Vigdis Staven 1,2,3 , Siri Wang 4 , Ingrid Grønlie 5,6,7 , Ingunn Tho 2,3 Show Affiliations »
Abstract
Objectives: The main objective was to investigate Y-site compatibility of intravenous drugs with one standard total parenteral nutrition (TPN) admixture for preterm infants. Since micro-precipitation was observed in the water phase after addition of trace elements, the concentration effect on micro-precipitation formation developed as a sub-goal. Methods: Seven drugs (ampicillin, ceftazidime, fluconazole, fosphenytoin, furosemide, metronidazole and paracetamol) were mixed in three mixing ratios with one preterm TPN admixture. Samples were investigated within 1 hour and again after 4 hours. Precipitation was studied in a lipid-free version called TPNaq by light obscuration, turbidimetry and visual examination. Emulsion stability data were assessed by light obscuration and laser diffraction. pH was measured to assess the theoretical risk of precipitation and emulsion destabilisation. The influence of different concentrations of trace elements on precipitation was investigated by visual examination, turbidimetry and light obscuration. Results: Ampicillin, ceftazidime, fosphenytoin and furosemide led to precipitation after mixing with TPNaq. In some samples of TPN and fluconazole, metronidazole and paracetamol, the emulsion droplet size was above the acceptance limit, although this might also be inherent to the TPN admixture. An unexpected formation of micro-precipitate correlating with increasing amounts of added trace elements might be caused by an interaction of cysteine and copper, and complicated the compatibility assessment with drugs. Conclusions: The micro-precipitate resulting from the addition of trace elements should be investigated further. This study did not provide sufficient evidence to recommend Y-site infusion of the tested drugs and the preterm admixture; however, it might offer some additional support to other compatibility data. © European Association of Hospital Pharmacists 2020. No commercial re-use. See rights and permissions. Published by BMJ.
Objectives: The main objective was to investigate Y-site compatibility of intravenous drugs with one standard total parenteral nutrition (TPN) admixture for preterm infants . Since micro-precipitation was observed in the water phase after addition of trace elements, the concentration effect on micro-precipitation formation developed as a sub-goal. Methods: Seven drugs (ampicillin , ceftazidime , fluconazole , fosphenytoin , furosemide , metronidazole and paracetamol ) were mixed in three mixing ratios with one preterm TPN admixture. Samples were investigated within 1 hour and again after 4 hours. Precipitation was studied in a lipid-free version called TPNaq by light obscuration, turbidimetry and visual examination. Emulsion stability data were assessed by light obscuration and laser diffraction. pH was measured to assess the theoretical risk of precipitation and emulsion destabilisation. The influence of different concentrations of trace elements on precipitation was investigated by visual examination, turbidimetry and light obscuration. Results: Ampicillin , ceftazidime , fosphenytoin and furosemide led to precipitation after mixing with TPNaq. In some samples of TPN and fluconazole , metronidazole and paracetamol , the emulsion droplet size was above the acceptance limit, although this might also be inherent to the TPN admixture. An unexpected formation of micro-precipitate correlating with increasing amounts of added trace elements might be caused by an interaction of cysteine and copper , and complicated the compatibility assessment with drugs. Conclusions: The micro-precipitate resulting from the addition of trace elements should be investigated further. This study did not provide sufficient evidence to recommend Y-site infusion of the tested drugs and the preterm admixture; however, it might offer some additional support to other compatibility data. © European Association of Hospital Pharmacists 2020. No commercial re-use. See rights and permissions. Published by BMJ.
Entities: Chemical
Species
Keywords:
TPN; Y-site compatibility; copper; cysteine; emulsion stability; precipitation; total nutrition admixture; trace elements
Year: 2018
PMID: 32064087 PMCID: PMC6992975 DOI: 10.1136/ejhpharm-2018-001562
Source DB: PubMed Journal: Eur J Hosp Pharm ISSN: 2047-9956