OBJECTIVE: The purpose of our study was to test the accuracy of sonographically guided biopsies in a phantom of structures not visible on sonography but shown on MRI by using commercially available sonography systems with image fusion software. MATERIALS AND METHODS: A previously recorded MRI examination from a custom-made phantom was loaded into the sonography system. The phantom contained spheres that were invisible to sonography and contained red dye. The red dye was visible in the biopsy if it was successful. The images were coregistered using structures visible on both sonography and MRI, and biopsies were taken. The biopsy procedure was continued until a biopsy was successful, and the number of needle passes and time spent were registered. RESULTS: A total of 130 targets were hit. Ten minutes was used for loading the MRI data set and the coregistration; 94 of the 130 biopsies (72.3%) were successful at the first needle pass. The median number of needle passes until a successful biopsy was obtained was one (range, 1-7). CONCLUSION: The described method was successful in obtaining an adequate sample in a phantom.
OBJECTIVE: The purpose of our study was to test the accuracy of sonographically guided biopsies in a phantom of structures not visible on sonography but shown on MRI by using commercially available sonography systems with image fusion software. MATERIALS AND METHODS: A previously recorded MRI examination from a custom-made phantom was loaded into the sonography system. The phantom contained spheres that were invisible to sonography and contained red dye. The red dye was visible in the biopsy if it was successful. The images were coregistered using structures visible on both sonography and MRI, and biopsies were taken. The biopsy procedure was continued until a biopsy was successful, and the number of needle passes and time spent were registered. RESULTS: A total of 130 targets were hit. Ten minutes was used for loading the MRI data set and the coregistration; 94 of the 130 biopsies (72.3%) were successful at the first needle pass. The median number of needle passes until a successful biopsy was obtained was one (range, 1-7). CONCLUSION: The described method was successful in obtaining an adequate sample in a phantom.
Authors: Ernst Michael Jung; Chris Friedrich; Patrick Hoffstetter; Lena Marie Dendl; Frank Klebl; Ayman Agha; Phillipp Wiggermann; Christian Stroszcynski; Andreas Georg Schreyer Journal: PLoS One Date: 2012-03-20 Impact factor: 3.240
Authors: Alfonso Gomez-Iturriaga; Juanita Crook; Francisco Casquero; Claudia Carvajal; Arantxa Urresola; Begoña Canteli; Ana Ezquerro; Eduardo Hortelano; Jon Cacicedo; Jose Maria Espinosa; Fernando Perez; Pablo Minguez; Pedro Bilbao Journal: J Contemp Brachytherapy Date: 2014-06-09