Katsuhiro Nasu1, Yoshifumi Kuroki, Manabu Minami. 1. Department of Diagnostic Radiology, Tsukuba University School of Medicine, Tsukuba, 305-8575, Japan. kanasu-u3@md.tsukuba.ac.jp
Abstract
PURPOSE: To suppress hepatic pseudo-anisotropy, which is a specific artifact in diffusion-weighted imaging (DWI) of the liver obtained under respiratory triggering, the authors developed a novel acquisition technique for DWI that we termed "diffusion-weighted imaging under split breath-hold acquisition and postprocessing" (DWI-SBAP). We evaluated its feasibility in this study. MATERIALS AND METHODS: Of 113 patients whose hepatic DWI under respiratory triggering (RT-DWI) showed prominent hepatic pseudo-anisotropy, 35 were included in the study. DWI-SBAP was additionally performed in these patients. Two radiologists visually evaluated the RT-DWI and DWI-SBAP from the viewpoints of the degree of pseudo-anisotropy and the image quality of trace images of both sequences. During evaluation of the image quality of trace images, both pseudo-anisotropy and slice misregistration artifacts were taken into consideration. RESULTS: The pseudo-anisotropy seen was significantly lower in DWI-SBAP than that in RT-DWI. Regarding visual evaluation of the trace images, the image quality of DWI-SBAP was superior to that of RT-DWI, although misregistration artifacts were observed in DWI-SBAP trace images of two patients. CONCLUSION: DWI-SBAP is a feasible technique for obtaining fine abdominal DWI and is effective in suppressing hepatic pseudo-anisotropy. To use this sequence in the clinical scenario, we believe it is necessary to develop a method of generating apparent diffusion coefficient maps and simultaneous use of slice tracking techniques.
PURPOSE: To suppress hepatic pseudo-anisotropy, which is a specific artifact in diffusion-weighted imaging (DWI) of the liver obtained under respiratory triggering, the authors developed a novel acquisition technique for DWI that we termed "diffusion-weighted imaging under split breath-hold acquisition and postprocessing" (DWI-SBAP). We evaluated its feasibility in this study. MATERIALS AND METHODS: Of 113 patients whose hepatic DWI under respiratory triggering (RT-DWI) showed prominent hepatic pseudo-anisotropy, 35 were included in the study. DWI-SBAP was additionally performed in these patients. Two radiologists visually evaluated the RT-DWI and DWI-SBAP from the viewpoints of the degree of pseudo-anisotropy and the image quality of trace images of both sequences. During evaluation of the image quality of trace images, both pseudo-anisotropy and slice misregistration artifacts were taken into consideration. RESULTS: The pseudo-anisotropy seen was significantly lower in DWI-SBAP than that in RT-DWI. Regarding visual evaluation of the trace images, the image quality of DWI-SBAP was superior to that of RT-DWI, although misregistration artifacts were observed in DWI-SBAP trace images of two patients. CONCLUSION: DWI-SBAP is a feasible technique for obtaining fine abdominal DWI and is effective in suppressing hepatic pseudo-anisotropy. To use this sequence in the clinical scenario, we believe it is necessary to develop a method of generating apparent diffusion coefficient maps and simultaneous use of slice tracking techniques.
Authors: S Shimizu; H Shirato; B Xo; K Kagei; T Nishioka; S Hashimoto; K Tsuchiya; H Aoyama; K Miyasaka Journal: Radiother Oncol Date: 1999-03 Impact factor: 6.280
Authors: Thomas C Kwee; Taro Takahara; Tetsu Niwa; Marko K Ivancevic; Gwenael Herigault; Marc Van Cauteren; Peter R Luijten Journal: MAGMA Date: 2009-09-02 Impact factor: 2.310