Stability of meropenem in portable elastomeric infusion devices: which protocol should be implemented in clinical practice?

Abstract

ABSTRACT Meropenem has an excellent activity against gram-positive and gram-negative bacteria, including multi-resistant microorganisms. Even though meropenem is a great candidate for outpatient parenteral antimicrobial therapy (OPAT), its physicochemical stability is a major challenge. This work aimed to demonstrate the suitability of including meropenem in OPAT by elucidating its physicochemical stability in a range of commonly prescribed concentrations within portable elastomeric infusion devices. Physical and chemical stability were evaluated at two concentrations commonly used in clinical practice (2 mg/mL and 25 mg/mL), and three temperatures (2–8°C, 25°C, and 32°C) using Accufuser portable elastomeric infusion devices. Drug adsorption onto portable elastomeric infusion devices was also determined at the end of the experiment. Meropenem stability significantly decreased at higher temperatures and when higher drug solution concentrations were used. Meropenem solutions at 2 mg/mL kept the drug content above 95% over 24 h at 2–8°C, but just for 8 h at 25°C. Nevertheless, solutions containing 25 mg/mL of meropenem showed a dramatic decrease in chemical stability after 8 h 2–8°C and just after 4 h at 25°C or 32°C. However, physical stability was kept favorable during this period. The drug adsorption on the material of the elastomeric infusion device was below 1%, indicating the suitability of the chosen device. We propose several administration protocols for meropenem in portable elastomeric infusion devices in clinical practice, according to the results obtained in our study. The results obtained in this study open up a possibility of administering meropenem in an OPAT setting despite its short stability. IMPORTANCE Although outpatient parenteral antibiotic therapy can be a good approach to treating infections, a lack of data regarding antibiotic stability in portable elastomeric infusion devices restricts its safe and effective use. Actually, meropenem is used for prolonged periods above 24 h, and it is not physicochemically stable, which can compromise efficacy and toxicity. This work is of high importance to show the clinicians the real shelf life of meropenem when administered in portable elastomeric infusion devices. We propose several administration protocols for meropenem in portable elastomeric infusion devices in clinical practice, according to the stability drug results obtained in our study.