EPR image based oxygen movies for transient hypoxia.

Abstract

Chronic hypoxia strongly affects the malignant state and resistance to therapy for tumors. Transient hypoxia has been hypothesized, but not proven to be more deleterious. Electron paramagnetic resonance imaging (EPRI) provides non-invasive, quantitative imaging of static pO₂ in vivo. Dynamic EPRI produces pO₂ movies, enabling non-invasive assessment of in vivo pO₂ changes, such as transient hypoxia. Recent developments have been made to enable Dynamic EPRI. Maximally spaced projection sequencing has been implemented to allow for more accurate and versatile acquisition of EPRI data when studying dynamic systems. Principal component analysis filtering has been employed to enhance SNR. Dynamic EPRI studies will provide temporally resolved oxygen movies necessary to perform in vivo studies of physiologically relevant pO₂ changes in tumors. These oxygen movies will allow for the localization/quantification of transient hypoxia and will therefore help to disentangle the relationship between chronic and transient hypoxia, in order to better understand their roles in therapeutic optimization and outcome.