@article{kennedy_2016, title={Hepatic-directed therapies in patients with neuroendocrine tumors}, volume={30}, number={1}, journal={Hematology-Oncology Clinics of North America}, author={Kennedy, A. S.}, year={2016}, pages={193-} }
 @misc{kennedy_coldwell_sangro_wasan_salem_2012, title={Integrating radioembolization ((90)Y Microspheres) into current treatment options for liver tumors introduction to the international working group report}, volume={35}, number={1}, journal={American Journal of Clinical Oncology-Cancer Clinical Trials}, author={Kennedy, A. and Coldwell, D. and Sangro, B. and Wasan, H. and Salem, R.}, year={2012}, pages={81–90} }
 @article{lau_kennedy_kim_lai_lee_leung_liu_salem_sangro_shuter_et al._2012, title={Patient selection and activity planning guide for selective internal radiotherapy with yttrium-90 resin microspheres}, volume={82}, number={1}, journal={International Journal of Radiation Oncology, Biology, Physics}, author={Lau, W. Y. and Kennedy, A. S. and Kim, Y. H. and Lai, H. K. and Lee, R. C. and Leung, T. W. T. and Liu, C. S. and Salem, R. and Sangro, B. and Shuter, B. and et al.}, year={2012}, pages={401–407} }
 @misc{kennedy_coldwell_sangro_wasan_salem_2012, title={Radioembolization for the treatment of liver tumors general principles}, volume={35}, number={1}, journal={American Journal of Clinical Oncology-Cancer Clinical Trials}, author={Kennedy, A. and Coldwell, D. and Sangro, B. and Wasan, H. and Salem, R.}, year={2012}, pages={91–99} }
 @misc{coldwell_sangro_salem_wasan_kennedy_2012, title={Radioembolization in the treatment of unresectable liver tumors experience across a range of primary cancers}, volume={35}, number={2}, journal={American Journal of Clinical Oncology-Cancer Clinical Trials}, author={Coldwell, D. and Sangro, B. and Salem, R. and Wasan, H. and Kennedy, A.}, year={2012}, pages={167–177} }
 @misc{coldwell_sangro_wasan_salem_kennedy_2011, title={General selection criteria of patients for radioembolization of liver tumors an international working group report}, volume={34}, number={3}, journal={American Journal of Clinical Oncology-Cancer Clinical Trials}, author={Coldwell, D. and Sangro, B. and Wasan, H. and Salem, R. and Kennedy, A.}, year={2011}, pages={337–341} }
 @article{morgan_kennedy_lewington_jones_sharma_2011, title={Intra-arterial brachytherapy of hepatic malignancies: Watch the flow}, volume={8}, number={2}, journal={Nature Reviews. Clinical Oncology}, author={Morgan, B. and Kennedy, A. S. and Lewington, V. and Jones, B. and Sharma, R. A.}, year={2011}, pages={115–120} }
 @misc{sangro_salem_kennedy_coldwell_wasan_2011, title={Radioembolization for Hepatocellular carcinoma a review of the evidence and treatment recommendations}, volume={34}, number={4}, journal={American Journal of Clinical Oncology-Cancer Clinical Trials}, author={Sangro, B. and Salem, R. and Kennedy, A. and Coldwell, D. and Wasan, H.}, year={2011}, pages={422–431} }
 @article{lau_kennedy_kim_lai_lee_leung_liu_salem_sangro_shuter_et al._2011, title={Response to "Patient selection and activity planning guide for selective internal radiotherapy with Yttrium-90 resin microspheres."}, volume={80}, number={4}, journal={International Journal of Radiation Oncology, Biology, Physics}, author={Lau, W. Y. and Kennedy, A. S. and Kim, Y. H. and Lai, H. K. and Lee, R. C. and Leung, T. W. T. and Liu, C. S. and Salem, R. and Sangro, B. and Shuter, B. and et al.}, year={2011}, pages={1280–1281} }
 @article{kennedy_kleinstreuer_basciano_dezarn_2010, title={COMPUTER MODELING OF YTTRIUM-90-MICROSPHERE TRANSPORT IN THE HEPATIC ARTERIAL TREE TO IMPROVE CLINICAL OUTCOMES}, volume={76}, ISSN={["0360-3016"]}, DOI={10.1016/j.ijrobp.2009.06.069}, abstractNote={Radioembolization (RE) via yttrium-90 ((90)Y) microspheres is an effective and safe treatment for unresectable liver malignancies. However, no data are available regarding the impact of local blood flow dynamics on (90)Y-microsphere transport and distribution in the human hepatic arterial system.A three-dimensional (3-D) computer model was developed to analyze and simulate blood-microsphere flow dynamics in the hepatic arterial system with tumor. Supplemental geometric and flow data sets from patients undergoing RE were also available to validate the accuracy of the computer simulation model. Specifically, vessel diameters, curvatures, and branching patterns, as well as blood flow velocities/pressures and microsphere characteristics (i.e., diameter and specific gravity), were measured. Three-dimensional computer-aided design software was used to create the vessel geometries. Initial trials, with 10,000 noninteracting microspheres released into the hepatic artery, used resin spheres 32-microm in diameter with a density twice that of blood.Simulations of blood flow subject to different branch-outlet pressures as well as blood-microsphere transport were successfully carried out, allowing testing of two types of microsphere release distributions in the inlet plane of the main hepatic artery. If the inlet distribution of microspheres was uniform (evenly spaced particles), a greater percentage would exit into the vessel branch feeding the tumor. Conversely, a parabolic inlet distribution of microspheres (more particles around the vessel center) showed a high percentage of microspheres exiting the branch vessel leading to the normal liver.Computer simulations of both blood flow patterns and microsphere dynamics have the potential to provide valuable insight on how to optimize (90)Y-microsphere implantation into hepatic tumors while sparing normal tissue.}, number={2}, journal={INTERNATIONAL JOURNAL OF RADIATION ONCOLOGY BIOLOGY PHYSICS}, author={Kennedy, Andrew S. and Kleinstreuer, Clement and Basciano, Christopher A. and Dezarn, William A.}, year={2010}, month={Feb}, pages={631–637} }
 @misc{kennedy_salem_2010, title={Radioembolization (yttrium-90 microspheres) for primary and metastatic hepatic malignancies}, volume={16}, number={2}, journal={Cancer Journal}, author={Kennedy, A. S. and Salem, R.}, year={2010}, pages={163–175} }