INTRODUCTION: The management of antineoplastic drugs used for chemotherapy is widely recognized as a high-risk activity. In 2018, our oncology pharmacy implemented workflow improvements to manage the growing workload due to the centralisation of activities from a hospital's satellite pharmacy, moving towards automated compounding of antineoplastic drugs.The aim of this study was to determine the impact of the centralization on the productivity of the pharmacy department and evaluate the performances of the robotic chemotherapy drugs compounding. MATERIAL AND METHODS: Data were collected from the hospital information system and the workflow management software, and examined over a 3-year period (2017-2019). The total annual throughput in terms of doses prepared and patients treated and the Medication Turnaround Time (MTAT) were determined. Productivity and dosage accuracy were calculated for the robotic system. RESULTS: In 2018, the number of patients treated increased by 16.6%, consequently, the overall number of intravenous preparations compounded in the pharmacy increased by 17.2%. Regarding manual compounding, the total number of antineoplastic preparations decreased by about 2%. Investigational treatments manually compounded increased by about 27%, in contrast to the non-investigational treatments, which decreased by 9.4%. Regarding robotic compounding, the annual production increased by 50.4%. In 2018, the MTAT decreased about 24%. The dosage accuracy and precision of the total amount of doses were -1.1% and 1.2%, respectively. CONCLUSION: This study indicates that in the effort to satisfy an ever-increasing workload, computerization and automation are essential instruments to maintain and ensuring high standards of quality.
INTRODUCTION: The management of antineoplastic drugs used for chemotherapy is widely recognized as a high-risk activity. In 2018, our oncology pharmacy implemented workflow improvements to manage the growing workload due to the centralisation of activities from a hospital's satellite pharmacy, moving towards automated compounding of antineoplastic drugs.The aim of this study was to determine the impact of the centralization on the productivity of the pharmacy department and evaluate the performances of the robotic chemotherapy drugs compounding. MATERIAL AND METHODS: Data were collected from the hospital information system and the workflow management software, and examined over a 3-year period (2017-2019). The total annual throughput in terms of doses prepared and patients treated and the Medication Turnaround Time (MTAT) were determined. Productivity and dosage accuracy were calculated for the robotic system. RESULTS: In 2018, the number of patients treated increased by 16.6%, consequently, the overall number of intravenous preparations compounded in the pharmacy increased by 17.2%. Regarding manual compounding, the total number of antineoplastic preparations decreased by about 2%. Investigational treatments manually compounded increased by about 27%, in contrast to the non-investigational treatments, which decreased by 9.4%. Regarding robotic compounding, the annual production increased by 50.4%. In 2018, the MTAT decreased about 24%. The dosage accuracy and precision of the total amount of doses were -1.1% and 1.2%, respectively. CONCLUSION: This study indicates that in the effort to satisfy an ever-increasing workload, computerization and automation are essential instruments to maintain and ensuring high standards of quality.