Cv winslow, Raimond L. 2-18-2012 Curriculum Vitae



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Winslow, R. L., Scollan, D. F., Holmes, A., Yung, C. K., Zhang, J. and Jafri, M. S. (2000). Electrophysiological modeling of cardiac ventricular function: From cell to organ. Ann. Rev. Biomed. Eng., 2: 119-155.

  • Holmes, A., Scollan, D., and Winslow, R. L. (2000). Direct histological validation of diffusion tensor MRI in formaldehyde-fixed myocardium. Magn. Res. Med., 44(1):157.

  • Kohl, P, Noble, D., Winslow, R. L., and Hunter, P. (2000). Computational modeling of biological systems: Tools and Vision. Phil. Trans. R. Soc. Lond. A. 358: 1-32.

  • Rice, J. J., Jafri, S., and Winslow, R. L. (2000). Modeling short-term interval-force relations in cardiac muscle. Am. J. Physiol. Heart Circ. Physiol., 278(3): H913-H931.

  • Rice, J. J., Jafri, M. S., and Winslow, R. L. (1999). Modeling gain and gradedness of Ca2+ release in the functional unit of the cardiac diadic space. Biophys. J., 77(4): 1871-1884.

  • Rice, J. J., Winslow, R. L. and Hunter, W. C. (1999). Comparison of putative cooperative mechanisms in cardiac muscle: length dependence and dynamic responses. Am. J Physiol., 276(5):H1734-H1754.

  • Irvine, L., Jafri, M. S., and Winslow, R. L. (1999). Cardiac sodium channel Markov model with temperature dependence and recovery from inactivation. Biophys. J., 76(4): 1868-1885.

  • Steinmetz, P. and Winslow, R. L. (1999). Optimal detection of flash intensity differences using rod photocurrent observations. Neural Computation, 11(5): 1097-1111.

  • Winslow, R. L., Rice, J. J., Jafri, S., Marban, E., and ORourke, B. (1999). Mechanisms of altered excitation-contraction coupling in canine tachycardia-induced heart failure II: Model Studies. Circ. Res. 84: 571-586.

  • Scollan, D., Holmes, A., Zhang, J., Winslow, R. L. (1999). Reconstruction of myocardial architecture at high resolution using diffusion tensor MRI. Proc. 1st Joint BMES/EMBS Conf. Oct. 13-16, Atlanta GA, 1071.

  • Scollan, D. F., Holmes, A., Winslow, R. L., and Forder, J. (1998). Histological validation of myocardial microstructure obtained from diffusion tensor magnetic resonance imaging. Am. J. Physiol. 275: H2308-H2318.

  • Rice, J. J., Jafri, M. S., and Winslow, R. L. (1998). Modeling short-term interval-force relations in cardiac muscle. Ann. N. Y. Acad. Sci. 853:345-349.

  • Winslow, R. L., Rice, J. J., and Jafri, S. (1998). Modeling the cellular basis of altered excitation-contraction coupling in heart failure. Prog. Biophys. Mol. Biol., 69(2-3): 497-514.

  • Jafri, M. S., Rice, J. J., and Winslow, R. L. (1998). Cardiac Ca2+ dynamics: the roles of ryanodine receptor adaptation and sarcoplasmic reticulum load. Biophys. J., 74(3): 1149-1168.

  • Zhang,H., Winslow, R. L., and Holden, A. V. (1998). Re-entrant excitation initiated in models of inhomogeneous atrial tissue. J. Theor.Biol. 191(3): 279-287.

  • Rice, J. J., Winslow, R. L., Dekanski, J., and McVeigh, E. (1998). Model studies of the role of mechano-sensitive currents in the generation of cardiac arrhythmias. J Theor Biol. 190(4): 295-312.

  • Maryak, JL, Smith, RH, and Winslow, R.L. (1998). Modeling cardiac ion channel conductivity: Model fitting via simulation. 1998 Winter Simulation Conference Proceedings, Vols. 1-2, pgs. 1587-1590.

