F G Mitri1, B J Davis, J F Greenleaf, M Fatemi. 1. Department of Physiology and Biomedical Engineering, Ultrasound Research Laboratory, Mayo Clinic, Rochester, MN 55905, United States. mitri@ieee.org
Abstract
BACKGROUND: Permanent prostate brachytherapy (PPB) is a common treatment for early stage prostate cancer. While the modern approach using trans-rectal ultrasound guidance has demonstrated excellent outcome, the efficacy of PPB depends on achieving complete radiation dose coverage of the prostate by obtaining a proper radiation source (seed) distribution. Currently, brachytherapy seed placement is guided by trans-rectal ultrasound imaging and fluoroscopy. A significant percentage of seeds are not detected by trans-rectal ultrasound because certain seed orientations are invisible making accurate intra-operative feedback of radiation dosimetry very difficult, if not impossible. Therefore, intra-operative correction of suboptimal seed distributions cannot easily be done with current methods. Vibro-acoustography (VA) is an imaging modality that is capable of imaging solids at any orientation, and the resulting images are speckle free. OBJECTIVE AND METHODS: The purpose of this study is to compare the capabilities of VA and pulse-echo ultrasound in imaging PPB seeds at various angles and show the sensitivity of detection to seed orientation. In the VA experiment, two intersecting ultrasound beams driven at f(1)=3.00 MHz and f(2)=3.020 MHz respectively were focused on the seeds attached to a latex membrane while the amplitude of the acoustic emission produced at the difference frequency 20 kHz was detected by a low frequency hydrophone. RESULTS: Finite element simulations and results of experiments conducted under well-controlled conditions in a water tank on a series of seeds indicate that the seeds can be detected at any orientation with VA, whereas pulse-echo ultrasound is very sensitive to the seed orientation. CONCLUSION: It is concluded that vibro-acoustography is superior to pulse-echo ultrasound for detection of PPB seeds.
BACKGROUND: Permanent prostate brachytherapy (PPB) is a common treatment for early stage prostate cancer. While the modern approach using trans-rectal ultrasound guidance has demonstrated excellent outcome, the efficacy of PPB depends on achieving complete radiation dose coverage of the prostate by obtaining a proper radiation source (seed) distribution. Currently, brachytherapy seed placement is guided by trans-rectal ultrasound imaging and fluoroscopy. A significant percentage of seeds are not detected by trans-rectal ultrasound because certain seed orientations are invisible making accurate intra-operative feedback of radiation dosimetry very difficult, if not impossible. Therefore, intra-operative correction of suboptimal seed distributions cannot easily be done with current methods. Vibro-acoustography (VA) is an imaging modality that is capable of imaging solids at any orientation, and the resulting images are speckle free. OBJECTIVE AND METHODS: The purpose of this study is to compare the capabilities of VA and pulse-echo ultrasound in imaging PPB seeds at various angles and show the sensitivity of detection to seed orientation. In the VA experiment, two intersecting ultrasound beams driven at f(1)=3.00 MHz and f(2)=3.020 MHz respectively were focused on the seeds attached to a latex membrane while the amplitude of the acoustic emission produced at the difference frequency 20 kHz was detected by a low frequency hydrophone. RESULTS: Finite element simulations and results of experiments conducted under well-controlled conditions in a water tank on a series of seeds indicate that the seeds can be detected at any orientation with VA, whereas pulse-echo ultrasound is very sensitive to the seed orientation. CONCLUSION: It is concluded that vibro-acoustography is superior to pulse-echo ultrasound for detection of PPB seeds.
Authors: Brian J Davis; Randall R Kinnick; Mostafa Fatemi; Eugene P Lief; Richard A Robb; James F Greenleaf Journal: Int J Radiat Oncol Biol Phys Date: 2003-11-15 Impact factor: 7.038
Authors: Armen Sarvazyan; Timothy J Hall; Matthew W Urban; Mostafa Fatemi; Salavat R Aglyamov; Brian S Garra Journal: Curr Med Imaging Rev Date: 2011-11
Authors: Nobuyuki Yamamoto; Randall R Kinnick; Mostafa Fatemi; Takayuki Muraki; John W Sperling; Scott P Steinmann; Robert H Cofield; Eiji Itoi; Kai-Nan An Journal: J Med Ultrason (2001) Date: 2014-06-26 Impact factor: 1.314
Authors: Hermes A S Kamimura; Matthew W Urban; Antonio A O Carneiro; Mostafa Fatemi; Azra Alizad Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2012-07 Impact factor: 2.725
Authors: A Jain; A Deguet; I Iordachita; G Chintalapani; S Vikal; J Blevins; Y Le; E Armour; C Burdette; D Song; G Fichtinger Journal: Med Image Anal Date: 2010-08-14 Impact factor: 8.545
Authors: Matthew W Urban; Carl Chalek; Randall R Kinnick; Thomas M Kinter; Bruno Haider; James F Greenleaf; Kai E Thomenius; Mostafa Fatemi Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2011-06 Impact factor: 2.725
Authors: Farid G Mitri; Brian J Davis; Azra Alizad; James F Greenleaf; Torrence M Wilson; Lance A Mynderse; Mostafa Fatemi Journal: IEEE Trans Biomed Eng Date: 2008-11 Impact factor: 4.538