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South Australian Health and Medical Research Institute (SAHMRI)

2 ARTICLES PUBLISHED IN JoVE

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Cancer Research

Portal Vein Injection of Colorectal Cancer Organoids to Study the Liver Metastasis Stroma
Hiroki Kobayashi 1,2,3,4, Krystyna A. Gieniec 1,2, Jia Q. Ng 1,2, Jarrad Goyne 1,2, Tamsin R. M. Lannagan 1,2, Elaine M. Thomas 1,2, Georgette Radford 1,2, Tongtong Wang 1,2, Nobumi Suzuki 1,2,5, Mari Ichinose 1,2, Josephine A. Wright 2, Laura Vrbanac 1,2, Alastair D. Burt 6, Masahide Takahashi 3,4,7, Atsushi Enomoto 3, Daniel L. Worthley 2, Susan L. Woods 1,2
1Adelaide Medical School, University of Adelaide, 2South Australian Health and Medical Research Institute (SAHMRI), 3Department of Pathology, Nagoya University Graduate School of Medicine, 4Division of Molecular Pathology, Center for Neurological Disease and Cancer, Nagoya University Graduate School of Medicine, 5Department of Gastroenterology, Graduate School of Medicine, The University of Tokyo, 6Translational and Clinical Research Institute, Newcastle University, 7International Center for Cell and Gene Therapy, Fujita Health University

Portal vein injection of colorectal cancer (CRC) organoids generates stroma-rich liver metastasis. This mouse model of CRC hepatic metastasis represents a useful tool to study tumor-stroma interactions and develop novel stroma-directed therapeutics such as adeno-associated virus-mediated gene therapies.

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JoVE Core

Optical Coherence Tomography Based Biomechanical Fluid-Structure Interaction Analysis of Coronary Atherosclerosis Progression
Harry J. Carpenter 1, Mergen H. Ghayesh 1, Anthony C. Zander 1, Juanita L. Ottaway 2, Giuseppe Di Giovanni 3, Stephen J. Nicholls 4, Peter J. Psaltis 3,5,6
1School of Mechanical Engineering, University of Adelaide, 2South Australian Health and Medical Research Institute (SAHMRI), 3Vascular Research Centre, Lifelong Health Theme, South Australian Health and Medical Research Institute (SAHMRI), 4Monash Cardiovascular Research Centre, 5Adelaide Medical School, University of Adelaide, 6Department of Cardiology, Central Adelaide Local Health Network

There is a need to determine which atherosclerotic lesions will progress in the coronary vasculature to guide intervention before myocardial infarction occurs. This article outlines the biomechanical modeling of arteries from Optical Coherence Tomography using fluid-structure interaction techniques in a commercial finite element solver to help predict this progression.

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