Intravenous patient-controlled analgesia: in vitro stability profiles of mixtures containing fentanyl, hydromorphone, oxycodone, nefopam, ondansetron, and ramosetron

Background and objectives Patient-controlled analgesia often involves combinations of multiple drugs. This study aimed to determine the stability of drug mixtures commonly used for intravenous patient-controlled analgesia. Materials and methods We examined four of the most commonly used drug combina...

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Published in:Journal of analytical science and technology 2020-08, Vol.11 (1), p.1-8, Article 32
Main Authors: Lee, Chung Hun, Kim, Ah Rahn, Lee, Mi Kyoung, Oh, Jung Suk, Lee, Dong Kyu, Choi, Sang Sik
Format: Article
Language:English
Subjects:
Analgesia
Analytical Chemistry
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Chromatogram
Contamination
Control stability
Digital imaging
Fentanyl
High performance liquid chromatography
Hydromorphone
Intravenous administration
Light microscopy
Liquid chromatography
Microbial contamination
Monitoring/Environmental Analysis
Optical microscopy
Oxycodone
Pain perception
Patient-controlled analgesia
pH effects
Research Article
Room temperature
Sterility
Sterility testing
Turbidity
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Summary:Background and objectives Patient-controlled analgesia often involves combinations of multiple drugs. This study aimed to determine the stability of drug mixtures commonly used for intravenous patient-controlled analgesia. Materials and methods We examined four of the most commonly used drug combinations in intravenous patient-controlled analgesia at our institution. Mixtures contained fentanyl (400 μg), either oxycodone (10 mg) or hydromorphone (4 mg), nefopam (20 mg), and either ondansetron (10 mg) or ramosetron (0.3 mg). Each drug mixture was diluted in 0.9% saline and stored in a portable patient-controlled analgesia system at room temperature (24 °C) for 96 h. Physical attributes including color, turbidity, and precipitation were assessed using digital imaging and optical microscopy. Sterility testing was conducted to assess for microbiological contamination. The pH of each mixture was monitored for up to 96 h after mixing. The concentration of each drug in the mixture was also evaluated using high-performance liquid chromatography. Results All mixtures remained colorless and transparent with no visible sediment for 96 h. After 14 days of culture, none of the samples showed bacterial or fungal growth. The pH for all mixtures was maintained between 4.17 and 5.19, and the mean pH change in any mixture was less than 0.4 over the study period. The concentration of each drug remained between 90 and 110% of the initial value for 96 h after mixing. Conclusion Four drug mixtures commonly used for intravenous patient-controlled analgesia are physiochemically stable and remain sterile for 96 h after mixing.
ISSN:2093-3371
2093-3134
2093-3371
DOI:10.1186/s40543-020-00230-w