Abstract
BackgroundShortages of antimicrobials lead to treatment failures, increase medical costs, and accelerate the development of antimicrobial resistance. We evaluated the effects of the serious cefazolin shortage in 2019 in Japan on the sales, costs, and appropriate use of other antimicrobials.MethodsWe evaluated monthly defined daily doses/1000 inhabitants/day (DID) values of antimicrobial sales from January 2016 to December 2019 using wholesaler’s sales databases. Using 2016–2018 sales data, we generated a prediction model of DID in 2019 under the assumption that the cefazolin shortage did not occur. We then compared the predicted DID and actual DID. Cefazolin, government-recommended alternatives, and government-not-recommended broad-spectrum alternatives were assessed. Antimicrobial groups according to the AWaRe classification were also assessed to evaluate the effect on appropriate antimicrobial use. In addition, we evaluated changes in costs between 9 months before and after the cefazolin shortage.ResultsDID values of total antimicrobials increased sharply 1 month before the decrease in cefazolin. Actual DIDs were higher than predicted DIDs for ceftriaxone, flomoxef, clindamycin, cefotiam, piperacillin/tazobactam, and meropenem. Actual DID values were higher than the predicted DID values in the Watch group. The costs of antimicrobials between pre- and post- cefazolin shortage were unchanged.ConclusionThe cefazolin shortage brought confusion to the antimicrobial market and led to a setback in the appropriate use of antimicrobials. Early recognition and structures for prompt reactions to antimicrobial shortages are needed. Moreover, development of a system to secure the supply of essential antimicrobials is required.
Highlights
Shortages of antimicrobials lead to treatment failures, increase medical costs, and accelerate the development of antimicrobial resistance
Piperacillin/tazobactam shortages increase the risk of nosocomial Clostridioides difficile infections [8], and it is estimated that one antimicrobial shortage results in excess costs of 2.4–3.5 million United States Dollar (USD) [9]
We evaluated the temporal trend of monthly doses/1000 inhabitants/day (DID) values of total antimicrobials and cefazolin in 2019 compared with the previous 3 years
Summary
Shortages of antimicrobials lead to treatment failures, increase medical costs, and accelerate the development of antimicrobial resistance. The sustainable supply of medical drugs is important for providing quality-assured medicine; countermeasures for preventing shortages are required [1,2,3]. According to a US Food and Drug Administration report, the United States has faced many drug shortages in various regions, and the shortages disturbed the use of quality-assured medicines [4]. Narrowspectrum antimicrobials can be compensated for by using broad-spectrum antimicrobials during shortages. Such countermeasures increase the risk of the Koizumi et al BMC Health Services Research (2021) 21:1118 emergence of antimicrobial resistant organism [6]. Piperacillin/tazobactam shortages increase the risk of nosocomial Clostridioides difficile infections [8], and it is estimated that one antimicrobial shortage results in excess costs of 2.4–3.5 million USD [9]
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