Aortic Valve Disease

Question 1

Aortic Valve Disease

• Aortic stenosis
• Aortic regurgitation or insufficiency
• Combined valvular disease

Answer 1

• Aortic stenosis
  
  • Abnormal thickening & restriction in aortic valve leaflet motion
• Aortic regurgitation or insufficiency
  
  • Abnormal retrograde flow across the valve
• Combined valvular disease
  
  • Aortic stenosis + aortic regurgitation

Question 2

Obstruction to LV Outflow

• Normal aortic valve
• Subvalvular obstruction
• Valvular stenosis
• Supravalvular stenosis

Answer 2

• Normal aortic valve
  
  • 3 leaflets: right, left, & non-coronary cusps
  • Leaflets are attached to the aortic wall in the sinuses of Valsava
  • Commissure: region where the leaflet edges coapt
  • Cross-sectional area: 3-4 cm²
• Subvalvular obstruction
  
  • Abnormal thickening of the intraventricular septum (ex. hypertrophic cardiomyopathy)
  • Congenital subaortic membranes in the left ventricular outflow tract
• Valvular stenosis
  
  • Narrowing, stiffening, thickening, fusion or blockage of one or more valves
• Supravalvular stenosis
  
  • Muscular ridge or hypoplasia of the ascending thoracic aorta

Question 3

Hemodynamics of Valvular Aortic Stenosis

• Normal aortic valve
  
  • Opens when…
  • Closes when…
  • Pressure gradient
• Congenital valvular disease
  
  • General
  • Unicuspid aortic valves
  • Bicuspid aortic valves
• Acquired valvular disease
  
  • Rheumatic valve disease
  • Calcific degenerative valve disease
  • Systemic disease

Answer 3

• Normal aortic valve
  
  • Opens when LV systolic pressure > central aortic pressure
  • Closes when LV pressure < central aortic pressure
  • Normally: no significant gradient across the aortic valve during systolic ejection
• Congenital valvular disease
  
  • Congenitally malformed aortic valves
  • Unicuspid aortic valves: present during infancy & childhood
  • Bicuspid aortic valves: present later in life (3rd - 5th decades)
• Acquired valvular disease
  
  • Rheumatic valve disease
    
    • Thickening of the valve leaflet margins w/ commissural fusion & restriction in leaflet motion
    • Long-term sequelae of the valvulitis associated w/ acute rheumatic fever
    • Rarely occurs in the absence of concomitant mitral valve disease, esp in women
  • Calcific degenerative valve disease
    
    • Abnormal thickening & calcification of valve leaflets w/ age
    • Chornic inflammation + upregulation of neurohormonal mediators
    • Ex. renin-angiotensin system, lipid accumulation, & lymphocytic infiltration of valve surfaces leading to leaflet calcification
  • Systemic disease (uncommon)
    
    • Rheumatoid arthritis, ankylosing spondylitis, Paget’s disease, & onchronosis

Question 4

Changes Following Aortic Valve Area Decrease

Answer 4

• LV systolic pressure increases
• Aortic transvalvular pressure gradient presents throughout systolic ejection
• Contour of the centrla aortic pressure tracing becomes blunted
• LV hypertrophy
  
  • Response to chronic elevation in LV end systolic pressure
  • Increase LV systolic pressure –> increase LV wall tension
  • Replication fo myofibrils –> compensatory thickening of LV wall (hypertrophy)
  • Tries to maintain normal wall tension in the presence of chronically elevated afterload
• Cencentric LV hypertrophy
  
  • With little change in LV cavity size

Question 5

LV Compliance

• Hypertrophy vs. compliance
• LV pressure-volume relationship

Answer 5

• Hypertrophy vs. compliance
  
  • Increase ventricular hypertrophy –> decrease LV compliance
• LV pressure-volume relationship
  
  • Upward & leftward shift
  • For any given LV volume, there’s a higher corresponding LVEDP
  • Increase LVEDP –> prominent a-waves on the LA pressure tracing during late diastole w/ atrial contraction (atrial “kick”)

Question 6

Aortic Stenosis Physical Findings

• PMI
• Carotid pulse contour

Answer 6

• PMI
  
  • Inferolaterally displaced
  • Sustained
    
    • Prolonged LV systolic ejection –> prolonged apical impulse
  • Presystolic heave
    
