Cardiac electrophysiology : from cell to bedside /
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| Edition: | 2nd ed. |
|---|---|
| Imprint: | Philadelphia : Saunders, c1995. |
| Description: | xxxiii, 1612 p., [8] p. of plates : ill. (some col.) ; 29 cm. |
| Language: | English |
| Subject: | |
| Format: | Print Book |
| URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/1740852 |
Table of Contents:
- Part I. Structural and Molecular Bases of Ion Channel Function
- Chapter 1. Sodium Channels
- Chapter 2. Cardiac Calcium Channels
- Chapter 3. Voltage Regulated Potassium Channels
- Chapter 4. Intracellular Signaling and Regulation of Cardiac Ion Channels
- Chapter 5. Membrane Pumps and Exchangers
- Chapter 6. Sarcoplasmic Reticulum Ion Channels
- Chapter 7. HCN Channels: From Genes to Function
- Chapter 8. Molecular Organization and Regulation of the Cardiac Gap Junction Channel Connexin43
- Part II. Biophysics of Cardiac Ion Channel Function
- Chapter 9. Biophysics of Normal and Abnormal Cardiac Sodium Channel Function
- Chapter 10. Gating of Cardiac Delayed Rectifier K+ Channels
- Chapter 11. Heart Mechanoelectric Transduction
- Chapter 12. Pacemaker Channels and Normal Automaticity
- Chapter 13. Biophysical Properties of Inward Rectifier Potassium Channels
- Chapter 14. Homomeric and Heteromeric Gap Junctions
- Part III. Intermolecular Interactions and Pharmacology of Cardiac Ion Channels
- Chapter 15. Pharmacology of the Cardiac Na Channel
- Chapter 16. Pharmacology of L-type and T-type channels in the heart
- Chapter 17. KCNQ1/KCNE1 Macromolecular Signaling Complex: Channel Microdomains and Human Disease
- Chapter 18. Drug-induced Channelopathies
- Chapter 19. Prospects for Pharmacological Targeting of Gap Junction Channels
- Part IV. Ion Channels and Cellular Electrophysiology
- Chapter 20. Heterogeneous expression of Potassium channels
- Chapter 21. Gap Junction Distribution and Regulation in the Heart
- Chapter 22. Cellular Mechanisms of Sinoatrial Activity
- Chapter 23. Mechanisms of AV nodal Excitability and Propagation
- Chapter 24. Intercellular Communication and Impulse Propagation
- Chapter 25. Cardiac tissue architecture Determines speed and safety of propagation
- Chapter 26. Restitution, Repolarization and Alternans as Arrhythmogenic Substrate
- Chapter 27. Mechanoelectric Transduction/Feedback: Prevalence and Pathophysiology
- Part V. Models of Cardiac Excitation
- Chapter 28. Ionic mechanisms of cardiac electrical activity: A Theoretical Approach
- Chapter 29. Two-dimensional propagation in cardiac muscle
- Chapter 30. Three-dimensional Propagation in Mathematical Models
- Chapter 31. Modeling Cardiac Defibrillation
- Part VI. Neural Control of Cardiac Electrical Activity
- Chapter 32. Molecular and cellular bases of ß- and ¿-adrenergic modulation of cardiac rhythm
- Chapter 33. Nerve Sprouting and Cardiac Arrhythmias.