  • Irvine, L. and Winslow, R. L. (1996). Numerical Studies of Use-Dependent Block of Cardiac Sodium Channels by Quinidine on Spiral Wave Reentry. Computers in Cardiology 1996, pgs. 613-616.

  • Demir, S.S., O'Rourke, B., Tomaselli, G.F., Marban, E., and Winslow, R.L. (1996). Action Potential Variation in Canine Ventricle: A Modeling Study. Computers in Cardiology 1996, pgs. 221- 224.

  • Kohl, P., Varghese, A., Hyde, J., Noble, D., and Winslow, R.L. (1996). Computational study of effects of cardiac Mechano-sensitive fibroblasts on heart rhythm. Exp. Clin. Cardiol. 1(2): 80-86.

  • Lai, Y.C., and Winslow, R.L. (1995). Geometric properties of the chaotic saddle responsible for supertransients in spatiotemporal chaotic systems. Physical Review Letters, 74(26): 5208-5211.

  • Noble, D., LeGuennec, J.Y., and Winslow, R.L. (1995). Functional role of Na-Ca exchange in normal and abnormal cardiac rhythm. Ann. N. Y. Acad. Sci. 34D(1057): 511-520.

  • Winslow, R.L., Cai, D., Varghese, A., Lai, Y.C. (1995). Generation and propagation of normal and abnormal pacemaker activity in network models of cardiac sinus node and atrium, Chaos, Solitons, and Fractals, 5(3-4): 491-512.

  • Winslow, R.L., and Varghese, A. (1994). Modeling the functional role of SA node - atrial interdigitation. Computers in Cardiology 1994, 649-652.

  • Varghese, A. and Winslow, R.L. (1994). Ion Accumulation and Arrhythmogenesis in Networks of Cardiac Cells. Computers in Cardiology 1994, pgs. 397-400.

  • Lai, Y.C. and Winslow, R.L. (1994), Fractal basin boundaries in coupled map lattices. Physical Review E 50(5): 3470-3473.

  • Lai, Y.C., and Winslow, R.L. (1994). Riddled parameter space in spatiotemporal chaotic dynamical systems. Physical Review Letters, 72(11): 1640-1643.

  • Lai, Y.C. and Winslow, R.L. (1994). Extreme sensitive dependence on parameters and initial conditions in spatio-temporal chaotic dynamical systems. Physica D: Nonlinear Phenomena, 74(3-4): 353-371.

  • Varghese, T., and Winslow, R.L. (1994). Dynamics of abnormal pacemaking activity in cardiac Purkinje fibers. J. Theo. Biol., 168(4): 407-420.

  • Lai, Y.C., Winslow, R.L., and Sachs, M.B. (1994). The functional role of excitatory and inhibitory interactions in chopper cells of the antero-ventral cochlear nucleus, Neural Computation, 6: 1126-1139.

  • Lai, Y.C., Winslow, R.L., and Sachs, M.B. (1994). A model of selective processing of auditory-nerve inputs by stellate cells of the antero-ventral cochlear nucleus. J. Comp. Neurosci.,1(3): 167-194.

  • Cai, D., Winslow, R.L., and Noble, D. (1994). Effects of gap junction conductance on dynamics of sinoatrial node cells: Two-cell and large-scale network models. IEEE Trans. BME, 41(3): 217-231.

  • Winslow, R.L., Cai, D., and Lai, Y.C. (1994). Network models of the SA node. Proceedings IFAC Symp. Modeling and Control in Biomedical Systems, pgs. 86-91.

  • Winslow, R.L., Cai, D., and Lai, Y.C. (1994). Factors controlling generation and propagation of pacemaker potentials in network models of mammalian SA node. Proc. of Supercomputing 1994, pg. 560-569.

