| Literature DB >> 26015026 |
Xue Li1,2, Pablo Martinez-Lozano Sinues1, Robert Dallmann3,4, Lukas Bregy1, Maija Hollmén1, Steven Proulx1, Steven A Brown3, Michael Detmar1, Malcolm Kohler5, Renato Zenobi6.
Abstract
Noninvasive, real-time pharmacokinetic (PK) monitoring of ketamine, propofol, and valproic acid, and their metabolites was achieved in mice, using secondary electrospray ionization and high-resolution mass spectrometry. The PK profile of a drug influences its efficacy and toxicity because it determines exposure time and levels. The antidepressant and anaesthetic ketamine (Ket) and four Ket metabolites were studied in detail and their PK was simultaneously determined following application of different sub-anaesthetic doses of Ket. Bioavailability after oral administration vs. intraperitoneal injection was also investigated. In contrast to conventional studies that require many animals to be sacrificed even for low-resolution PK curves, this novel approach yields real-time PK curves with a hitherto unmatched time resolution (10 s), and none of the animals has to be sacrificed. This thus represents a major step forward not only in animal welfare, but also major cost and time savings.Entities:
Keywords: breath analysis; high-resolution mass spectrometry; ketamine; pharmacokinetics; secondary electrospray ionization
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Year: 2015 PMID: 26015026 DOI: 10.1002/anie.201503312
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336