Flumequine-13C3
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Flumequine-13C3, a stable isotope-labeled derivative of the antibiotic flumequine, has emerged as a valuable tool in scientific research, particularly in the field of pharmacokinetics and drug metabolism studies. This isotopically labeled compound contains three carbon-13 atoms, which allows for precise tracing and quantification of flumequine and its metabolites in biological samples using advanced analytical techniques such as mass spectrometry. Researchers utilize flumequine-13C3 as an internal standard in pharmacokinetic studies to accurately determine the concentration-time profiles of flumequine in various biological matrices, including plasma, urine, and tissue samples. Additionally, this isotopically labeled compound facilitates the elucidation of flumequine′s metabolic pathways and the identification of its metabolites in vivo. By incorporating flumequine-13C3 into experimental designs, scientists can improve the accuracy and reliability of pharmacokinetic data, leading to a better understanding of flumequine′s pharmacological properties and its potential applications in the treatment of bacterial infections.
Flumequine-13C3 References
- Fully automated determination of 74 pharmaceuticals in environmental and waste waters by online solid phase extraction-liquid chromatography-electrospray-tandem mass spectrometry. | López-Serna, R., et al. 2010. Talanta. 83: 410-24. PMID: 21111154
- Direct analysis of pharmaceuticals, their metabolites and transformation products in environmental waters using on-line TurboFlow™ chromatography-liquid chromatography-tandem mass spectrometry. | López-Serna, R., et al. 2012. J Chromatogr A. 1252: 115-29. PMID: 22794795
- Multiantibiotic residues in commercial fish from Argentina. The presence of mixtures of antibiotics in edible fish, a challenge to health risk assessment. | Griboff, J., et al. 2020. Food Chem. 332: 127380. PMID: 32603916
- Assessment of community-wide antimicrobials usage in Eastern China using wastewater-based epidemiology. | Xu, L., et al. 2022. Water Res. 222: 118942. PMID: 35944410
- In-situ multi-mode extraction (iMME) sampler for a wide-scope analysis of chemical and biological targets in water in urbanized and remote (off-the-grid) locations. | Sims, N., et al. 2023. Sci Total Environ. 859: 160034. PMID: 36356746
- Using integrative samplers to estimate the removal of pharmaceuticals and personal care products in a WWTP and by soil aquifer treatment enhanced with a reactive barrier. | Sunyer-Caldú, A., et al. 2023. Sci Total Environ. 867: 161466. PMID: 36626994
- Prediction of the mobility and persistence of eight antibiotics based on soil characteristics. | Rietra, RPJJ., et al. 2024. Heliyon. 10: e23718. PMID: 38187236
- Effects of veterinary drugs on rearing and safety of black soldier fly (Hermetia illucens) larvae | Hoek-van Den Hil, E. F., Van De Schans, M. G. M., Bor, G., & Van Der Fels-klerx, H. J. 2022. Journal of Insects as Food and Feed. 8(10): 1097-1106.
- Reclaimed water in agriculture: A plot-scale study assessing crop uptake of emerging contaminants and pathogens | Sunyer-Caldú, A., Sepúlveda-Ruiz, P., Salgot, M., Folch-Sánchez, M., Barcelo, D., & Diaz-Cruz, M. S. 2022. Journal of Environmental Chemical Engineering. 10(6): 108831.
Ordering Information
| Product Name | Catalog # | UNIT | Price | Qty | FAVORITES | |
Flumequine-13C3, 1 mg | sc-218496 | 1 mg | $360.00 |