Exam 1 Lecture 4 (2-6-23) Cardiac Anatomy/Stenosis/Regurgitation (Andy's cards)

Question 1

Where is the mediastinum located?

Answer 1

Between the two lungs.

Question 2

What are the four parts of the mediastinum?

Answer 2

Superior mediastinum

Inferior mediastinum (3 parts):
- Anterior
- Middle (heart is located here)
- Posterior

Question 3

What part of the mediastinum is indicated by 1 in the figure below?
2?
3?
5?

Answer 3

• Posterior Mediastinum
• Middle Mediastinum
• Anterior Mediastinum
• Superior Mediastinum

Question 4

What is the nerve that innervates the diaphragm?

Answer 4

Right and Left phrenic nerves

Question 5

Parasympathetic tone on the heart is innervated by the _______ nerve.

Answer 5

Vagus

Question 6

What important structure runs next to the descending aorta?

Answer 6

• Esophagus

Question 7

What does the right vagus nerve innervate?

What does the left vagus nerve innervate?

Answer 7

Right vagus nerve = SA Node.

Left vagus nerve = AV node.

Question 8

What would the firing rate of the SA node be without any parasympathetic input?

Answer 8

110 bpm

(19:00)

Question 9

What structure is denoted by 1 in the figure below?
What should be known about this structure?

Answer 9

• Serous Pericardium (Parietal layer)
• Tightly attached to the fibrous pericardium

Question 10

What structure is denoted by 5 in the figure below?
What should be known about this layer?

Answer 10

-Serous Pericardium (Visceral layer)
- Thin, stretchy, slippery layer that allows for expansion and is covered in lubricating mucous.

Question 11

What structure is denoted by 6 in the figure below?
What is special about this layer?

Answer 11

-Fibrous Pericardium (external layer)
- Prevents expansion (responsible for tamponade)

Question 12

List the layers of the pericardium from innermost to outermost.

Answer 12

1. Serous pericardium visceral layer
2. Serous pericardium parietal layer
3. Fibrous pericardium external layer

Question 13

Too much fluid in the fibrous pericardium layer will prevent what?

Answer 13

Too much fluid in the fibrous pericardium will prevent the heart from adequately filling. (i.e. tamponade)

Question 14

What two structures of the pericardium are strongly attached to each other?

Answer 14

Serous parietal and the fibrous pericardium.

Question 15

What tendon does the heart sit on?
Where is this tendon located?

Answer 15

• Central tendon
• Located in the middle of the diaphragm

Question 16

What would the MAP be in the vessel indicated by 1 below?

Answer 16

100 mmHg

Question 17

What would the MAP be in the vessel indicated by 3 below?

Answer 17

16 mmHg

Question 18

What structure is indicated by 2 on the figure below?
What is this?

Answer 18

• Ligamentum Arteriosus
• Remnant of Ductus arteriosus used for fetal circulation.

Question 19

What is the orientation of cardiac muscle fibers?

Answer 19

Criss-cross pattern, to provide 2-way straining motion in order to squeeze blood out of the heart.

Like wringing out wet laundry

(25:00)

Question 20

What are the two structures that anchor the AV valves?

What will these structures prevent?

Answer 20

Papillary muscles and Chordae Tendineae

This will prevent the AV valve from bowing out into the atria when the ventricles contract.

Question 21

What happens to the mitral valve if the left ventricle gets stretched out?
What disorder can cause this to happen?

Answer 21

The orientation of the papillary muscle will be affected and cause the mitral valve to improperly close. (mitral regurgitation)

Question 22

What percentage of the heart valves have 3 cusps?

Answer 22

75%

3 out of 4 major heart valves have 3 cusps
(Aortic Valve, Pulmonic Valve, Tricuspid)

Question 23

What percentage of people have a bicuspid aortic valve?

What is the problem with having two cusps on the aortic valve?

Answer 23

1-2%

The aortic open will not be as large, and will need aortic valve replacement eventually.

Question 24

Which cusps of the aortic valves will be connected to coronary arteries?

Answer 24

Right and left cusp of the aortic valve will be connected to the coronary arteries.

Question 25

When the aortic valves are closed, the right and left aortic cusp are shaped like bowls. Why could this be important?

Answer 25

During the cardiac cycle, some blood will move back towards the closed valve where the bowl shape cusp can funnel blood in to the right and left coronary artery for perfusion. (34:00)

Question 26

What is another name for the Posterior Cusp of the aortic valve?