  • Winslow, R.L., Varghese, A., Noble, D., Adlakha, C., and Hothyta, A. (1993). Generation and propagation of ectopic beats induced by spatially localized Na-K pump inhibition in atrial network models. Proc. R. Soc. Lond. B., 254(1339): 55-61.

  • Cai, D., Lai, Y.C., and Winslow, R.L. (1993) Complex dynamics in coupled cardiac pacemaker cells. Physical Review Letters, 71(15): 2501-2504.

  • Varghese, T. and Winslow, R.L. (1993). Dynamics of the calcium subsystem in cardiac Purkinje fibers. Physica D: Nonlinear Phenomena, 68: 364-386.

  • Winslow, R.L., Kimball, A., Varghese, A., and Noble, D. (1993). Simulating cardiac sinus and atrial network dynamics on the Connection Machine. Physica D: Nonlinear Phenomena, 64: 281-298.

  • Cai, D., Lai, Y.C., and Winslow, R.L. (1993). Periodicity, quasiperiodicity, and chaos in coupled cardiac pacemaker cells. Proc. SPIE International Symposium on Chaos in Biology and Medicine, 2036:10-21.

  • Noble, D., Winslow, R.L., Kimball, A., Varghese, A. (1992). Modeling the heart on the Connection Machine. Proc. of the Fourth International Exhibition and Conference on High Performance Computing, pgs. 10-17.

  • Cai, D., Winslow, R.L., and Noble, D. (1992). Effects of gap junction conductance on oscillation properties of coupled sino-atrial node cells. Computers in Cardiology 1992, pgs. 579-582.

  • Winslow, R.L. and Knapp, A.G. (1991). Dynamic models of the retinal horizontal cell network. Prog. Biophys. Molec. Biol., 56: 107-134.

  • Noble, D., Denyer, J., Winslow, R. L., and Kimball, A. (1991). Modeling of cardiac rhythm: From single cells to massive networks. Proc. 18th Intern. Symp. Cardiovasc. Electrophysiol. Korean Academy of Medical Sciences, pgs. 69-86.

  • Kimball, A.L., and Winslow, R.L. (1990). Modeling the retinal horizontal cell layer on a massively parallel processor: A detailed neural network model. Proceedings of the Second IEEE Symposium on Parallel and Distributed Processing, pgs. 792-798.

  • Winslow, R.L., and Ma, S. (1990). Bifurcation analysis of nonlinear retinal horizontal cell models. II. Network properties. J. Neurophysiol. 64(1): 248-261.

  • Sachs, M. B., Winslow, R. L., and Sokolowski, B. (1989). A computational model for rate-level functions from cat auditory-nerve fibers. Hearing Res. 41: 61-69.

  • Winslow, R. L. (1989). Bifurcation analysis of nonlinear retinal horizontal cell models. I. Properties of isolated cells. J. Neurophysiol. 62(3): 738-749.

  • Winslow, R. L., Miller, R. F., and Ogden, T. E. (1989). The functional role of spines in the retinal horizontal cell network. Proc. Natl. Acad. Sci. USA, 80: 387.

  • Winslow, R. L., and Miller, R. F. (1989). An experimental and theoretical study of the effects of non-uniform membrane resistance on the shape of single-cell charging curves. Neuroscience. 29(3): 761-771.

  • Winslow, R. L. and Sachs, M. B. (1988). Single-tone intensity discrimination based on auditory-nerve rate responses in backgrounds of quiet, noise, and with stimulation of the crossed olivocochlear bundle. Hearing Res., 35(2-3): 165-189, 1988.

  • Winslow, R. L. and Sachs, M. B. (1987). Effect of electrical stimulation of the crossed olivocochlear bundle on auditory nerve responses to tones in noise. J. Neurophysiol. 57(4): 1002-1021.


    Book Chapters

          1. Bober, M. and Winslow, R. L. (2006). Developing Computational Resources in Cardiac Gene Expression. In Methods in Molecular Biology, vol 366: Cardiac Gene Expression: Methods and Protocols. Edited by: J. Zhang and G. Rokosh. Humana Press Inc., Totowa, NJ.

