Tuesday, July 2, 2024

Lecture 6: Cardiac Cycle Conduction

 

Lecture 6: Cardiac Cycle Conduction

Friday 5/17

 

Guiding Questions:

1. Lay out the steps of myocardial cell contraction. Describe carefully what happens in each step.

  • What is the Ca2+ spark (rush of calcium into the cell)? Where does the Ca2+ come from?
  • Lay out the steps that lead to relaxation of the myocardial cell after contraction.
  • How is Ca2+ removed in a contractile myocardial cell?

3. What is the resting membrane potential of a contractile myocardial cell?

  • What is the trigger for the action potential in contractile myocardial cells? What is the source of that stimulus?
  • What type of channel activity results in the rising phase, plateau phase and falling phase of the action potential? What is the trigger for each of these types of channel activity?

4. Why is the refractory period in contractile cells so much longer than that in skeletal muscle cells? (covered in post-class week 6, not lecture)

  • How does the refractory period for myocardial cells prevent summation of force in these cells*****
  • What would the impact of summation be if it could happen in these cells? Where does the Ca2+ come from to lengthen the refractory period so much? ****These questions will actually be answered during your pre-class week 7! Feel free to skip for now and make sure they are answered by next week!

5. Describe the origin of the pacemaker potential found in autorhythmic cells.

  • How does the pacemaker potential trigger the rising phase in autorhythmic cells?
  • What causes the falling phase in autorhythmic cells?
  • Compare and contrast the rising phase of the autorhythmic cells with the rising phase of the contractile cells, the rising phase in skeletal muscles and the rising phase in neurons.

6. How do action potentials in autorhythmic cells translate to the contraction of the contractile cells?

 

What is the function of the cardiovascular system? Give some examples of materials transported by the system.

  • Describe the organization, pattern of blood flow and the major function of the cardiovascular system using the following terms: heart, arteries, capillaries, and veins.
  • Describe the structure of the heart and pattern of blood flow through the heart using the following terms: atria, ventricles, septum, vena cava, aorta, pulmonary veins, pulmonary arteries, AV valves, papillary muscle*, chordae tendineae*, semilunar valves.
  • What is the function of the valves in the heart? Where does the energy come from to open and close the valves? (*covered in lab Week 6)

2. What is the importance of the gap junctions that connect the autorhythmic cells with the contractile cells?

  • Outline the steps of the intrinsic conducting system and associate them with the steps of the cardiac cycle.
  • Describe how the SA node controls heart rate. What would happen when the SA node is damaged?
  • Explain how heart rate is controlled by the parasympathetic system and the sympathetic system. Be sure to discuss the intrinsic heart rate, the neurotransmitters and receptors that operate during control of heart rate

3. Define the terms systole and diastole in terms of the cardiovascular system.****

  • Explain how pressure gradients drive blood flow in the cardiovascular system. Identify the location of high pressure and low pressure during systole and diastole.*** these questions will be covered next Tuesday's lecture

 


See you next week! If you haven't already, please start taking a look at Week 7's module.


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