The purpose of this study is to determine whether fusion technique of preradiofrequency ablation (RFA) or percutaneous liver biopsy cross-sectional imaging (CT or MR) and real-time ultrasonography would improve feasibility of RFA or liver biopsy in patients with liver tumor in comparison with ultrasonography guidance alone. And assessment of a new point shear-wave elastography method (pSWE, S-shear wave) and compare its accuracy in assessing liver stiffness (LS) with another pSWE technique (ARFI).
RFA is one of commonly used local therapies for primary or secondary liver tumors. And percutaneous liver biopsy is very important technique to confirm the diagnosis of focal hepatic lesion whether benign or malignancy. For successful and safe procedure, safe access route and lesion visibility are essential , and the conditions are usually evaluated on pre-procedure planning ultrasonography (USG). However, these procedure is sometimes aborted due to limited sonic window of various cause and challenging identification of small isoechoic tumors or hepatocellular carcinomas among dysplastic nodules . Therefore, precise targeting and assuring safe route would be of clinical importance. In this preliminary study, investigators attempted to determine US and CT/MR fusion technique would be able to improve RFA or liver biopsy feasibility in patients with liver tumors in comparison with conventional US alone technique. In addition, to assess intra- and inter-observer reproducibility of a new point shear-wave elastography method (pSWE, S-shear wave) and compare its accuracy in assessing liver stiffness (LS) with another pSWE technique (ARFI).
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
185
Fusion of pre-procedure cross-sectional imaging (CT or MRI) and real-time USG using registration function of USG device.
ultrasound shear wave elastography is performed in S-shear wave scanner according to guidelines of ultrasound elastography.
Seoul National University Hospital
Seoul, South Korea
RFA or biopsy feasibility rates on planning USG with/without fusion CT/MR and US
comparison of rates of RFA feasibility on conventional planning USG and on fusion planning USG
Time frame: 10 minutes after finishing planning USG
Assessment of a new point shear-wave elastography method (pSWE, S-shear wave)
To assess intra- and inter-observer reproducibility of a new point shear-wave elastography method (pSWE, S-shear wave) and compare its accuracy in assessing liver stiffness (LS) with another pSWE technique (ARFI).
Time frame: 10 minutes after finishing planning USG
Rate of tumor visibility on planning USG with/without fusion technique
comparison of tumor visibility (or detection) rates on planning USG on conventional planning USG and fusion planning USG
Time frame: 10 minutes after finishing planning USG
Number of patients with safety access route on planning USG with/without fusion technique
comparison of number of patients with presence/absence of safety access route, and the on two planning USGs
Time frame: 10 minutes after finishing planning USG
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