General Properties of Cardiac Muscle

1. General Properties of Cardiac Muscle

2. Fig Heart • Fig 10-1

3. Fig Microscopic Structure of Cardiac Muscle • Fig 9-2

4. EM of muscle • FIg 24-2

5. Cardiac muscle • Atrial muscle • Ventricular muscle • Specialized excitatory and conductive muscle

6. Properties of myocardial cells • Automaticity (Chronotropic property) • Conductivity (Dromotropic property) • Contractivity (Inotropic property) • Excitability (Bathmotropic property)

7. Fig automaticity • fig 10-2

8. fig automaticity • FIg 23-7

9. Automaticity (Chronotropic property) • Pacemaker cell • SA node, AV node and Purkinje fiber • Slow diastolic depolarization • Follower cell • bundle of His, ventricular muscle, et al. • Ion channels • Fast Na+ channel • Slow Ca2+-Na+ channel • K+ channel • Resting membrane potential (RMP) • Maximal diastolic potential (MDP) • Threshold potential (TP)

10. Fig regulation of automaticity • handbook 167

11. Regulation of Automaticity • Maximal diastolic potential • Decreased by acetylcohline • Rate of diastolic depolarization • Decreased by acetylcholine • Increased by norepinephrine • Threshold potential

12. Fig Stannius ligature • page 5

13. Conductivity(Dromotropic property) • Sinoatrial (SA) node • Internodal tract • Atrioventricular (AV) node • Bundle of His (AV bundle) • Bundle branches (left and right) • Purkinje fiber • Ventricular muscle

14. Sinoatrial (SA) node • Junction of superior vena cava and right atrium • 8 x 8 x 2 mm3 • Innervations of sympathetic nerve and parasympathetic nerve

15. Internodal Tract • Anterior internodal tract • Bachmann`s bundle (to left atrium) • Middle internodal tract • Posterior internodal tract

16. Fig internodal tract • Fig page 7

17. Atrioventricular (AV) node • Interatrial septum, near coronary sinus • 22 x 10 x 3 mm3 • AV conduction delay • AN (upper; atrionodal zone) • N (middle zone of nodal cell) • NH (Lower; nodal-His zone)

18. Fig AV node • Page 7

19. AV node Slow channel Fast channel Automaticity Effect of (Ca2+-Na+ channel) (Na+ channel) Ca2+ blocker AN 60% 40% yes + N 80% 20% no ++ NH 60% 40% yes +

20. Table conduction speed • table Ganong 28-1

21. AV conduction delay • Allows time for the atria to emty their contents into ventricle • Smaller fiber diameter • Less intercalated disc • Poor differentiation • Regulated by sympathetic and parasympathetic nerves (negative and positive dromotropic effect)

22. Fig Accessory pathway • page 10

23. Fig Discharge of ventricular muscle • fig Gan 28-4

24. Intercalated Disc • Cell membrane seperate but also connect cardiac muscle cells • Gap junction • Low resistance (5 ohm cm2 vs 2000 ohm cm2) • Functional syncytium

25. Fig functional syncytium • Fig 11

26. fig excitability • fig handbook 167

27. Contractility (Inotropic property) • Ventricle, Ventricular muscle • Correlated to intracellular concentration of Ca2+ • Sympathetic stimulation • Inotropic drugs

28. Fig inotropic property • Gan 29-8

29. fig inotropic property • fig 24-5

30. Excitability (Bathmotropic property) • Full recovery time (FRT) • Absolute refractory period (ARP) • Inactivation of fast Na+ channels • Relative refractory period (RRP) • Part of fast Na+ channels are recovered to resting stage • Supernormal period (SNP) • Most of fast Na+ channels are recovered • Higher membrane potential

31. Fig excitability • Page 12+13

32. Fig extrasystolic contraction • page 14

33. Extrasystolic contraction • Premature contraction • Compensatory period • Extopic focus • Ischemia • Stimulants (Nicotine, Caffeine) • Lack of sleep • Stress, anxiety

34. Cardiac Energetics Net energy change = disappearance of internal (chemical) energy = appearance of external energy (heat and work) Energy source of cardiac muscle Carbohydrate Non-carbohydrate Glucose 18% Fatty acid 67% Lactate 6% Amino acid 6 % Ketone 4 % Similar to red skeletal muscle

35. Myocardial cells and autonomic nervous system Sympa. Para. Chronotropism (frequency) + - Dromotropism (conduction) + - Inotropism (contractility) + Bathmotropism (excitability) + -