Answer 26

The Non-coronary cusp (The NCC)

Question 27

What is an important electrical insulator for the top half and bottom half of the heart?

Answer 27

Cardiac Cartilaginous Rings

Question 28

When does the cartilaginous ring rattle?

Answer 28

During the 3rd heart sound.

Question 29

What does a 3rd heart sound usually indicate?
What is the exception?

Answer 29

• Indicates non-compliant ventricle in adults.
• 3rd hearts sounds are common in kids.

Question 30

Why would there be fewer tricuspid valve problems than bicuspid valve problems?

Answer 30

The right side of the heart deals with less pressure than the left side of the heart.

Question 31

Name the cusps of the bicuspid valve.

Answer 31

Anterior cusp
Posterior cusp/commissural cusp

Question 32

Which cusp of the mitral valve has the commissural cusp/scallop?

Answer 32

• Posterior cusp

Question 33

Identify the right coronary artery, left coronary artery, the LAD, and left circumflex artery.

Answer 33

Question 34

What is another name for the left anterior descending artery?

Answer 34

Widow Maker

(Provides an enormous amount of perfusion to the left ventricle)

Question 35

The right coronary artery feeds into the _______________.

Answer 35

Posterior descending artery (PAD)

Question 36

______% of people’s PDA comes from the right coronary artery.

_______% of people’s PDA comes from the left coronary artery.

Answer 36

85% from the right coronary artery

15% from the left coronary artery

Question 37

When would it be considered a bad thing for someone’s PDA to come from the left coronary artery?

Answer 37

The PDA would then be subjected to much higher left wall pressures.

(41:20)

Question 38

The vast majority of people are ________ coronary dominant.

Answer 38

Right (85%)

Question 39

Name all the cusps in the tricuspid valve.

Answer 39

Anterior Cusp
Posterior Cusp
Septal Cusp

Question 40

Name all the cusps of the pulmonic valve.

Answer 40

Anterior Cusp
Right Cusp
Left Cusp

Question 41

Coronary blood flow is related to _______.

What two factors will drive coronary pressure?

Answer 41

ΔP

Aortic pressure and Wall Pressure (Ventricular Pressure)

Question 42

_______ wall pressure will make coronary perfusion more difficult.

Answer 42

High wall pressure (more resistance)

Question 43

What will the wall pressure of the heart be related to?

Where will the highest wall pressure be found?

Answer 43

Chamber pressure (atrial or ventricular pressure)

The highest wall pressure will be in the LV.

(44:00)

Question 44

Where will you place your stethoscope to auscultate the aortic valve?

Answer 44

2nd intercostal space right of the sternum

Question 45

Where will you place your stethoscope to auscultate the pulmonic valve?

Answer 45

2nd intercostal space left of the sternum

Question 46

Where will you place your stethoscope to auscultate the tricuspid valve?

Answer 46

5th intercostal space left of the sternum.

Question 47

Where will you place your stethoscope to auscultate the mitral valve?

Answer 47

5th intercostal space left midclavicular line.

Question 48

Label the valves

Answer 48

Question 49

In a normal heart, what causes the first heart sound?

What is the duration of the first heart sound?

Answer 49

Closure of the AV valves will produce a low pitch (“Lub”)

0.14 seconds

Question 50

In a normal heart, what causes the second heart sound?

What is the duration of the second heart sound?

Answer 50

Closure of the Aortic and Pulmonic valves will produce a higher pitch than S1. (“Dub”)

0.11 seconds

Question 51

The oscillation that occurs over a period of time (1 second) will be measured in __________.

Answer 51

Hertz (Hz)

Question 52

What is the lowest pitch a human can hear?

What is the highest pitch a human can hear? What causes degradation of this hearing capability?

Answer 52

20 Hz

20 kHz (can be cut in half or lower as you get older)

Question 53

What equipment is used to hear low-frequency heart sounds and help diagnose a murmur or stenosis?

Answer 53

Phonocardiagram

Question 54

What is causing the 3rd heart sound?

Answer 54

Heart rattling the ventricular walls and cartilaginous ring during filling toward the end of the rapid filling phase.

Question 55

What will cause the 4th heart sound?

Answer 55

Atrial kick

Question 56

What is A?

Answer 56

Normal heart sound

Question 57

What is B?

