Daniel C. Colvin1, Mary E. Loveless1,
Mark D. Does1, Zou Yue1, Thomas E. Yankeelov1,
John C. Gore1
Temporal
diffusion spectroscopy methods, which employ rapid oscillations of the motion
sensitizing diffusion gradient, are capable of probing diffusion times orders
of magnitude shorter than those typically achieved with conventional pulsed
gradient methods. Consequently, the
apparent diffusion coefficient (ADC) measured with these methods may provide
a more accurate assessment of tumor response to therapy due to their ability
to detect structural variations over much shorter length scales. Results in a 9L tumor model in rats in vivo
demonstrate that these methods can detect variations in ADC within 24 hours
of chemotherapeutic treatment, when conventional methods showed no such
change.