          2. Winslow, R. L., Greenstein, J. L. and Helm, P. A. (2005), Biophysical Models of the Cardiovascular System. In: Systems Biology, Edts. I. Rigoutsos and G. Stephanopoulos, Springer Verlag Series on Advances in Biochemical Engineering/Biotechnology.

          3. Winslow, R. L., Hinch, R. and Greenstein, J. L. (2005). Mechanisms and Models of cardiac Excitation-Contraction Coupling. In: Synapses and Muscle. Edt. J. Sneyd and A. Friedman,  Springer-Verlag.

          4. Winslow R. L. (2004). "Proteomics". The Wiley Interscience Encyclopedia of Genetics, Genomics, Proteomics and Bioinformatics, Jorde L. B., P. F. R. Little, M. Dunn and S. Subramaniam, Chichester, UK, John Wiley and Sons, Ltd., 3700

          5. Winslow, R. L. (2003). Modeling Cardiac Function. In: Complex Systems in Biomedicine, Eds. T. Deisboeck, T. Kepler, Y. Kresh, Kluwer Academic Press, New York, NY 10013

          6. Winslow, R. L. (2003). Cellular Models. In: Databasing the Brain: Data to Knowledge, Eds. S. Subramaniam and S. Koslow, John Wiley & Sons, Ltd.

          7. Noble, D. and Winslow, R. L. (1994). Reconstructing the heart: Network models of SA node - atrial interactions. In: Computational Biology of the Heart, Eds. AV Panfilov and AV Holden, Academic Publishers: John Wiley.

          8. Noble, D., Brown, H. F., and Winslow, R. L. (1993). Propagation of pacemaker activity: Interaction between pacemaker cells and atrial tissue. In: Pacemaker Activity and Intercellular Communication, Edts. W. Giles and J. D. Huizinga, CRC Press.

          9. Noble, D., Denyer, J. C., Brown, H. F., Winslow, R. L., and Kimball, A. (1992). Cardiac pacemaker activity: From single cells to modelling the heart. In: Heart Function in Health and Disease. B. Ostadal, edt. Kluwer Academic Press Publishers, Assinippi Park, MA.

          10. Noble, D., Denyer, J. C., Brown, H. F., Winslow, R. L., and Kimball, A. (1992). Modelling of cardiac rhythm: from single cells to massive networks. In: Coupled Oscillating Neurons, Eds. J. G. Taylor and C. L. T. Mannion, Springer-Verlag.

          11. Winslow, R.L., Barta, P.E. and Sachs, M.B. (1987). Rate coding in the auditory-nerve. In: Auditory Processing of Complex Sounds. C.S. Watson and W. Yost, eds., New Jersey: Lawrence Erlbaum Associates, pp. 212-224.

          12. Sachs, M.B., Winslow, R.L. and Blackburn, C.C. (1986). Representation of speech in the auditory periphery. In: Functions of the Auditory System, S. Hassler, ed., New York: John Wiley and Sons, Inc.


    Patents

    Winslow, R. L., Rounds, D., and Scollan, D. "Computational System and Method for Modeling the Heart", US-5947899, issued.


    Prior Grants

    1. Principal Investigator, "An Experimental and Theoretical Study of the Dynamics of a Simple Neural System", July 1, 1987 - June 30, 1990, The Whitaker Foundation, $149,999, TE 41%.

    2. Principal Investigator, "A Computer Model of the Retinal Horizontal Cell Network", Grant in Aid of Research, The University of Minnesota Graduate School, October, 1988 - September, 1989, $11,500.

    3. Principal Investigator, "Computer Models of Locally Connected Cellular Networks", 3M Non-Tenured Faculty Grant Award, $30,000, 1990 - 1991.

