Valvular Disease

Question 1

When does a valve open?

Answer 1

When contraction increases pressure within a given chamber greater than the downstream pressure,

Question 2

When does a valve close?

Answer 2

When contraction ends and pressure decreases below downstream pressure

Question 3

What valve is on the left side?

Answer 3

Bicuspid/mitral

Question 4

What valve is on the right side?

Answer 4

Tricuspid

Question 5

Chordae tendinae and Papillary muscles functions

Answer 5

• Prevent inversion of valves during ventricular systole.

* Can become damaged from MI causing back flow “regurgitation”.

Question 6

What are the semilunar valves?

Answer 6

• Aortic and Pulmonic
• Three leaflets on each
• No papillary muscles or chordae tendonae
• Do not lie back against the walls of the aorta or pulmonary artery

Question 7

General symptoms of Cardiac valvular disease

Answer 7

• Easy Fatigue
• Dyspnea
• Palpitations
• Murmur
• Chest Pain
• Pitting Edema
• Orthopnea
• Dizziness

Question 8

Congenital valvular disease causes

Answer 8

• genetic

- maternal exposure

Question 9

Acquired valvular disease causes

Answer 9

• rheumatic fever
• endocarditis
• gradual fibrosis

Question 10

Main cause of mitral stenosis

Answer 10

rheumatic heart disease

Question 11

Mitral stenosis

Answer 11

• Primarily occurs in females (66%)
• Valve Leaflets don’t opening easily or completely
• Decreases area and increases resistance to flow between A-V
• Hypertrophy occurs in chamber upstream from stenosis, concentric type
• Stretch of L Atrium creates multiple foci causing arrhythmias

Question 12

What to expect upon pressure overload with mitral stenosis?

Answer 12

PRESSURE OVERLOAD

• LA hypertrophy
• limited LV filling
• LA thrombus breeding ground
• A-fib
• Pulmonary congestion and HTN

EXERTION
- dyspnea

AUSCULTATION
- opening snap, diastolic rumble

Question 13

Why is mitral stenosis at risk for thrombus?

Answer 13

Pooling in left atrium and increased turbulence

Question 14

Why may a patient not present with mitral stenosis symptoms?

Answer 14

The body compensates

Question 15

What may mitral stenosis advance to?

Answer 15

right heart failure

Question 16

medical management of mitral stenosis

Answer 16

• anti-coagulants
• antiarrhythmics
• surgery

Question 17

what happens when the mitral valve does not close completely during systole (incompetence)

Answer 17

• Creates back flow (Regurgitation)
• Increase SV to compensate for back flow
• Upstream chamber (L Atrium) dilates out
• Eccentric hypertrophy to accommodate increased volume

Question 18

What are the signs and symptoms of mitral regurgitation/incompetence?

Answer 18

anxiety and palpitations with exercise

• asymptomatic are fine to exercise
• symptomatic patients: use beta blockers

Question 19

Mitral valve prolapse

Answer 19

• valve snaps open during systole
• 2-6% of the population
• mostly asymptomatic, cause unknown

Question 20

What to expect upon volume overload during mitral prolapse

Answer 20

VOLUME OVERLOAD
LA dilates
- Afib
- thrombus formation
- pulmonary congestion
LVH for forward flow

EXERTION
- dyspnea

AUSCULTATION
- holosystolic murmur: regurgitation into LA

Question 21

Causes of aortic regurgitation/incompetence

Answer 21

Congenital, rheumatic, endocarditis, deterioration with age as well as long standing HTN

Question 22

Rarer conditions of aortic regurgitation/incompetence

Answer 22

Marfanvsyndrome, ankylosing spondylitis and certain STDs

Question 23

What to expect with aortic regurgitation/incompetence

Answer 23

VOLUME OVERLOAD

• LV dilates out
• LVH

UPON EXERTION
-dyspnea

AUSCULTATION
- diastolic murmur “blowing”

Question 24

Signs of aortic regurgitation/incompetence

Answer 24

• Eccentric hypertrophy
• Late stages maybe LA concentric hypertrophy?
• No pulmonary symptoms until very advanced stages

Question 25

Exercise considerations for valvular stenosis

Answer 25

• Close monitoring with RPE
• Low muscle perfusion may limit exercise
• Suppressed BP response to exercise, possibly exaggerated HR
• Low cardiac output
• Patients with symptomatic aortic stenosis clients are typically not candidates for exercise programs!
• Asymptomatic aortic stenosis: intensity should be low and progressed gradually
• Angina may be a symptom

Question 26

Mechanical Valves

Answer 26

• last a lifetime but require anticoagulant meds
• young pts are better candidates
• higher risk for infection, thrombus and emboli

Question 27

Biologic valves

Answer 27

• made of human, pig or cow tissue (xenografts)

- pig valves can be stents or stentless

Question 28

Da-Vinci Robot

Answer 28

• minimally invasive option
• becoming more common
• reduced postop mortality and morbidity, shorter hospital stay and better cosmetics
• limited by the longer cross- clamp and coardiopulmonary bypass times

