Chromatography
A Study Utilising High Temperature UPLC with Mass Spectrometric Detection to Quantify the Metabolites of 2-, 3- and 4- Bromobenzoic Acids both In Vitro and In Vivo
Author: Dr Christopher Smith, AstraZeneca.
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The use of radiolabels (14C and 3H) during drug
development programmes as a tracer for drug
related materials during metabolic profiling is
both extremely useful and expensive. An
alternative method may be utilised dependent
upon the presence of suitable elements within
the drug and that is inductively coupled plasma
mass spectrometry (ICP-MS) which has been
successfully used in excretion pathway [1-3]
and metabolic profiling studies [4-5].
Conventional mass spectrometers may also be
coupled to provide structural information on
compound(s) of interest [4-5]. There are
downsides to the use of ICP-MS with the use of
organic modifiers during HPLC studies which
can lead to problems with the plasma which
may result in reduced sensitivity and stability.
Some of the problems may be addressed with
the use of oxygen to the argon carrier gas but
it is not a complete solution as plasma stress
then comes into play.
Chromatographic theory predicts that as water
increases in temperature it behaves in a
manner analogous to a mobile phase
containing organic modifiers in that its
elutropic strength increases. Pure water at high
enough temperatures has been shown [6-10]
to be a useful mobile phase allowing elution
of a wide series of differing polarity
compounds than water at room temperature.
This technique of HTLC has found use in
metabolite profiling [6-10] where a wide range
of polarities may be encountered with thermal
gradients using pure water to elute the
compounds as opposed to the standard practice
of gradients based on increasing eluotropic
strengths. Here we show how using HTLC with
thermal gradients and ICP-MS and MS-MS in
parallel as detection systems, isomers of
bromobenzoic acid may be studied and
analysed under both In Vito and In Vivo
conditions thereby further demonstrating the
possibilities of this new approach.
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