Paul Bremond
Aix-Marseille Universit�©, France
Scientific Tracks Abstracts: J Cancer Sci Ther
Alkoxyamines R1R2NOR3 are able to undergo homolysis upon chemical activation to release a stable nitroxide R1R2NO�, which can be used for DNP-MRI, and a transient alkyl radical R3�, which can be used for killing tumor cells. By combining diagnostic and therapeutic activities into a single low-molecular weight molecule, alkoxyamines are new theranostic tools. We have developed this concept recently, and proved that they are reliable and controllable sources of in-situ generated radicals able to exhibit interesting biological and imaging properties.
Paul Bremond has completed his PhD in chemistry in France, where he developed syntheses of several natural products. After being a postdoctoral associate at Harvard University, Cambridge, Ma, USA under the supervision of Prof. Yoshito Kishi, he was appointed Assistant Professor in Aix-Marseille Université. So far he has published more than 35 peer-reviewed papers in several fields of chemistry: organic, physical, radical and medicinal and one patent. He now focus on the synthesis of new alkoxyamines as theranostics agents.
Email: paul.bremond@univ-amu.fr
Cancer Science & Therapy received 3968 citations as per Google Scholar report
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