflow resulted in a significant reduction in time to optimal therapy for bloodstream infections and DOT for select broad-spectrum antibiotics, highlighting the potential benefits of rapid diagnostics even in settings with limited personnel resources.