    • LV end diastolic pressure increases –> prominent atrial “kick” during late diastolic atrial contraction
• Carotid pulse contour: pulsus parvus et tardus
  
  • Decreases in amplitude
  • Delay of carotid upstroke

Question 7

Aortic Stenosis Cardiac Auscultation

Answer 7

• Turbulent flow across a stenotic valve –> rhomboid shaped SEM
  
  • Heard at the caridac base
  • Can radiate to the suprasternal notch & LV apex
• Restricted but pliable valves (ex. bicuspid aortic valves) –> early systolic ejection sound (“click”)
  
  • Heard in the suprasternal notch or apex

Question 8

Severe Aortic Stenosis Auscultatory Findings

• SEM peaking
• S2 splitting
• S2 splitting (other)
• SEM intensity
• Extra heart sounds

Answer 8

• Late peaking SEM
  
  • Narrowing aortic valve –> delay in time to peak systolic ejection
• Narrowed S2 splitting
  
  • May –> paradoxical splitting
  • Normally: A2 closes before P2
    
    • Inspiration: negative pressure –> increased venous return –> increased pulmonary vascular bed capacitance –> prolonged RV systolic ejection time –> widened separation b/n A2 & P2 –> widened S2 split
    • Expiration: narrowed separation b/n A2 & P2 –> narrowed S2 split
  • Worsening aortic stenosis: LV ejection time increases –> delayed A2 closure –> A2 moves closer to P2 –> diminished / more singular S2
• Reversed splitting of S2 w/ paradoxical movement w/ respiration
  
  • S2 split narrows w/ inspiration & widens w/ expiration
  • Worsening aortic stenosis –> prolonged systolic ejection time –> A2 occurs after P2
• Decreased SEM intensity
  
  • LV fails –> decrease SV –> decrease SEM intensity
• S4
  
  • Increase LV hypertrophy –> decrease ventricular compliance

Question 9

Natural History of Aortic Stenosis

• Symtpom development
• Cardinal symptoms
• Avg survival after developing a cardinal symptom

Answer 9

• Patients typically have a failry long latent period before developing symptomatic disease
• Cardinal symptoms
  
  • Angina
  • Syncope
  • Dyspnea & congestive heart failure
• Avg survival after developing a cardinal symptom
  
  • Angina: 5 years
  • Syncope: 3 years
  • Congestive heart failure: 2 years

Question 10

Angina

• Angina
• Severe aortic stenosis
• LVEDP vs. myocardial blood flow

Answer 10

• Angina
  
  • Occurs when there’s a mismatch b/n myocardial oxygen supply & demand
• Severe aortic stenosis
  
  • Chronic elevation in LV systolic pressure
  • Myocardial oxygen demand increases in response to increased myocardial wall tension
• Chronic elevation in the LVEDP can compromise myocardial blood flow
  
  • Coronary blood noramlly flows form the epicardial to endocardial surfaces of the myocardium
    
    • Driven by the pressure gradient b/n the aorta & LV
  • Aortic stenosis –> decrease MAP –> increase LVEDP –> decrease transmyocardila perfusion pressure gradient –> mismatched myocardial supply & demand –> angina

Question 11

Syncope

Answer 11

• Results from cerebral hypoperfusion
• May be exacerbated by physical exertion, bradyarrhythmias, or tachyarrhythmias

Question 12

Congestive Heart Failure

• Mild aortic stenosis
• Worsening aortic stenosis
• Ongoing disease progression

Answer 12

• Mild aortic stenosis
  
  • Increase LV systolic pressure & aortic transvalvular gradients
  • Normal to mildly elevated LVEDP
  • Normal CO & systemic BP
• Worsening aortic stenosis
  
  • Increase LV outflow tract obstruction + decrease LV compliance –> increase LVEDP –> increase pressure in pulmonary vascular bed
  • –> pulmonary hypertension, interstitial pulmonary edema, & congestive heart failure
• Ongoing disease progression
  
  • LV systolic dysfunction –> decrease forward flow across aortic valve –> decrease transvalvular gradients –> increase pulmonary arterial pressure –> worsen CHF

