BackgroundTo evaluate the association between the therapeutic outcomes of sorafenib for advanced hepatocellular carcinoma (HCC) and the parameters of intravoxel incoherent motion (IVIM).MethodsNine patients were evaluated prospectively. All patients were Child-Pugh score A. The mean dimension of the lesion was 32 mm (range: 15–74 mm). MR images were obtained using a 1.5-Tesla superconductive MRI system. Diffusion-weighted imaging was performed under breath-holding using b-values of 0, 50, 100, 150, 200, 400, and 800 s/mm2. The following IVIM parameters were calculated: apparent diffusion coefficient, true diffusion coefficient (DC), pseudo-diffusion coefficient, and perfusion fraction. MRI was performed before treatment and at 1, 2, and 4 weeks after beginning treatment. Tumor response at 4 weeks was assessed by CT or MRI using modified RECIST. IVIM parameters of the treatment responders and non-responders were compared.ResultsThe DC of responders at baseline was significantly higher than that of the non-responders. The sensitivity and specificity, when a DC of 0.8 (10−3 mm2/s) or higher was considered to be a responder, were 100 % and 67 %, respectively. No significant differences were found in the other parameters between the responders and the non-responders. All IVIM parameters of the responders and non-responders did not change significantly after treatment.ConclusionThe DC before treatment may be a useful parameter for predicting the therapeutic outcome of sorafenib for advanced HCC.
Aim To compare the diagnostic performance based on the modified CEUS Liver Imaging Reporting and Data System (LI‐RADS), which includes Kupffer‐phase findings as a major imaging feature, with that of CT and MRI (CT/MRI) LI‐RADS for liver nodules in patients at high risk of HCC. Methods A total of 120 patients with 120 nodules were included in this retrospective study. The median size of the lesions was 20.0 mm (interquartile range, 14.0–30.8 mm). Of these lesions, 90.0% (108 of 120) were confirmed as HCCs, 6.7% (8 of 120) were intrahepatic cholangiocarcinomas, 1.7% (2 of 120) were metastases, and 1.7% (2 of 120) were dysplastic nodules. All nodules were diagnosed histopathologically. Each nodule was categorized according to the modified CEUS LI‐RADS and CT/MRI LI‐RADS version 2018. The diagnostic performance and inter‐modality agreement of each criterion was compared. Results The inter‐modality agreement for the modified CEUS LI‐RADS and CT/MRI LI‐RADS was slight agreement (kappa = 0.139, p = 0.015). The diagnostic accuracies of HCCs for the modified CEUS LR‐5 and CT/MRI LR‐5 were 70.0% (95% confidence interval [CI]: 61.0%, 78.0%) versus 70.8% (95% CI: 61.8%, 78.8%) (p = 0.876), respectively. The diagnostic accuracies of non‐HCC malignancies for the modified CEUS LR‐M and CT/MRI LR‐M were 84.2% (95% CI: 76.4%, 90.2%) versus 96.7% (95% CI: 91.7%, 99.1%) (p = 0.002), respectively. Conclusions The diagnostic performance for HCCs on the modified CEUS LR‐5 and CT/MRI LR‐5 are comparable. In contrast, CT/MRI LR‐M has better diagnostic performance for non‐HCC malignancy than that of the modified CEUS LR‐M.
Very few studies have been published on the long-term histopathologic follow-up of spherical embolic agents after their injection. To our knowledge, there are no reports in the literature regarding pathological analysis of the transvascular migration of HepaSphere particles. We here report a case of a patient with hepatocellular carcinoma (HCC) who underwent liver transplantation 12 months after drug eluting microsphere transcatheter arterial chemoembolization (DEM-TACE), and long-term histopathologic follow-up of the microspheres was performed. Furthermore, to our knowledge, this is the first report in which transvascular migration of a HepaSphere particle was confirmed histologically. A 60-year-old male with chronic hepatitis B was treated with entecavir and seroconversion was obtained. The patient had decompensated cirrhosis, and desired to undergo living donor liver transplantation (LDLT). However, 2 HCC tumors of 3 cm or less were detected in his liver. The transplantation surgeon proposed DEM-TACE as a bridge therapy. The HCCs were located in the right lobe and lateral segment of the liver. A 1.9 F preshaped microcatheter (ProgreatΣ, Terumo, Japan) was selectively inserted into the A3 and anterior segmental branch, 10 mg of epirubicin was injected into each artery, and the arteries were embolized with 7 mg and 13 mg of HepaSphere loaded with epirubicin, respectively. Two months later, contrast-enhanced CT displayed a complete response. At that time, lung metastasis was suspected, but after partial lung resection, the patient was diagnosed as having inflammatory granuloma. One year after DEM-TACE treatment, LDLT was performed. No cancerous cells were detected in the area where the tumor was present, but 22 HepaSphere particles were detected. All particles were present in the interstitium. Furthermore, the transvascular migration of a HepaSphere particle was histologically confirmed. The largest and smallest HepaSphere diameters were 241.6 ± 52.5 µm and 186.5 ± 41.4 µm, respectively, and deformity was 22.6% ± 13.0 %. All the HepaSpheres detected in the examined pathological specimen were noted to be extravascular.
Portal vein thrombosis (PVT) after hepatobiliary surgery is rare but can cause lethal and severe complications. If early diagnosis and recanalization can be achieved, the PVT is expected to be eliminated. A 70-year-old male was diagnosed as having hepatocellular carcinoma occupying the right lobe of the liver. As oligometastatic lung tumors were simultaneously detected on contrast-enhanced CT (CECT), hepatectomy was not indicated. However, the primary tumor was very large, and as large tumor size can be associated with an unfavorable prognosis, and owing to the strong desire of the patient, he underwent right lobe hepatectomy. Jaundice appeared on post-operative Day (POD) 2 and CECT displayed slight intraheptatic bile duct dilation. However, a PVT did not exist at this time. Percutaneous transhepatic biliary drainage was performed and Doppler echo displayed intrahepatic and extrahepatic PVT on post-operative Day 5. Emergent thrombectomy was performed using a Vasplyser Plus TM thrombus aspiration catheter (Johnson & Johnson K.K. Medical Company, Tokyo, Japan) via the ileocolic vein under laparotomy. The mesenteric catheter was placed at the distal point of the residual PVT. Thrombolysis and anticoagulant therapy were performed using heparin and urokinase. In the CECT performed 16 days after the additional operation, the PVT had disappeared and the portal vein was completely recanalized. The mesenteric catheter was removed on the same day and oral anticoagulant therapy was continued. At the time of writing, 14 months have passed with no recurrence of PVT. Early diagnosis of PVT enables treatment with emergent thrombectomy, thrombolysis, and anticoagulant therapy. These treatments result in the improvement of portal vein flow and the complete disappearance of PVT.
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