    4. Principal Investigator, "Models of the Processing of Acoustic Stimuli in Stellate Cells of the Antero-Ventral Cochlear Nucleus" Office of Naval Research, Single Neuron Computation Initiative, 11/1/91 - 10/30/94, $303,066.

    5. Principal Investigator, "Computational Models of the Sino-Atrial Node Implemented on a Massively Parallel Processor" NSF Computational Biology Activities, BIR 91- 17874, 7/1/92 – 6/30//95 $272,500.

    6. Principal Investigator, "Single Neuron Computation Conference", Office of Naval Research, $18,394, awarded March 1993, conference on May 23-26, 1993.

    7. Principal Investigator, "Modeling Acoustic Processing in the Ventral Cochlear Nucleus on the CM-5 Massively Parallel Processor", Office of Naval Research, Augmentation Awards for Science and Engineering Research Training, 9/1/93-8/31/96, $73,351.

    8. Co-Principal Investigator, "Supercomputer for Modeling in Biomedical Engineering", NCRR-BRS Shared Instrumentation Grant 5/18/94 - 5/31/95 $399, 543 (PI: E. Young)

    9. Principal Investigator, "Effects of Sodium Overload on Cardiac Single Cell and Network Dynamics", NSF Division of Advanced Scientific Computing ASC-9404844 $40,030

    10. Principal Investigator, "Models of Dynamic Interactions between Sinus Node and Atria", NSF Computational Biology Activities, $250,000, 7/1/95 - 6/30/97

    11. Principle Investigator, "Three-Dimensional Computational Models of Cardiac Atria and Ventricles" Physiome Sciences Inc. 1/1/96 - 12/31/97 $256,000

    12. Principle Investigator, “Research and Equipment Loan Agreement” Physiome Sciences Inc. 1/1/96 - 12/31/98 $471,777

    13. Principle Investigator, Computer Models of the Cardiac Ventricles Based on In Vivo Measurement of Fiber Organization Using Magnetic Resonance Imaging: Preliminary Algorithm Development, Physiome Sciences, Inc., 7/1/97 6/30/99, $127,636, 17% T&E

    14. Principal Investigator, Computational Modeling of Cardiac Microanatomy, Physiome Sciences Inc., 4/1/98 9/30/99, $82,486, 0% T&E

    15. Principle Investigator, Experimental and Modeling Study of the Cellular Basis of Arrhythmia in Heart Failure, NHLBI RO1HL60133-01, 4/1/98 3/31/01, $476,260

    16. Investigator, Biomedical Engineering at Johns Hopkins Merging Biology and Engineering to Cure Disease, Falk Foundation, 1/1/98 12/31/01, $600,000 (PI: M. B. Sachs).

    17. Principle Investigator, Addendum to Computational Modeling of Cardiac Microanatomy, Physiome Sciences Inc., 5/1/99-6/30/99, $112,497.

    18. Principal Investigator, “IBM SP-3 Night Hawk 1 Parallel Computer”, NIH/NCRR Shared Instrumentation Grant, 3/15/00 - 3/14/01, $323,968.

    19. Principal Investigator, Consortium for Integrative Modeling of Biological Systems, NIGMS Large-Scale Collaborative Projects Award Phase I, R24GM63239-01, 9/1/00 1/17/01, $25,000.

    20. Investigator, “Cross Modulation of Excitability and Ca in Heart Failure” NHLBI RO1HL61711-01 1/1/99-12/31/02 $708,680 (PI: B. ORourke)

    21. Co-Principal Investigator, “Distributed Simulation of Integrated Human Function”, NSBRI 99-02, 10/1/00 - 9/30/03 $1,094,692 (PI: J. E. Coolahan)

    22. Principal Investigator, “Modeling Core E, SCOR in Sudden Cardiac Death” NHLBI P50 HL52307 1/1/00 - 12/31/04 $434,178 (PI: E. Marban)

