Lab 5 Prelab

Question 1

In what ways is the frog heart different from the human heart?

Answer 1

• 3-chambered: 2 atria, 1 ventricle
• Ventricle is trabeculated (grooved) inside
• Sinus venosus = primary pacemaker
• AV myocardium forms a funnel b/t atria and ventricle (similar to AV node)
• No specialized ventricular conduction system (no purkinje fibers)
• No Bundle of His
• Less developed SR
• No coronary circulation

Question 2

Since a frog heart has a less developed SR, what is its primary source of calcium?

Answer 2

Extracellular sources

Question 3

Since a frog heart has no coronary circulation, how it the heart oxygenated?

Answer 3

Direct diffusion

Question 4

What is the function of the sinus venosus?

Answer 4

Channels oxygenated and deoxygenated blood

Question 5

What is overdrive suppression?

Answer 5

When faster pacemaker cells suppress the activity of slower pacemaker cells

Question 6

What is the effective refractory period?

Answer 6

An absolute refractory period in the nerves during which the ventricles can’t be activated

Question 7

What is the relative refractory period?

Answer 7

Period of time during which an AP can occur but it takes longer or greater stimulation

Question 8

What are the phases of an SA node AP?

Answer 8

• Phase 0: depolarization caused mostly by Ca²⁺ influx
• No plateau phase
• Phase 3: repolarization from K⁺ influx
• Phase 4: unstable resting potential due to opening of a non-specific cation channel

Question 9

What are the phases of a ventricular AP?

Answer 9

• Phase 0: rapid depolarization due to influx of Na⁺ and to a lesser extent Ca²⁺
• Phase 1: rapid repolarization from inactivation of Na⁺ channels
• Phase 2: plateau caused by continued Ca²⁺ influx
• Phase 3: repolarization due to K⁺ efflux and Ca²⁺ channel inactivation (sets duration of AP)
• Phase 4: resting membrane potential

Question 10

What are intercalated discs composed of? Function?

Answer 10

• Cardiac muscle cells are connected end-to-end by intercalated discs
• Contain:
  
  • desmosomes: mechanically bind cells together w/ adherin proteins
  • gap junctions: electrically couple cells together

Question 11

What makes L-type Ca²⁺ channels in cardiac muscle different than skeletal muscle?

Answer 11

Not mechanically linked to RyR

Question 12

Through what type of channel does an increase in Ca²⁺​ in cardiac muscle occur? Location?

Answer 12

L-type Ca²⁺​ channels on the T-tubules

Question 13

What are the steps of the cardiac cycle? What steps make up systole? Diastole?

Answer 13

1. Ventricular filling: AV valves open, semilunar valves close
2. Isovolumetric contraction: all valves close –> increase in pressure but no change in volume
3. Ventricular ejection: semilunar valves open, ejection of blood causes an increase in pressure and a decrease in volume
4. Isovolumetric relaxation: all valves close, ventricles relax –> decrease in pressure but no change in volume

• Systole: phases 2 and 3 (contraction and emptying)
• Diastole: phases 4 and 1 (relaxation and filling)

Question 14

Draw a Pressure-Volume Loop.

Answer 14

Question 15

What is the Frank-Starling Law of the Heart?

Answer 15

Heart will contract w/ more force during systole if it’s filled to a greater extent during diastole

• increased preload = increased EDV = increased SV

Question 16

What is extrasystole? Cause?

Answer 16

A premature ventricular contraction often caused by depolarization in the ventricle rather than at the SA node

Question 17

What would cause an extrasystolic beat to be smaller than the beat preceding it? Larger?

Answer 17

• Smaller: Frank Sterling Law (reduced filling time)
• Larger: increased Ca2+​ buildup

Question 18

What is a compensatory pause? What happens to the beat following the pause?

Answer 18

• A skipped beat sometimes caused by extrasystole to resume the proper timing of the SA node
• Beats following the pause are usually larger in force than the previous beat

Question 19

What does the vagus nerve send?

Answer 19

Parasympathetic efferents to the heart?

Question 20

What does vagal stimulation cause in the heart?

Answer 20

Bradycardia

Question 21

What does prolonged vagal stimulation cause?

Answer 21

Cardiac arrest

Question 22

What is vagal escape?

Answer 22

Other pacemakers take over generating the HR at the next fastest pace when SA node fails

Question 23

How does vagal stimulation affect spontaneous AP generation of the pacemakers?

Answer 23

Slows/halts spontaneous AP generation of SA node, but has less effect on the other pacemakers

Question 24

What are the effects of epinephrine on the heart?

Answer 24

• Increased HR
• Decreased AP duration
• Increase contractility
• Increased SV