Rationale and objectives: The end point of chemoembolization for hepatocellular carcinoma is qualitative. We intended to determine the feasibility of measuring intra-arterial pressure changes after chemoembolization and hypothesized that pressures would increase in the distal hepatic artery after the procedure.
Materials and methods: Before and after chemoembolization, systemic (S) systolic and mean pressures were measured along with celiac (C), lobar (L), and distal (D) hepatic artery pressures with a pressure wire. Corrected pressures were defined as a ratio with S as the denominator to account for intraprocedural S changes. Changes in the systolic and mean corrected pressures at each location (C/S, L/S, and D/S) were evaluated using paired t tests. Pressure changes in patients with and without tumor response using the Modified Response Evaluation Criteria in Solid Tumors were also compared.
Results: Sixteen tumors were treated in 15 patients. One patient had bilobar tumors with separate supplying arteries. The only significant pressure change was systolic D/S (P = .02), while mean D/S approached significance (P = .08). C/S and L/S did not change significantly after chemoembolization. Eleven of 16 patients had a complete response, whereas the other five had a partial response after chemoembolization. When comparing complete to partial responders, no changes in systolic or mean C/S, L/S, or D/S reached statistical significance (all P > .05).
Conclusions: Measuring change in hepatic artery pressures is feasible. Distal intra-arterial corrected pressures increase significantly after chemoembolization. Further study to determine the ability to predict tumor necrosis at follow-up imaging is warranted.
Keywords: Hepatocellular carcinoma; arterial pressure measurement; chemoembolization; endpoint determination.
Copyright © 2013 AUR. Published by Elsevier Inc. All rights reserved.