| 505 |
0 |
|
|a 1. Introduction, Glenn R. Gaudette & Ira S. Cohen -- Section 1: Stem Cells for Regeneration of Mechanical Function. - 2. Inducing embryonic stem cells to become cardiac myocytes, Alexander M. Becker, Michael Rubart and Loren J. Field -- 3. Regenerating function in vivo with myocytes derived from embryonic stem cells, Priya R. Baraniak and Todd C. McDevitt -- 4. Excitation-contraction coupling, functional properties, autonomic and hormonal regulation in human embryonic stem cells-derived cardiomyocytes, Oshra Sedan and Ofer Binah -- 5. Embryonic stem cell derivatives for cardiac therapy: advantages, limitations and long term prospects, Michal Weiler-Sagie and Lior Gepstein.-6. Methods for Differentiation of Bone Marrow-Derived Stem Cells into Myocytes, Shinji Makino and Keiichi Fukuda -- 7. Homing, Survival, and Paracrine Effects of Bone Marrow Derived Stem Cells. Sergey Doronin -- 8. Bone marrow cell therapy after myocardial infarction: What have we learned from the clinical trials and where are we going?, Kai C. Wollert -- 9. Evidence for the existence of resident cardiac stem cells, Isotta Chimenti, Roberto Gaetani, Lucio Barile, Elvira Forte, Vittoria Ionta, Francesco Angelini, Elisa Messina and Alessandro Giacomello -- 10. Multiple sources for cardiac stem cells and their cardiogenic potential, Antonio Paolo Beltrami, Daniela Cesselli, and Carlo Alberto Beltrami -- 11. Skeletal muscle stem cells in the spotlight: the satellite cell, Zipora Yablonka-Reuveni and Kenneth Day -- 12. Regenerating Mechanical Function in vivo with Skeletal Myoblasts, Todd K. Rosengart and Muath Bishawi -- 13. Methods for inducing pluripotentcy, Raymond L. Page, Christopher Malcuit and Tanja Dominko -- 14. Inducible Pluripotent Stem Cells for Cardiac Regeneration, Naama Zeevi-Levin and Joseph Itskovitz-Eldor -- 15. Induced Pluripotent Cells for Myocardial Infarction Repair, Timothy J. Nelson and Andre Terzic -- Section 2: Stem Cells for Regeneration of Electrical Function -- 16. Substrates of cardiac Re-entrant Arrhythmias: the Possible Role of Tissue Regeneration and Replacement, André G. Kléber -- 17. Integration of stem cell into the cardiac synsitium: formation of gap junctions, Peter R. Brink, Ira S. Cohen and Richard T. Mathias -- 18. Bradyarrhythmia therapies: the creation of biological pacemakers and restoring AV node function, Richard B. Robinson -- 19. Tachyarrhyhmias therapies: approaches to atrial fibrillation and post-infarction ventricular tachycardia and fibrillation, J. Kevin Donahue and Kenneth R. Laurita -- 20. Long term prospects for arrhythmia treatment: advantages and limitations of gene and cell therapies, Michael R. Rosen -- Section 3: Regenerating Cardiac Tissues -- 21. Regenerating Blood Vessels, Tracy A. Gwyther and Marsha W. Rolle -- 22. Regenerating Heart Valves, Benedikt Weber and Simon P. Hoerstrup -- 23. Tissue engineering strategies for cardiac regeneration, Amandine F. G. Godier-Furnémont, Yi Duan, Robert Maidhof and Gordana Vunjak-Novakovic -- Section 4: Technial Issues for Stem Cell Therapy in the Heart -- 24. Methods of Cell Delivery for Cardiac Repair, Sarah Fernandes and Hans Reinecke -- 25. Tracking of stem cells in vivo, Yingli Fu and Dara L. Kraitchman -- 26. Assessing Regional Mechanical Function after Stem Cell Delivery, Jacques P. Guyette and Glenn R. Gaudette.
|