Abstract
PurposeTo evaluate the value of DWI in detecting the lesions of pre- and post-radiofrequency ablation (RFA) of the rabbit liver VX2 tumors.Materials and MethodsTwenty-two New Zealand White rabbits were tested. The protocol was approved by the Committee on the Ethics of Animal Experiments. Twenty separate tumor fragments were implanted into the livers of 20 rabbits, the liver was exposed by performing midline laparotomy. 3.0T MR DWI (b = 0, 200, 400, 600, 800,1000 s/mm2) were performed 14–21 days after tumor implantation (mean, 17 days) in the 18 tumor-bearing animals. Then RFA was performed in the 18 tumor-bearing animals and in the two healthy animals. 3.0T MR DWI was performed 7–10 days after RFA (mean, 8 days). Pathology exam was performed immediately after the completion of post- RFA MR imaging. Analyzing the features of MRI and ADC values in the pre- and post- RFA lesions of the VX2 tumors, and histopathologic results were compared with imaging findings.ResultsThe difference of ADC value between viable tumor and normal liver parenchyma was significant (P<.001). After RFA, when b = 200, 400, 600, 800, 1000 s/mm2, the differences of ADC values of viable tumor, granulation tissue, necrosis, normal liver parenchyma were significant (P<.001). At the time the animals were sacrificed after RFA and MR imaging, histopathologic results of local viable tumors were found in 9 (50%) of the 18 treated tumors. Macroscopic viable tumors were found at the RFA sites in 3 (17%), all 3 macroscopic viable tumors were visualized at the periphery of the RFA areas.Conclusions3.0T MR DWI can be used to follow up the progress of the RFA lesion, it is useful in detecting different tissues after RFA, and it is valuable in the further clinical research.
Highlights
Radiofrequency ablation (RFA) has been widely used as a desirable treatment method for hepatic tumors
At the time the animals were sacrificed after RFA and MR imaging, histopathologic results of local viable tumors were found in 9 (50%) of the 18 treated tumors
Macroscopic viable tumors were found at the RFA sites in 3 (17%), all 3 macroscopic viable tumors were visualized at the periphery of the RFA areas
Summary
Radiofrequency ablation (RFA) has been widely used as a desirable treatment method for hepatic tumors. RFA techniques are attractive because they are amenable to minimally invasive approaches, as compared with resection [1,2]. Imaging is important for procedural guidance and for precise assessment of treatment adequacy [3]. An understanding of normal and abnormal imaging characteristics is needed to assess treatment adequacy. Conventional magnetic resonance imaging (MRI) cannot provide exact information about the features of the tissues after. Some imaging features of the tissues after RFA such as post-treatment granulation tissue can be similar to that of viable tumor, which makes early detection of residual or recurrent tumor at the RFA site difficult [4,5]
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