Question 29

Transcutaneous Aortic Valve Repair/Implantation

Answer 29

• Typically reserved for patients at high risk for open heart surgery
• Usually Older patients, or those with significant compromise
• Promising early results comparing 4yr clinical outcomes to open heart

Question 30

Pericardium: fibrous layer

Answer 30

outermost layer, firmly bound to the central tendon of the diaphragm; sternum (sternopericardial ligaments) and mediastinal pleura

Question 31

Pericardium: Serous layer

Answer 31

Lines the inner surface of the fibrous pericardium (Parietal) and is reflected onto the heart as the visceral layer (Epidcardium), forms a closed sac

Question 32

Pericardium: Pericardial space

Answer 32

Potential space formed by the sac, filled with fluid that lubricates the heart and reduces friction during movement

Question 33

Epicardium

Answer 33

Outer layer of connective tissue that covers heart, contains variable amounts of adipose tissue that tends to aggregate along vessels and in the grooves on the surface of the heart.

Question 34

Pericarditis

Answer 34

swelling and irritation of the pericardium

Question 35

Pericarditis common causes

Answer 35

• viral infections
• bacterial infections (less common)
• fungal infections (rare)
• may occur due to a heart attack, radiation therapy and post open heart surgery

Question 36

Pericarditis signs and symptoms

Answer 36

• Sharp retrosternal pain with radiation to the back (lasting hours), fever,
• Pain worsens with deep breathing or coughing and when laying flat.
• Pain is mprovedwhile sitting up and leaning forward
• Friction rub on auscultation

Question 37

Pericardial effusion

Answer 37

• accumulation of fluid in the pericardial sac

- may progress to a cardiac tamponade

Question 38

Pericardial effusion causes

Answer 38

similar to those of pericarditis

Question 39

Pericardial effusion symptoms

Answer 39

pressure pain in chest, dysphagia, dyspnea

Question 40

Pericardial effusion signs

Answer 40

muffled heart sounds, possible JVD

Question 41

Auscultation

Answer 41

• Auscultation should include the 4 primary auscultation areas of the heart using the diaphragm, staring with the patient in the supine or seated position.
• Start by finding the angle of Louis (sternal angle aka manubriosternal junction) located at the 2nd rib, which is easily felt as a small protuberance along the sternum.
• Auscultate each point starting with the Aortic region using the following Mnemonic
• All –Physicians –Take –Money

Question 42

Auscultation regions

Answer 42

1. Aortic Region: Right 2nd intercostal space, parasternal
2. Pulmonic Region: Left 2nd intercostal space, parasternal
3. Erb’s point: Left 3rd intercostal space aka Left Lower Sternal Border
4. Triscupid Region: Left 4th intercostal space, parasternal 5. Mitral Region: Left 5th intercostal space, mid- clavicular

Question 43

Normal S1 sound

Answer 43

- lub
•Closure of the AV valves 
     •(Tricuspid and Mitral)
•Occurs with ventricular contraction 
•Marks the approximate beginning of systole.

Question 44

Normal S2 Sound

Answer 44

-dub
•Closure of the Semilunar valves
•(Aortic and Pulmonic).
•Marks the beginning of ventricular relaxation and end of systole.
•The second heart sound is of shorter duration and higher frequency than the first heart sound.

Question 45

Extra Heart Sounds (Gallops)

Answer 45

•S3 occurs at the beginning of diastole after S2 and is lower in pitch than S1 or S2 as it is not of valvular origin.
•Indicative of ventricular/heart failure.
•S4 Occurs prior to S1, produced by the sound of blood being forced into a stiff or hypertrophic ventricle
.•Indicative of LVH or HCOM

Question 46

Murmurs definition

Answer 46

• Extra sounds during the cardiac cycle, such as whooshing or swishing made by turbulent blood flow often due to a faulty valve or structural changes in the myocardium.
• Onomatopoeia

Question 47

Murmur shape

Answer 47

•Crescendo (grows louder), decrescendo, crescendo-decrescendo, plateau

Question 48

Murmur location

Answer 48

• Determined by the site where the murmur originates

* A, P, T, M listening areas

Question 49

Murmur timing

Answer 49

• Murmurs are longer than heart sounds

* Systolic, diastolic, continuous

Question 50

Murmur intensity

Answer 50

• Graded on a 6 point scale
• Grade 1 = very faint
• Grade 2 = quiet but heard immediately
• Grade 3 = moderately loud
• Grade 4 = loud*
• Grade 5 = heard with stethoscope partly off the chest*
• Grade 6 = no stethoscope needed*

Question 51

Murmur pitch

Answer 51

high, medium, low

Question 52

Systolic murmurs

Answer 52

1. Aortic stenosis -ejection type
2. Mitral regurgitation -holosystolic
3. Mitral valve prolapse -late systole
4. HCOM-ejection type
5. Ventral Septal Defect-holosystolic

Question 53

Diastolic murmur

Answer 53

1. Aortic regurgitation -early diastole

2. Mitral stenosis -mid to late diastole