    23. Principal Investigator, “The Physiologic Genomics of Heart Failure”, The Falk Medical Trust, 9/1/02 - 8/31/06 $1,000,000

    24. Principal Investigator, IBM Institutes of Innovation Award, $1,140,000, 8/1/03 - 7/31/06

    25. Principal Investigator, IBM Shared University Research Grant, equipment valued at $166,626, 10/21/05.

    26. Principal Investigator, IBM Shared University Research Grant, equipment valued at $1,445,796, 8/1/03.

    27. Principal Investigator, IBM Shared University Research Grant, equipment valued at $1,500,000, 9/1/02.

    28. Principal Investigator, “Calcium Cycling and Regulation of the Cardiac AP” NHLBI RO1HL60133, 4/1/02 - 3/30/07, $800,000

    29. Principal Investigator, “Biomedical Engineering Training Program, NIH5T32 GM007057-29, 7/01/04 – 8/17/07, TDC $3,507,440

    30. Investigator, “Applied Genomics in Cardiopulmonary Disease”, NHLBI U01HL66583, 9/30/00 - 9/29/04, $14,000,000 (PI: J. Garcia)

    31. Investigator, A Biomedical Engineering Institute, The Whitaker Foundation 11/1/98-10/31/04, $17,317,790 (PI: M. B. Sachs)

    32. Principal Investigator, Anatomical and Electrical Remodeling in Heart, 10/01/02-9/30/07, RO1HL70894, $1,000,000 TDC

    33. Principal Investigator, Bioinformatics Core, Expression Profiling in Canine Models of Cardiopulmonary Disease, NHLBI RO1-HL72488, $862,655, 10/1/02-9/30/07

    34. Principal Investigator, Bioinformatics Core, The D. W. Reynolds Cardiovascular Clinical Research Center at Johns Hopkins University, $655,000, 6/1/03-5/31/07

    35. Investigator, Core F: Biomarkers/Proteomics Core, SCCOR: Ventilator-Associated Lung Injury: Molecular Approaches (PI: J. N. Garcia), NIH/NHLBI P50 HL73994-1, 5% T&E.

    36. Investigator, Cardiovascular Systems Regulation Program, NIH 7/1/01- 6/30/06 $522,701 (P.I. A. Shoukas)

    37. Principal Investigator, Algorithms for Detecting Changes in Heart Shape and Motion that Predict Risk for Sudden Cardiac Death, American Heart Association, 7/1/07 – 6/30/09, $70,000.

    38. Principal Investigator, NCRR Shared Equipment Grant, ”Large-Scale Computing Cluster for the Institute for Computational Medicine”, 7/1/08 – 6/30/09, $2,000,000

    39. Co-Director, Core C: Cellular, Molecular and Microscopy Core, “Pathobiology of Cardiac Dyssynchrony & Resynchronization” (PI: David Kass), P01-HL077180 $1,400,632, 9/15/04 – 8/31/09

    40. Director, Computational Modeling Core, Mitochondrial Function in Ischemic Heart Disease, PO1- HL081427, TDC $559,316, 8/10/05 – 6/30/10

    41. Principal Investigator, Bioinformatics Core & Technology Innovation Project 3, The Johns Hopkins University - NHLBI Proteomics Center, NO1-HV-28180, 10/1/02-6/30/10, $1,412,361.

    42. Principal Investigator, T15-HL088964 Short Course on Integrative Modeling of the Cardiac Myocyte, 4/1/07 – 3/31/11, $797, 396

    43. Principal Investigator, The Cardiovascular Research Grid, R24HL085343, $6,462,693, 1/1/07-12/31/10

    44. Investigator, SCCOR in Pulmonary Vascular Disease (PI: K. Barnes), $267,816, 1/12/07 – 12/31/11

    45. Principal Investigator, The Systems Biology of Sudden Cardiac Death, R33HL87345, Exploratory Program in Systems Biology, TDC $1,800,000; 9/1/07 – 8/31/11

