APA
Ramesh Varkhede N., Jhajra S., Suresh Ahire D. & Singh S. (20140902). Metabolite identification studies on amiodarone in in vitro (rat liver microsomes, rat and human liver S9 fractions) and in vivo (rat feces, urine, plasma) matrices by using liquid chromatography with high-resolution mass spectrometry and multiple-stage mass spectrometry: characterization of the diquinone metabolite supposedly responsible for the drug's hepatotoxicity. : Rapid communications in mass spectrometry : RCM.
Chicago
Ramesh Varkhede Ninad, Jhajra Shalu, Suresh Ahire Deepak and Singh Saranjit. 20140902. Metabolite identification studies on amiodarone in in vitro (rat liver microsomes, rat and human liver S9 fractions) and in vivo (rat feces, urine, plasma) matrices by using liquid chromatography with high-resolution mass spectrometry and multiple-stage mass spectrometry: characterization of the diquinone metabolite supposedly responsible for the drug's hepatotoxicity. : Rapid communications in mass spectrometry : RCM.
Harvard
Ramesh Varkhede N., Jhajra S., Suresh Ahire D. and Singh S. (20140902). Metabolite identification studies on amiodarone in in vitro (rat liver microsomes, rat and human liver S9 fractions) and in vivo (rat feces, urine, plasma) matrices by using liquid chromatography with high-resolution mass spectrometry and multiple-stage mass spectrometry: characterization of the diquinone metabolite supposedly responsible for the drug's hepatotoxicity. : Rapid communications in mass spectrometry : RCM.
MLA
Ramesh Varkhede Ninad, Jhajra Shalu, Suresh Ahire Deepak and Singh Saranjit. Metabolite identification studies on amiodarone in in vitro (rat liver microsomes, rat and human liver S9 fractions) and in vivo (rat feces, urine, plasma) matrices by using liquid chromatography with high-resolution mass spectrometry and multiple-stage mass spectrometry: characterization of the diquinone metabolite supposedly responsible for the drug's hepatotoxicity. : Rapid communications in mass spectrometry : RCM. 20140902.