1. New insights into the nature of short-lived paramagnetic intermediates of ketoprofen. Photo-CIDNP study
- Author
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Aleksandr I. Kruppa, Nikolay E. Polyakov, Simon V. Babenko, T.V. Leshina, and Polina Kuznetsova
- Subjects
CIDNP ,Decarboxylation ,General Chemical Engineering ,Radical ,General Physics and Astronomy ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Solvated electron ,Photochemistry ,01 natural sciences ,0104 chemical sciences ,law.invention ,chemistry.chemical_compound ,Ketyl ,chemistry ,law ,Benzophenone ,0210 nano-technology ,Photodegradation ,Electron paramagnetic resonance - Abstract
The short-lived paramagnetic particles formed during the UV irradiation of nonsteroidal anti-inflammatory drug - ketoprofen (KP) have been investigated using chemically induced dynamic nuclear polarization (CIDNP). This study answers the questions about the nature of paramagnetic particles which can be responsible for KP phototoxic effects. Phototoxic side effects of NSAIDs, according modern point of view, are associated with the action of free radicals, however, there is insufficient information regarding the nature of the radical species. In contrast, most ketoprofen photodegradation schemes include carbanion as a precursor of products. CIDNP effects analysis has shown that all the major products of KP photodegradation can form via radical pairs (RPs) involving benzyl (2′), ketyl (3′) and CO2H or CO2− free radicals and solvated electron. Radical ways of KP photodegradation include: decarboxylation via RP with benzyl radical formation (I) in non-aqueous solution and both, (I) and photoreduction with formation of ketyl radicals in the presence of water. Moreover, it was found that the photoinduced radical decarboxylation of KP represents a reversible process.
- Published
- 2020
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