Question 13

Evaluation of Aortic Stenosis

• Echocardiography (cardiac ultrasound)
• Cardiac catheterization lab
• EKG
• Chest X-ray

Answer 13

• Echocardiography (cardiac ultrasound)
  
  • Noninvasive
  • 2-D echo provides info about LV function & valvular anatomy
  • Doppler interrogation of the aortic valve provides quantitative info about…
    
    • Valve gradients
    • Orifice area
    • Valvular regurgitation
    • Pulmonary arterial pressure
• Cardiac catheterization lab
  
  • Invasive
  • Calculate aortic valve area from CO, systolic ejection time, & aortic valve gradients
  • Used to verify inconsistent data in hemodynamic info from noninvasive tests
  • Coronary angiography: evaluates coronary anatomy prior to surgical aortic valve replacement
  • Coronary artery bypass grafting (CABG): performed at the time fo aortic valve replacement if coronary artery disease is identified
• EKG
  
  • LVH
  • LA enlargement
  • LAD
• Chest X-ray
  
  • Cardiomegaly
  • Aortic valve calcification
  • Aortic dilation

Question 14

Medical Management of Aortic Stenosis

• Drugs
• What to avoid

Answer 14

• Diuretics
  
  • Manage intravascular volume overload
• Digoxin
  
  • Enhances myocardial contractility to treat congestive heart failure
• Intravenous inotropes
  
  • DA & dobutamine are used for acute management of more criticall ill patients
• Avoid vasodilators in severe aortic stenosis
  
  • Patients may not be able to adequately augment CO in response to peripheral vasodilation

Question 15

Surgical Management of Aortic Stenosis

• When to use surgery vs. medicine
• Aortic valve replacement
• Bioprosthetic or metallic valve prosthesis
• Percutaneous balloon valvuloplasty
  
  • Limited use
  • Peri-procedural complications
• Percutaneous transcatheter aortic valve replacement (TAVR)

Answer 15

• Symptomatic severe aortic stenosis is pirmarily a surgical disease
• Aortic valve replacement
  
  • In symptomatic patients w/ moderate to severe aortic stenosis
• Bioprosthetic or metallic valve prosthesis
  
  • Variety of variables taken into consideration when choosing the appropriate valve for a patient
• Percutaneous balloon valvuloplasty
  
  • Limited use in long-term management of severe aortic stenosis
    
    • Used primarily as a bridge to aortic valve replacement
    • Exception: congential aortic stenosis in peds
  • Peri-procedural complications
    
    • Death
    • Severe aortic regurgitation
    • Myocardial perforation
    • Infarction
    • Recurrent aortic stenosis at 6 months
• Percutaneous transcatheter aortic valve replacement (TAVR)
  
  • For patients who arent’ candidates for traditional surgical valve replacement
  • Femoral arterial catheters are advanced across the aortic valve in a retrograde fashion
  • Aortic valve is pre-dilated w/ a balloon tipped catheter
  • Catheter implantation of a bioprosthetic valve

Question 16

Aoritc Regurgitation Etiologies

• Aortic regurgitation
• Congenital
  
  • Aortic valves
  • Sinus of Valsalva aneurysms
  • Subaortic membranes
  • Subaortic ventricular septal defects (VSDs)
• Acquired
  
  • Rheumatic valvular disease
  • Endocarditis
  • Aortic root disease
    
    • Acending thoracic aortic aneurysm
    • Aortic dissection
  • Systemic diseases
    
    • Connective tissue diseases
    • Vasculitides

Answer 16

• Aoritc regurgitation
  
  • Abnormal retrograde flow of blood across the aortic valve from the aorta into the LV
• Congenital
  
  • Bicuspid (& quadricuspid) aortic valves
  • Sinus of Valsalva aneurysms
    
    • Dilation of the aortic annulus
    • Prolapse of an aortic leaflet into the LVOT
  • Subaortic membranes
    
    • Damage to the aortic valve form chronic turbulent flow through the subaortic membrane
  • Subaortic ventricular septal defects (VSDs)
    
