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Special Issue Article
Computational Fluid Dynamics Modeling of 90Y Microspheres in Human
Hepatic Tumors
Author(s): Christopher A. Basciano, Clement Kleinstreuer and Andrew S. KennedyChristopher A. Basciano, Clement Kleinstreuer and Andrew S. Kennedy
The number of patients afflicted with liver tumors continues to rise being a major concern of international healthcare. Yttrium-90 microsphere radioembolization can be an effective and safe treatment of unresectable primary and secondary liver tumors, and has the potential to be a forefront treatment option for tumor-afflicted patients. Computational fluid-particle dynamics is a powerful research tool that can be used to understand the underlying physics of Yttrium-90 microsphere transport and deposition, leading to improved clinical strategies and ultimately to a better treatment of tumor-afflicted patients. Two representative, patient-inspired three-dimensional geometries of the hepatic arterial system with assumed connections to liver tumors have been considered. Experimentallyvalidated computational fluid-particle dynamics modeling results have shown the significant influence of v.. Read More»
DOI:
10.4172/2155-9619.1000112
Nuclear Medicine & Radiation Therapy received 706 citations as per Google Scholar report