Your search keyword '"Balloon-occluded arterial stump pressure"' showing total 2 results

1. Numerical zero‐dimensional hepatic artery hemodynamics model for balloon‐occluded transarterial chemoembolization.

Author

Aramburu, Jorge, Rivas, Alejandro, Ramos, Juan Carlos, Larraona, Gorka S., Antón, Raúl, Bilbao, José Ignacio, and Sangro, Bruno

Subjects

*CHEMOEMBOLIZATION, *HEPATIC artery, *HEMODYNAMICS, *COLLATERAL circulation, *LIVER cancer

Abstract

Abstract: Balloon‐occluded transarterial chemoembolization (B‐TACE) is a valuable treatment option for patients with inoperable malignant tumors in the liver. Balloon‐occluded transarterial chemoembolization consists of the transcatheter infusion of an anticancer drug mixture and embolic agents. Contrary to conventional TACE, B‐TACE is performed via an artery‐occluding microballoon catheter, which makes the blood flow to redistribute due to the intra‐ and extrahepatic arterial collateral circulation. Several recent studies have stressed the importance of the redistribution of blood flow in enhancing the treatment outcome. In the present study, the geometries of a representative hepatic artery and the communicating arcades (CAs) are modeled. An in silico zero‐dimensional hemodynamic model is created by characterizing the geometry and the boundary conditions and then is validated in vitro. The role of CAs is assessed by combining 2 cancer scenarios and 2 catheter locations. The importance of the diameter of the CAs is also studied. Results show that occluding a main artery leads to collateral circulation and CAs start to play a role in blood‐flow redistribution. In summary, numerical zero‐dimensional simulations permit a fast and reliable approach for exploring the blood‐flow redistribution caused by the occlusion of a main artery, and this approach could be used during B‐TACE planning. [ABSTRACT FROM AUTHOR]

Published

2018

2. Balloon-occluded arterial stump pressure before balloon-occluded transarterial chemoembolization.

Author

Matsumoto, Tomohiro, Endo, Jun, Hashida, Kazunobu, Mizukami, Hajime, Nagata, Junko, Ichikawa, Hitoshi, Kojima, Seiichiro, Takashimizu, Shinji, Yamagami, Takuji, Watanabe, Norihito, and Hasebe, Terumitsu

Subjects

*CATHETERIZATION, *FISHER exact test, *HEPATOCELLULAR carcinoma, *STATISTICS, *DATA analysis, *RETROSPECTIVE studies, *DATA analysis software, *MANN Whitney U Test, *KRUSKAL-Wallis Test, *CHEMOEMBOLIZATION, HEPATIC artery surgery

Abstract

ObjectiveTo evaluate balloon-occluded arterial stump pressure (BOASP), which is responsible for effective balloon-occluded transarterial chemoembolization (B-TACE), at each hepatic arterial level before B-TACE using a 1.8-French tip microballoon catheter for unresectable hepatocellular carcinoma (HCC).Material and methodsThe BOASP at various embolization portions was retrospectively investigated. “Selective” and “non-targeted” BOASP was defined as the BOASP at the subsegmental or segmental artery and the lobar artery, respectively.ResultsThe measurement of the BOASP was carried out in 87 arteries in 47 patients. BOASP > 64 mmHg was revealed in the caudate lobe artery (A1) and the left medial segmental (A4), right anterior superior segmental (A8), anterior segmental, right and left hepatic arteries. Significant difference was noted in the incidence of BOASP above 64 mmHg between “non-targeted” and “selective” BOASP (p = 0.01). “Non-targeted” BOASP was significantly greater than “selective” BOASP (p = 0.0147). In addition, the BOASP in A1, 4, 8 and the anterior segmental arteries were significantly greater than in the other subsegmental and segmental arteries (p = 0.0007).Conclusion“Non-targeted” B-TACE should be avoided to perform effective B-TACE and “selective” B-TACE at A1, 4, 8 and the anterior segmental arteries may become less effective than at the other segmental or subsegmental arteries. [ABSTRACT FROM PUBLISHER]

Published

2016