Answer 57

Aortic Stenosis

Systolic murmur, excess vibrations d/t narrowed valve that increases blood velocity, small diameter, louder sound, more turbulence

Question 58

What is C?

Answer 58

Mitral Regurgitation

Blood will move in the wrong direction during systole, resulting in a systolic murmur

Question 59

What is D?

Answer 59

Aortic Regurgitation (diastolic murmur)

When there is high pressure in the aorta and low pressure and volume in the ventricle, blood will flow back to the LV during diastole. Causing a diastolic murmur

Question 60

What is E?

Answer 60

Mitral Stenosis

Diastolic murmur, due to blood flow through the narrowed valve, filling issue

Question 61

What is F?

Answer 61

Patent Ductus Arteriosus

Diastolic and systolic murmur present, there is a bad blood flow going from the aorta (100 mmHg) to the pulmonary artery (16 mmHg)

Question 62

Of all the heart valve problems, which one will produce the loudest sound?

Answer 62

Aortic Stenosis

(55:00)

Question 63

What produces the sound toward the end of a diastolic murmur in mitral stenosis?

Answer 63

Atrial contraction, squeezing blood through a narrow valve

(57:00)

Question 64

Which heart valve issue will produce a systolic murmur?

Answer 64

Aortic Stenosis
Mitral valve regurgitation

Question 65

Which heart valve issue will produce a diastolic murmur?

Answer 65

Mitral valve stenosis
Aortic regurgitation

Question 66

What other factors not relating to valve problems can affect heart sounds?

Answer 66

↑CO = loud heart
(Beriberi, hyperthyroidism, pregnancy, anemia, etc)

Question 67

When will coronary perfusion be the greatest?

When will coronary perfusion be the lowest?

Answer 67

During diastole (↑ΔP = more perfusion)

During systole, aortic pressure almost equals ventricular pressure, small delta P.

Question 68

When will you see retrograde perfusion in the coronary artery?

Answer 68

At the beginning of systole when ventricular pressure (wall pressure) is greater than aortic pressure. There will be retrograde perfusion.

Question 69

What are two benefits of a longer time spent in diastole?

Answer 69

1. Increased ventricular filling
2. Increased coronary perfusion

Question 70

How will aortic stenosis affect coronary perfusion?

Answer 70

• ↓coronary perfusion from AS.
• ↓SV from ↑ ventricular pressure.
• Lower SV = ↑HR = less time in diastole for coronary filling.

Question 71

What is the coronary blood flow per 100mg?

Answer 71

70mL/min/100 grams of heart muscle

Question 72

What is a normal resting coronary blood flow for a young adult?

Answer 72

225 mL/min

Question 73

If the normal resting coronary blood flow for a young adult is 225 mL/min, what would you expect this young adult’s heart to weigh in grams?

Answer 73

~ 321.43 grams

Question 74

What will be the resting coronary blood flow for a heart that weighs 300 grams?

Answer 74

210 mL/min

70ml/min/100grams x 300 grams =
210 mL/min

Question 75

When will you find the peak flow of coronary perfusion?

Answer 75

At the beginning of diastole where ventricle pressure is the lowest and coronary vessels are wide open.

Question 76

Which coronary artery will have more consistent perfusion? Why?

Answer 76

Right coronary artery because it feeds the right heart which has lower wall pressures.

Question 77

Which heart valve problem will have trouble with filling?

Answer 77

Mitral valve stenosis

Question 78

How does the body compensate for mitral valve stenosis?

What will be the consequence of this?

Answer 78

The body will help out filling by expanding blood volume. Increasing preload in the left heart, by increasing pulmonary venous pressure.

Increasing CVP and afterload in the right heart.

Question 79

Which cardiac chamber is least affected by mitral valve stenosis?

Answer 79

Left ventricle will not be affected.

Question 80

Which way will the pressure-volume loop be shifted in mitral valve stenosis?

Answer 80

Shift left (lower intraventricular volume)

Question 81

What kind of axis deviation would you expect in mitral valve stenosis?

Answer 81

Right axis deviation due to RV hypertrophy.
(90:30)

Question 82

Mitral valve stenosis will expand out the __________.

Answer 82

Left atrium

Question 83

A stretched left atria will result in a what EKG change?

Answer 83

prolonged p-wave on the EKG

Question 84

What will happen if someone with mitral valve stenosis is experiencing atrial fibrillation?