    • Prolapse of an aortic valve leaflet through the VSD
• Acquired
  
  • Rheumatic valvular disease
    
    • Inflammation fo the valve leaflets from rheumatic fever
    • Chronic fibrosis & retraction of hte leaflet tips
    • Incomplete leaflet coaptation & secondary regurgitation
    • Uncommon to see rheumatic aortic valve disease w/o concomitant mitral valve disease (esp in women)
  • Endocarditis
    
    • Bulky vegetations
    • Leaflet destruction & perforation
    • Complications from perivalvular abscesses
  • Aortic root disease
    
    • Acending thoracic aortic aneurysms
      
      • Dilation of the aortic valve annulus w/ incomplete coaptation fo the aortic valve leaflets
      • Risk factor: chronic hypertension
      • Bicuspid aortic valves are associated w/ a primray aortopathy which increases the risk for developing aortic aneurysms
    • Aortic dissection
      
      • Retrograde extension of a dissection flap into the aortic valve annulus
      • Spontaneous or from trauma
  • Systemic diseases (rare)
    
    • Connective tissue diseases
      
      • Lupus
      • Rheumatoid arthritis
      • Ankylosing spondylitis
    • Vasculitides
      
      • Takayasu’s arteritis

Question 17

Hemodynamics of Aortic Regurgitation

• Chronic regurgitation
  
  • Chronic LV volume overload –>
  • LVEDV & LVEDP
  • Hypertrophy
  • Cardiomegaly
  • Increase LV wall thickness –>
• Chronic severe regurgitation
  
  • Aortic pulse pressure
  • Forward SV
  • End diastolic pressure
• Aortic regurgitation
  
  • Preload & compensatory time
  • LV compliance
  • LV filling pressure
  • Regurgitation

Answer 17

• Chronic regurgitation
  
  • Chronic LV volume overload –> LV remodeling
  • LVEDV & LVEDP increase
  • Eccentric hypertrophy
    
    • Increase LV diastolic wall stress –> sarcomere replication –> myocyte elongation –> LV cavity dilation
  • Cardiomegaly
    
    • Increase LV size –> compensatory increase wall thickness to restore normal LV wall stress
    • Untreated –> enlared heart –> increase myocardial mass –> cardiomegaly
  • Increase LV wall thickness –>
    
    • Increase LV wall stress, increase afterload mismatch, & LV systolic dysfunction
• Chronic severe regurgitation
  
  • Widened aortic pulse pressure
  • Increase LVEDV –> increase forward SV
  • Rapid diastolic run-off from aorta to LV –> equalized aortic & LV pressure at end of diastole –> abnormally low end diastolic pressure
• Acute regurgitation
  
  • Abrupt increase LV preload + insufficient time for compensatory LV remodeling
  • Unchanged LV compliance –> normal ventricle can’t accommodate large increases in LV volume
  • Increase LV filling pressure –> pulmonary edema
  • Acute aortic regurgitation w/ endocarditis, aortic dissection, & trauma

Question 18

Changes in LV Pressure-Volume Relationships

• Acute aortic regurgitation
• Chronic aortic regurgitation

Answer 18

• Acute aortic regurgitation
  
  • Upward LV pressure-volume curve shift
  • Increase LV volume –> greater increase in LV pressure
• Chronic aortic regurgitation
  
  • Ventricular remodeling –> new pressure-volume relationship
  • Significantly increase LV volume –> minimally increase LV pressure
  • LV systolic dysfunction: increase LV volume –> significantly increase LV pressure –> congestive heart failure

Question 19

Chronic Moderate to Severe Aortic Regurgitation Physical Findings

• PMI
• Quincke’s sign
• Corrigan’s or water hammer pulse
• Deroziez’s sign
• Hill’s sign

Answer 19

• Laterally displaced PMI
  
  • Due to cardiomegaly
• Quincke’s sign
  
  • Vascular pulsations in the capillary beds of fingernails
  • Augmented by shining a light through the fingertip & compression of the distal finger
• Corrigan’s or water hammer pulse
  
  • Peripheral artery rapid distension & collapse in the contour of the pulse
• Deroziez’s sign
  
  • Systolic femoral murmur w/ compresison of the proximal femoral artery
  • Diastolic femoral murmur w/ compression of the distal femoral artery
• Hill’s sign
  
