Accession Number : ADA585933


Title :   Non-Thermal High-Intensity Focused Ultrasound for Breast Cancer Therapy


Descriptive Note : Final rept. 1 Jul 2011-30 Jun 2013


Corporate Author : FOX CHASE CANCER CENTER PHILADELPHIA PA


Personal Author(s) : Ma, Chang M


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a585933.pdf


Report Date : Jul 2013


Pagination or Media Count : 19


Abstract : Several in vitro studies have demonstrated the non-thermal ( 42 C) cell killing effect of pulsed HIFU, which resembles high linear energy transfer (LET) radiation cell damage that is not affected by the local biochemical environment and shows less radiation resistance. However, there have been no in vivo animal studies performed on non-thermal HIFU to demonstrate its therapeutic potential. This project's aim was to demonstrate the therapeutic potential of non-thermal HIFU using an animal model by comparing it with well established treatment modalities such as radiation therapy. This project has two aims: (1) to determine if non-thermal HIFU can cause significant tumor growth delays in vivo as compared to radiotherapy using an animal model, and (2) to determine potential normal tissue toxicities, if any, associated with non-thermal HIFU treatment for breast cancer. Extensive phantom studies have been completed to determine suitable ultrasound parameters for the in vivo animal experiments. Results of in vivo animal experiments demonstrated significant tumor growth delay by non-thermal HIFU that are comparable to radiotherapy without damage to overlapping tissues, which warrant future feasibility studies to determine optimal HIFU treatment parameters for human treatments and to quantify normal tissue toxicities associated with non-thermal HIFU treatments.


Descriptors :   *BREAST CANCER , *RADIATION DAMAGE , *RADIOTHERAPY , *ULTRASONICS , CELLS(BIOLOGY) , ENERGY TRANSFER , ENVIRONMENTS , FEASIBILITY STUDIES , IN VITRO ANALYSIS , IN VIVO ANALYSIS , NEOPLASMS , THERAPY , TISSUES(BIOLOGY) , TOXICITY


Subject Categories : Medicine and Medical Research
      Radiobiology


Distribution Statement : APPROVED FOR PUBLIC RELEASE