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Dr. Andrew McCulloch is Distinguished Professor of Bioengineering and Medicine at the University of California San Diego and Director of the Institute for Engineering in Medicine.
He is a Principal Investigator of the National Biomedical Computation Resource and the Cardiac Atlas Project, Director of the UCSD Interfaces Graduate Training Program and the Interdisciplinary Ph.D. Specialization in Multi-Scale Biology. He served as Vice Chair of the Bioengineering Department from 2002 to 2005 and Chair from 2005 to 2008. He is also a member of Qualcomm Institute, the Center for Research on Biological Systems, and a Senior Fellow of the San Diego Supercomputer Center.
Dr. McCulloch was educated at the University of Auckland, New Zealand in Engineering Science and Physiology receiving his Ph.D. in 1986. Dr. McCulloch was an NSF Presidential Young Investigator and is a Fellow of the American Institute for Medical and Biological Engineering and a Fellow of the Cardiovascular Section of the American Physiological Society. He has served on the Board of Directors of the Bio-Medical Engineering Society, and is currently Associate Editor of PLoS Computational Biology. He also serves on the Executive Council of the International Union of Physiological Sciences.
Dr. McCulloch’s lab uses multi-scale engineering approaches to help understand, diagnose and treat heart diseases. They use experimental and computational models to investigate the relationships between the cellular and molecular structure of cardiac muscle and the electrical and mechanical function of the whole heart during ventricular remodeling, heart failure and arrhythmia. Genetically engineered mice are an important model system for developing and validating these computational models. Important phenotyping techniques in the mouse include optical electrical mapping, isolated muscle mechanics testing and magnetic resonance imaging. A major area of research in the lab has been the role of cardiac myocyte mechanotransduction mechanisms in the pathogenesis of ventricular hypertrophy and dilated cardiomyopathy. The lab is also developing new methods to generate patient-specific models of the failing heart for clinical use and licensed technologies to startup companies.
He is a Principal Investigator of the National Biomedical Computation Resource and the Cardiac Atlas Project, Director of the UCSD Interfaces Graduate Training Program and the Interdisciplinary Ph.D. Specialization in Multi-Scale Biology. He served as Vice Chair of the Bioengineering Department from 2002 to 2005 and Chair from 2005 to 2008. He is also a member of Qualcomm Institute, the Center for Research on Biological Systems, and a Senior Fellow of the San Diego Supercomputer Center.
Dr. McCulloch was educated at the University of Auckland, New Zealand in Engineering Science and Physiology receiving his Ph.D. in 1986. Dr. McCulloch was an NSF Presidential Young Investigator and is a Fellow of the American Institute for Medical and Biological Engineering and a Fellow of the Cardiovascular Section of the American Physiological Society. He has served on the Board of Directors of the Bio-Medical Engineering Society, and is currently Associate Editor of PLoS Computational Biology. He also serves on the Executive Council of the International Union of Physiological Sciences.
Dr. McCulloch’s lab uses multi-scale engineering approaches to help understand, diagnose and treat heart diseases. They use experimental and computational models to investigate the relationships between the cellular and molecular structure of cardiac muscle and the electrical and mechanical function of the whole heart during ventricular remodeling, heart failure and arrhythmia. Genetically engineered mice are an important model system for developing and validating these computational models. Important phenotyping techniques in the mouse include optical electrical mapping, isolated muscle mechanics testing and magnetic resonance imaging. A major area of research in the lab has been the role of cardiac myocyte mechanotransduction mechanisms in the pathogenesis of ventricular hypertrophy and dilated cardiomyopathy. The lab is also developing new methods to generate patient-specific models of the failing heart for clinical use and licensed technologies to startup companies.
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Lisa Pankewitz, Kristian G Hustad,Sachin Govil,James C Perry,Sanjeet Hegde, Renxiang Tang,Jeffrey H Omens,Alistair A Young,Andrew D McCulloch, Hermenegild J Arevalo
Medical Image Analysis (2024): 103091-103091
Sutton R Fox, Avinash Toomu, Kelly Gu,Jessica Kang,Kevin Sung,Frederick T Han,Kurt S Hoffmayer,Jonathan C Hsu,Farshad Raissi, Gregory K Feld,Andrew D McCulloch,Gordon Ho,
Journal of cardiovascular electrophysiology (2024)
crossref(2024)
The Journal of general physiologyno. 6 (2023)
Medicine and Science in Sports and Exerciseno. 9S (2023): 739-739
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