Premix versus On-Demand Workflow Models in a Veterans Affairs Hematology/Oncology Pharmacy: Impact on Estimated Waste Costs and Patient Wait Time.

Background: The balance between reducing patient wait time and mitigating waste of parenteral products has not been well described in literature. Objective: Evaluate the patient wait times and cost-effectiveness of employing a premix versus an on-demand workflow model for compounding parenteral admixtures in a hematology/oncology infusion setting. Methods: This single center, retrospective cost analysis compiled manually documented monthly waste reports and estimated drug pricing for the institution to calculate the cost of waste during both premix and on-demand compounding workflows. Time to administration was audited for one week with both models. Results: Over a period of 28.5 months following the premix model, 564 products were documented as wasted ($1,196,014.01 in estimated drug purchasing cost). Over a period of 3 months following the on-demand model, 12 products were wasted ($34,823.98 in estimated drug purchasing cost). Switching models reduced the monthly average number of wasted products from 20 to 4 per month; the average cost of waste was reduced from $41,965.40 to $11,607.99 per month (P < .0001). Overall patient wait time from clearance until administration, excluding any recommended wait times after premedication administration (if applicable), was similar in both models: an average of 38.26 minutes in the premix model and 40.97 minutes in the on-demand model. Conclusion: Premixing parenteral admixtures was not cost effective at our institution. After resuming an on-demand compounding model, the monthly cost of waste (based on drug pricing alone) was reduced by over 70%. The wait time from clearance to treatment administration was similar in both models.

Clinical impact of implementation of rapid diagnostic testing of blood cultures with Staphylococcus aureus on patient outcomes.

Rapid diagnostic testing in microbiology labs shortens the time to identification of bacteria in blood cultures. Cepheid® GeneXpert® MRSA/SA PCR can be used to distinguish MRSA and MSSA from non-Staphylococcus aureus organisms in blood cultures. This study aims to determine if implementation of MRSA/SA PCR for blood culture pathogen identification, plus daily antimicrobial stewardship intervention, can reduce time to appropriate therapy, vancomycin duration, 30 day mortality, and 90 day recurrence in veterans. A total of 113 patients in the pre-implementation cohort and 73 patients in the post-implementation cohort were evaluated. Time to appropriate therapy was decreased from 49.8 (pre-implementation) to 20.6 (post-implementation) hours. There was a numerically shorter median duration of vancomycin therapy in the post-implementation group. There was no difference in 30 day mortality or 90 day recurrence between groups. Use of MRSA/SA PCR can improve antimicrobial use when combined with once-daily antimicrobial stewardship review.