Patent ID: 8801701
Filing Date: 2014-08-12
Classification: A61B,A61N,G01R

Abstract:
1. A method for quantitative monitoring of an effect of a thermal treatment of tissue in a target volume to be treated comprising: inserting a thermal treatment device into a patient's body so that the treatment device is at least partially disposed within the target volume to be treated; following placing said treatment device in the patient's body, positioning said treatment device at a first position within the target volume, and acquiring a first reference image of the target volume for said first position of the treatment device within the target volume; positioning said treatment device within said target volume at a second position, and acquiring a second reference image of the target volume for said second position of the treatment device within the target volume; if further positions of said treatment device are to be employed in said treatment, continuing to set the treatment device to said further positions, and continuing to acquire respective further reference images of the target volume for each of said further positions of the treatment device within the target volume; following acquisition of all the reference images, determining a quantitatively accurate baseline temperature distribution in said target volume, comprising quantitative temperature measurements to determine a spatial distribution of the baseline temperature in said target volume with the treatment device in the patient's body; following determining said baseline temperature distribution, positioning said treatment device at said first position, and delivering a thermal treatment from the thermal treatment device to the target volume with the treatment device in the patient's body at said first position within the target volume; following delivering said thermal treatment to said target volume with the treatment device at said first position, acquiring another image for said first position in said target volume; performing a phase subtraction between the another image for said first position and the first reference image to determine a change in phase therebetween and to determine a first spatial temperature distribution in the target volume as a result of said delivery of said thermal treatment for said first position, said first spatial temperature distribution indicating a quantitative respective temperature distribution within the target volume; positioning said treatment device at said second position, and delivering a thermal treatment from the thermal treatment device to the target volume with the treatment device in the patient's body at said second position within the target volume; following delivering said thermal treatment to said target volume with the treatment device at said second position, acquiring another image for said second position in said target volume; performing a phase subtraction between the another image for said second position and the second reference image to determine a change in phase therebetween and to determine a second spatial temperature distribution in the target volume as a result of said delivery of said thermal treatment for said second position, said second spatial temperature distribution indicating a quantitative respective temperature distribution within the target volume; if further positions of said treatment device are to be employed in said treatment, positioning said treatment device at said further positions, and delivering respective thermal treatments from the thermal treatment device to the target volume with the treatment device in the patient's body at said respective further positions within the target volume; following delivering said respective further thermal treatments, if any, to said target volume with the treatment device at said respective further positions, acquiring further images for said respective further positions in said target volume; performing respective further phase subtractions between the respective further images for said respective further positions and the corresponding respective further reference images, if any, to determine corresponding respective further changes in phases therebetween; and to determine respective further spatial temperature distributions, if any, in the target volume as a result of said delivery of said thermal treatments for said further positions, said further spatial temperature distributions indicating quantitative respective temperature distributions within the target volume.