  • >60 mmHg differential in teh brachial & popliteal systolic pressure

Question 20

Aortic Regurgitation Auscultation

• Chronic aortic regurgitation
  
  • Murmur
  • Heard
  • Morphology
• Aortic regurgitation related to aortic root dilation
  
  • Harvey’s sign
  • Severity of chronic aortic regurgitation
  • Forward SV
  • Austin-Flint murmur
• Severe acute aortic regurgitation
  
  • Murmur
  • Physical findings
  • Peripheral findings

Answer 20

• Chronic aortic regurgitation
  
  • High pitched diasotlic murmur
  • Heard w/ diaphragm in 3rd or 4th intercostal space at LSB
  • Decrescendo morphology: decreases intensity as retrograde flow decelerates w/ narrowing LV & aortic pressures
• Aortic regurgitation related to aortic root dilation
  
  • Harvey’s sign
    
    • Regurgitant murmur heard along the RSB
    • Augmented by listening at the end of expiration w/ the patient leaning forward
  • Severity of chronic aortic regurgitation
    
    • Correlates more w/ duration than intensity of diastolic murmur
  • Incresaed forward SV –> systolic murmur
    
    • Differentiated from a murmur related to coexisting aortic stenosis by palpation of the contour of the carotid pulse
  • Austin-Flint murmur
    
    • Low frequency diastolic murmur consistent w/ mitral stenosis but in the absence of mitral stenosis
    • Occurs due to impairment of mitral valve diastolic excursion from torrential flow related to aortic regurgitant jet
• Severe acute aortic regurgitation
  
  • Regurgitant murmur
    
    • Attenuated due to rapid near equalization of aortic & LV pressures
  • Physical findings
    
    • Cardoigenic shock w/ tachycardia, hypotension, & pulmonary edema
  • Peripheral findings
    
    • Not present

Question 21

Evaluation of Aortic Regurgitation

• Symptoms
• Valve replacement
• Echocardiogrpahy
  
  • Evaluates…
  • Asymptomatic patients w/ mild to moderate aortic regurgitation & normal LV function
  • Asymptomatic patients w/ moderate to severe aortic regurgitation & normal LV function
• If it’s unclear if a patient is asymptomatic

Answer 21

• Symptoms
  
  • Patients w/ aortic regurgitation tend to have long latent periods before developing symptoms as long as LV systolic function remains normal
  • Once LV dysfunciton develops, symptoms progress rapidly
• Valve replacement
  
  • Should occur prior ot the onset of symptoms, LV dysfunciton, or cardiomegaly
• Echocardiography
  
  • Evaluates & follows-up w/ aortic regurgitation, LV size, & LV function
  • Asymptomatic patients w/ mild to moderate aortic regurgitation & normal LV function: echo every 1-2 years
  • Asymptomatic patients w/ moderate to severe aortic regurgitation & normal LV function: echo every 6-12 months
• If it’s unclear if a patient is asymptomatic
  
  • Exercise can be helpful
  • Cardiac catheterization can be helpful but isn’t necessary

Question 22

Treatment of Chronic Severe Aortic Regurgitation

• Asymptomatic patients w/ normal LV function
• Patients w/ preserved LV systolic function & diastolic hypertension
• Before patients develop significant symptoms
• Patients w/ confomitant aortic pathology
• Patients w/ severe aortic regurgitation

Answer 22

• Asymptomatic patients w/ normal LV function
  
  • No treatment
  • Followed w/ serial exams & echoes
• Patients w/ preserved LV systolic function & diastolic hypertension
  
  • Diuretics, sodium restriction, & vasodilator therapy
  • Nifedipine or ACE-inhibitors may alleviate mild symptoms & slow progression
• Before patients develop significant symptoms, LV dilation, or LV systolic dysfunction
  
  • Surgical aortic valve replacement w/ a metallic or bioprosthetic valve
• Patients w/ confomitant aortic pathology
  
  • Aortic root replacement
• Patients w/ severe aortic regurgitation
  
  • Intra-aortic baloon pump (IABP) is contraindicated b/c diastolic inflation fo the IABP will worsen aortic regurgitation