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- 07:00am - 08:00am: Breakfast (on your own at your dorm, hotel or around campus)
- 08:00am - 05:00pm Registration (Sadler Center)
- 08:30am - 09:30am Plenary Presentation
- Jennie Larkin (chair) – Panel Discussion - Have a Heart: Finding Funding for Your Research
- Jennie Larkin, PhD – NHLBI/NIH
- Peter Lyster, PhD – NIGMS/NIH, formerly from NASA
- Ron White, PhD – Dean, South Dakota School of Mines & Technology, formerly from NASA
- NSF - pending
- 09:30am - 10:00am Coffee Break
- 10:00am - 12:00n Parallel Paper Sessions
- John “Wes” Cain (chair) – Cardiac Electrophysiology Modeling Part 2
- Niels Otani, PhD, Cornell University, USA - New ideas for terminating tachyarrhythmias derived from the dynamics of action potential propagation
- Alena Talkachova, PhD, University of Minnesota, USA - Towards prediction of the local onset of alternans in the heart
- Yohannes Shiferaw, PhD, California State Northridge, USA - Statistics of calcium mediated triggered activity in cardiac tissue
- Shu Dai, PhD, Mathematical Biosciences Institute, Ohio State University, USA - Using noise to determine cardiac restitution with memory
- George Billman (chair) – Mechanisms Responsible for Ventricular Fibrillation
- George Billman, PhD, Ohio State University, USA – Cardiac electrotonic remodeling and susceptibility to ventricular fibrillation
- Cynthia Carnes, PhD, Ohio State University, USA – Repolarization reserve and susceptibility to ventricular fibrillation
- Sandor Gyorke, PhD, Ohio State University, USA – Myocyte calcium handling, reactive oxygen system and ventricular fibrillation
- Vadim Fedorov, PhD, Ohio State University, USA – Electrophysiological mechanisms of anti-arrhythmic protection during hypothermia in winter hibernating versus non-hibernating mammals
- 12:00n - 02:00pm Lunch and Poster Session -- Posters 21-33
Ryan Carpenter |
Modeling the effects of calsequestrin's role in regulation of local calcium release and depletion in cardiac myocytes. |
Ryan M Kammeyer |
Development of a mathematical model for CPR incorporating cardiovascular and gas exchange dynamics |
Saptarshi Kar |
A kinetic model of eNOS biochemical pathways for nitric oxide and superoxide production |
Shamim Nemati |
Estimation of respiratory control system parameters from spontaneous breathing |
Sunil Kandel |
The upper limit of vulnerability and virtual electrodes in defibrillation of the heart |
Tuan M. Hoang-Trong |
Computational study of Ca-based arrhythmias at 3D spatial whole-cell level |
Xiaobing Chen |
Micro-scale modeling of blood flow in three-dimensional hollow fiber membrane bundle for artificial lungs |
Yan Hao |
A Langevin description of the stochastic dynamics of calcium release sites composed of multiple intracellular channels |
Yinglan Gong |
Efficient and accurate tracing of phase singularities in cardiac reentry simulation |
Yinyun Li |
Neurofilament kinetics and axon caliber in mouse optic nerve |
Young-Seon Lee |
Regression analysis of a stochastic Ca2+ model |
Yuanfang Xie |
RyR distribution heterogeneity potentiates calcium wave initiation and propagation |
Jacques Beaumont |
New perspectives on the initiation of premature beat in genetically altered cardiac tissue |
Ghanim Ullah |
Data-driven Model of a Modal Gated Ion Channel: The Inositol 1,4,5-Trisphosphate Receptor in Insect Sf9 Cells |
Zana Coulibaly |
Insight into spontaneous recurrent calcium waves in a 3D cardiac cell based an analysis of a 1D deterministic model |
Shijia Zhao |
Deployment of self-expanding wire stents in an artery with moderate stenosis |
Divya Swaminathan |
A simple six state model of the IP3 receptor: a modeling study |
Jussi Koivumaki |
Excitation-contraction coupling changes of human atrial myocytes induced by atrial fibrillation |
Guoguang Su and Ramana M. Pidaparti |
Biomechanical and Biofluid Modeling for the Lower Respiratory Tract
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- 02:00pm - 03:30pm Parallel Paper Sessions
- Judith Pérez-Velázquez (chair) – Cardiovascular and Pulmonary Fluid Dynamics
- Rebecca Shipley, PhD, University of Oxford, England – Theoretical models of blood flow in the vasculature: Combining discrete and continuum approaches
- Jennifer Siggers, PhD, Imperial College of London, England – Mathematical model of blood flow in the liver
- Sevil Payvandi, PhD, Imperial College of London, England – Mathematical modeling of flow in curved, compliant arteries
- Dwain Eckberg (chair) – The Baroreflex
- John Karemaker, PhD, AMC The Netherlands – The baroreflex: biology vs. computer modeling
- Peter Andriessen, PhD, The Netherlands - Autonomic cardiovascular regulation in the newborn
- Claude Julien, PhD, Université of Lyon, France - Modeling the baroreflex control of blood pressure variability
- John Delos, PhD, William & Mary, USA – Heart rate and blood pressure fluctuations of premature infants
- 03:30pm - 04:00pm Break
- 04:00pm - 06:00pm Parallel General Paper Sessions
- Ramana M. Pidaparti (chair) - Modeling
- Ling Xia, PhD, Zhejiang, China – Introduction of cardiom-CN: Whole heart model with detailed anatomic structure and electrophysiology
- Christian Zemlin, PhD, Old Dominion University, USA – Anchoring of drifting spiral and scroll waves to unexcitable inclusions
- Thach Nguyen, MD, Indiana University School of Medicine, USA – Computational shear stress before and after stenting of coronary bifurcation lesions
- Saleet Jafri (chair)- Modeling Normal and Pathological Calcium Signalling Pathways in the Heart – Part 3
- Leighton Izu, PhD, University of California Davis, USA - Molecular Topography and Calcium Dynamics
- Jeremy Rice, PhD, IBM T.J. Watson Research Center, USA - Myofilament modeling: Think globally but act locally
- David Christini, PhD, Cornell University School of Medicine, USA - The dynamical underpinnings of sub-cellular calcium alternans in cardiac myocytes
- Ruëdiger Thul, PhD, University of Nottingham, United Kingdom - Calcium alternans in a piecewise linear model of cardiac myocytes
- 06:00pm - Whenever Dinner on your own around town
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