Answer 84

Severe decrease in filling = ↓↓↓ CO

Question 85

What happens if someone with mitral valve stenosis is experiencing tachycardia?

Answer 85

Decreased period of diastole will shorten the time the heart needs to fill the ventricles.

Question 86

What can cause mitral stenosis?

Answer 86

Rheumatic Fever
Strep Infection

Question 87

Where is the blood going during systole in mitral valve regurgitation?

Answer 87

Blood will be pushed into the left atrium.

Question 88

What is the normal venous return to the heart per beat?

What does that mean for the left atria with mitral valve regurgitation?

What does it mean for LV EDV?

Answer 88

70 cc

The left atria will have more than 70 mL in the chamber d/t to blood being backed up during systole.

This means there will be enhanced filling for the LV EDV.

Question 89

_______% of people with coronary artery disease will have mitral regurgitation.

Answer 89

10-20%

Question 90

Less than _______ mL of backward flow will be considered mild mitral regurgitation

Answer 90

less than 30 mL is mild mitral regurgitation.

Question 91

Between ______ and ______ mL of backward flow will be considered mid-grade mitral regurgitation.

Answer 91

30 to 60 mL is midgrade mitral regurgitation

Question 92

Greater than _______ mL of backward flow will be considered severe mitral regurgitation

Answer 92

Greater than 60 mL is severe or end-stage mitral regurgitation

Question 93

What are two ways to reduce mitral valve regurgitant blood flow?

Answer 93

Decrease afterload = decrease ventricular pressure.

Being slightly tachycardiac (80-90bpm) will decrease time in systole thus decreasing the time of high ventricular pressure

Question 94

What is the consequence of an increased time in systole with mitral valve regurgitation?

Answer 94

Increased regurgitation into the left atrium

Question 95

What do you want to avoid in mitral valve regurgitation?

Answer 95

Avoid Bradycardia

Question 96

In mitral valve regurgitation, the left atria is being filled from what two places?

Answer 96

Venous return from the pulmonary veins
Regurgitation from the left ventricle

(This will result in the left atrium being stretched out, increasing risk of atrial fibrillation)

Question 97

In aortic regurgitation, the left ventricle is being filled from what two places?

Answer 97

Filling from the left atria
Filling from aortic regurgitation

Increases left ventricular volume

Question 98

What shift will occur in the pressure-volume loop with aortic regurgitation?

Answer 98

Shift right (higher intraventricular volume)

Question 99

What will be the body’s innate response to aortic regurgitation?

Answer 99

Constrict blood vessels to maintain arterial blood pressure

(This will unfortunately increase the amount of regurgitation d/t to increase afterload. More blood will move in the wrong direction.)

Question 100

How will a decrease in afterload affect aortic valve regurgitation?

Answer 100

Less regurgitation

Question 101

How will intraventricular pressure compare to normal in aortic stenosis?

Answer 101

There will be a higher intraventricular pressure in aortic stenosis.

(115:00)

Question 102

What will happen to pulse pressure with aortic stenosis?

What will happen to BP?

Answer 102

Decrease pulse pressure downstream from the bad valve.

Blood pressure may decrease.

Question 103

What will happen to stroke volume in aortic stenosis?

Answer 103

↓ SV

Question 104

What will be the compensatory mechanism for aortic stenosis?

Answer 104

↑HR to compensate for decreased SV to maintain CO.

Question 105

Aortic stenosis will cause problems with coronary perfusion which will put patients at increased risk for _________.

Answer 105

Myocardial Infarctions

Question 106

What type of heart wall thickening happens with aortic stenosis?

Answer 106

Concentric Hypertrophy of the LV
Thickening of heart walls via the addition of parallel sarcomeres

Question 107

What conditions will cause eccentric hypertrophy?

Answer 107

• Aortic valve regurgitation
• Mitral valve regurgitation

Eccentric hypertrophy is the addition of sarcomeres in series, resulting in elongated (dilated) heart walls

Question 108

How will preload be affected by concentric hypertrophy?

Answer 108

There will need to be a higher preload to fill the blood with a normal amount of volume due to decreased compliance (thick muscles).

Question 109

Differentiate concentric hypertrophy vs eccentric hypertrophy at the cellular level.

Answer 109

• Concentric Hypertrophy = sarcomeres in parallel.
• Eccentric Hypertrophy = sarcomeres in series.