Changes in arterial and portal perfusion in embolized and nonembolized hepatic lobes after portal vein embolization evaluated by helical computed tomography

• Published in: Surgery today (Tokyo, Japan) Vol. 31; no. 11; pp. 991 - 995
• Main Authors: Wakabayashi, H, Nakano, S, Ishimura, K, Hagiike, M, Okano, K, Maeba, T, Maeta, H
• Format: Journal Article
• Language: English
• Published: Japan 01.01.2001
• Subjects: Aged; Embolization, Therapeutic; Female; Humans; Liver Circulation; Liver Neoplasms - blood supply; Liver Neoplasms - physiopathology; Male; Middle Aged; Portal Vein; Regional Blood Flow
• ISSN: 0941-1291; 1436-2813
• DOI: 10.1007/s005950170008

We evaluated the changes in hepatic arterial and portal perfusion in nonembolized as well as in embolized lobes after portal venous branch embolization (PVE) with dynamic helical computed tomography (CT). Six patients with hepatic malignancies, who underwent PVE prior to a subsequent hepatectomy, were the subjects of this study. We performed CT examinations before PVE and 2 weeks after PVE to make a volumetric analysis. At the same time, we performed single-location dynamic sequences after the injection of a 50-ml bolus of contrast medium, and we then created time-density curves from circular regions of interest drawn over the aorta, parenchyma of the right and left lobe of the liver, and spleen. We calculated the arterial perfusion index (ml/min per ml of tissue) and the portal perfusion index by dividing the maximum rate of enhancement of the liver before and after the splenic peak by the peak aortic enhancement. We then calculated the arterial and portal flows (ml/min) from the perfusion index and values of CT volumetry. In the right lobe, where the portal flow was occluded, the arterial perfusion index and flow increased significantly after PVE. In contrast, the arterial perfusion index and flow both decreased in the left lobe after PVE in a reverse response to the increase in the portal perfusion index and flow. The total arterial flow of the liver thus seemed to slightly increase; however, the change was not significant. By performing PVE an increased arterial perfusion was induced in the embolized lobe, with a concomitant decrease in arterial perfusion in the nonembolized lobe.