    46. Principal Investigator, U54HG004028 Driving Biomedical Project Subcontract Ontology-Based Annotation of Biomedical Time-Series Data, 1/1/09 – 8/31/11, $917, 636

    47. Principal Investigator S10RR028004 Two-photon Microscope Adapted for Automated 3D Tissue Reconstruction at High Spatial Resolution, 7/1/10 – 6/30/11, NIH/NCRR $487, 647

    Active Grants

    1. Investigator, P20HL101397 (Investigator) Primary ECG-MRI Risk Stratification, 4/1/10 – 3/31/12, NIH/NHLBI, $188,887 TDCs

    2. Principal Investigator R24HL085343 The CardioVascular Research Grid, 3/7/11 – 3/06/2016, NIH/NHLBI $6,901,902 TDCs

    3. Principal Investigator RO1HL105216 Redox Modification of the Arrhythmic Substrate In Heart Failure, 4/1/11 – 12/31/2014 NIH/NHLBI $764,376 TDCs

    4. Principal Investigator RO1HL105239 Calcium-Entrained Arrhythmias, 4/1/11 – 12/31/15, $1,030,125 TDCs

    5. Principal Investigator R01HL103727 Tools for Cardiac Electrophysiological Data Dissemination and Management, 7/1/11 – 6/30/15, $1,966,442 TDCs

    Pending Grants

    1. Co-Principal Investigator, “Cloud-Computing Cardiac Radiomics” (PI Kooresh Shoghi, Washington University in St. Louis) $1,250,000 TDCs

    2. Investigator, “Personalized Shape-Based Analysis of Hypertrophic Cardiomyopathy” (PI Ron Kikinis, Harvard Brigham and Womens Hospital), 7/10/2012 – 6/30/2017, $250,000 TDCs
    Teaching

    Theoretical Foundations of Neural Modeling: Single Neurons, 1991 - 1994. Graduate level course, primary instructor

    Theoretical Foundations of Neural Modeling: Networks, 1992 - 1994. Graduate level course, primary instructor

    High Performance Computing in Biology, 1995 - 1997. Graduate level course, primary instructor

    BME 580.682 Computational Modeling of the Cardiac Myocyte, 2001 - Present. Annual graduate level course covering modeling of ion channels, membrane transporters, calcium-cycling, calcium-induced calcium-release, ion homeostasis, metabolism, intracellular signaling, and methods for mathematical and computational modeling of the cardiac myocyte. Primary instructor

    BME 580.421 Systems Bioengineering I, 1996 – present. Fall Semester Junior year undergraduate core course. Give two lectures on modeling the cardiac myocyte. Primary instructor.

    BME 580.421 Systems Bioengineering I Laboratory, 1996 – present. Fall semester Junior year undergraduate core course. Run one laboratory session on computer modeling in biology. Primary instructor.

    BME 580.223 Biological Models and Simulation Part II: Nonlinear Dynamical Systems Models in Biology, 2006- Present. Sophomore BME core course. Teach one-half of the semester, covering nonlinear systems theory and applications to modeling biological systems. Primary instructor.

     

    Trainees:

    Dr. Winslow has trained 12 post-doctoral fellows, 13 Ph.D., and 7 M.Sc. students. Nine of the post-doctoral fellows currently have faculty appointments, 1 has had faculty appointments and is currently a program director at NSF, and 3 have positions in industry. Three Ph.D. students have faculty positions, one directs space sciences at Los Alamos National Laboratory, one is a research staff member at the IBM T.J. Watson Research Center, five have positions in industry, two are practicing physicians, and one is a post-doctoral fellow. Two M.Sc. students have faculty positions, 1 is a cardiology fellow training as a clinician-scientist, and 2 have positions in industry. He currently has 6 Ph.D. and 3 M.Sc. trainees in his lab. A new post-doctroal fellow is joining the lab.

    Trainees – MSc:



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