Cavitation enhanced Ablation for Focused Ultrasoun.. (CAVABLATE)
Cavitation enhanced Ablation for Focused Ultrasound Surgery
Start date: Jun 15, 2015,
End date: Jun 14, 2017
Focused Ultrasound Surgery (FUS) is an emerging, non-invasive modality, which involves the extracorporeal administration of High Intensity Focused Ultrasound (HIFU), a non-ionising form of radiation, to ablate via frictional effects diseased tissue in a specific target area. Although clinically effective the process is inherently inefficient, which has so far limited its wide spread use in medicine. The demonstration of a clinically applicable method for increasing the rate of energy absorption at the target region would herald a breakthrough for this technology. The proposed technique is cavitation mediated enhanced heating. The rationale here is that bubble activity at the ultrasound focus can lead to substantially higher rates of tissue heating. Cavitation refers to the formation of pockets of gas in the tissue exposed to HIFU. Unfortunately with the typical frequencies and intensities used, cavitation activity is known to rapidly evolve and cause risk of serious collateral damage to the surrounding healthy tissue. However, if cavitation can be monitored and controlled efficiently, faster treatment times can be achieved without negative side effects. The objective of the CavAblate project is to integrate new cavitation characterization detection and control techniques, with sono-elastographic capabilities for the next generation of cavitation mediated enhanced FUS ablation.
Get Access to the 1st Network for European Cooperation