2020 ACC/AHA Guideline for the Management of Patients with Valvular Heart Disease PDF

Summary

This document provides guidelines for the management of patients with valvular heart disease. It details the classification of disease stages and evaluation of patients, along with recommendations for interventions and medical therapies.

Full Transcript

2020 ACC/AHA Guideline for the
Management of Patients with Valvular
Heart Disease

Developed in collaboration with and endorsed by the American Association for
Thoracic Surgery, American Society of Echocardiography, Society for
Cardiovascular Angiography and Interventions, Society of Cardiovascular
Anesthesiologists, and Society of Thoracic Surgeons
 Citation

This slide set is adapted from the 2020 ACC/AHA Guideline for
the Management of Patients with Valvular Heart Disease.
Published on [DATE], available at: Journal of the American
College of Cardiology [(insert full link)] and Circulation [(insert
full link)]

The full-text guidelines are available on the ACC website
here, [(insert full link)] and the AHA website here, [(insert full
link)]
 2020 Writing Committee Members*
Catherine M. Otto, MD, FACC, FAHA, Co-Chair
Rick A. Nishimura, MD, MACC, FAHA, Co-Chair

Robert O. Bonow, MD, MS, MACC, FAHA Christopher McLeod, MBCHB, PhD, FAHA
Blasé A. Carabello, MD, FACC, FAHA Patrick O’Gara, MD, MACC, FAHA†
John P. Erwin III, MD, FACC, FAHA Vera H. Rigolin, MD, FACC, FAHA
Federico Gentile, MD, FACC Thoralf M. Sundt III, MD, FACC, FAHA
Hani Jneid, MD, FACC, FAHA Annemarie Thompson, MD
Eric V. Krieger, MD, FACC Christopher Toley
Michael Mack, MD, MACC

*Writing committee members are required to recuse themselves from voting on sections to which their specific relationships with
industry may apply; see Appendix 1 for detailed information. †ACC/AHA Representative. †ACC/AHA Joint Committee on Clinical
Practice Guidelines Liaison.

3
Table 2. ACC/AHA Applying
Class of Recommendation and
Level of Evidence to Clinical
Strategies, Interventions,
Treatments, or Diagnostic
Testing in Patient Care
(Updated May 2019)*

4
Top 10 Take-Home Messages

2020 Valvular Heart Disease Guidelines

5
 Top 10 Take Home Messages

1. Disease stages in patients with valvular
heart disease should be classified (Stages A,
B, C, and D) on the basis of symptoms,
valve anatomy, the severity of valve
dysfunction, and the response of the
ventricle and pulmonary circulation.
6
 Top 10 Take Home
Messages
2. In the evaluation of a patient with valvular heart disease, history and
physical examination findings should be correlated with the results of
noninvasive testing (i.e., ECG, chest x-ray, transthoracic
echocardiogram). If there is discordance between the physical
examination and initial noninvasive testing, consider further
noninvasive (computed tomography, cardiac magnetic resonance
imaging, stress testing) or invasive (transesophageal
echocardiography, cardiac catheterization) testing to determine
optimal treatment strategy.

7
 Top 10 Take Home
Messages
3. For patients with valvular heart disease and atrial fibrillation
(except for patients with rheumatic mitral stenosis or a mechanical
prosthesis), the decision to use oral anticoagulation to prevent
thromboembolic events, with either a vitamin K antagonist or a
non–vitamin K antagonist anticoagulant, should be made in a
shared decision-making process based on the CHA2DS2-VASc score.
Patients with rheumatic mitral stenosis or a mechanical prosthesis
and atrial fibrillation should have oral anticoagulation with a
vitamin K antagonist.
8
 Top 10 Take Home
Messages
4. All patients with severe valvular heart
disease being considered for valve
intervention should be evaluated by a
multidisciplinary team, with either referral
to or consultation with a Primary or
Comprehensive Valve Center.
9
 Top 10 Take Home
Messages
5. Treatment of severe aortic stenosis with either a
transcatheter or surgical valve prosthesis should
be based primarily on symptoms or reduced
ventricular systolic function. Earlier intervention
may be considered if indicated by results of
exercise testing, biomarkers, rapid progression, or
the presence of very severe stenosis.
10
 Top 10 Take Home Messages

6. Indications for transcatheter aortic valve implantation are
expanding as a result of multiple randomized trials of
transcatheter aortic valve implantation atrio versus surgical
aortic valve replacement. The choice of type of intervention
for a patient with severe aortic stenosis should be a shared
decision-making process that considers the lifetime risks and
benefits associated with type of valve (mechanical versus
bioprosthetic) and type of approach (transcatheter versus
surgical). 11
 Top 10 Take Home
Messages
7. Indications for intervention for valvular
regurgitation are relief of symptoms and
prevention of the irreversible long-term
consequences of left ventricular volume overload.
Thresholds for intervention now are lower than
they were previously because of more durable
treatment options and lower procedural risks.
12
 Top 10 Take Home
Messages
8. A percutaneous edge-to-edge mitral repair is of
benefit to patients with severely symptomatic
primary mitral regurgitation who are at high or
prohibitive risk for surgery, as well as to a select
subset of patients with severely symptomatic
secondary mitral regurgitation despite guideline-
directed management and therapy for heart failure.
13
 Top 10 Take Home
Messages
9. Patients presenting with severe symptomatic
isolated tricuspid regurgitation, commonly
associated with device leads and atrial fibrillation,
may benefit from surgical intervention to reduce
symptoms and recurrent hospitalizations if done
before the onset of severe right ventricular
dysfunction or end-organ damage to the liver and
kidney. 14
 Top 10 Take Home
Messages
10. Bioprosthetic valve dysfunction may occur
because of either degeneration of the valve
leaflets or valve thrombosis. Catheter-based
treatment for prosthetic valve dysfunction is
reasonable in selected patients for
bioprosthetic leaflet degeneration or
paravalvular leak in the absence of active
15
General Principles

16
 Table 3. Evaluation of Patients
with Known or Suspected VHD

Reason Test Indication

TTE* Establishes chamber size and function, valve morphology
Initial evaluation: All
and severity, and effect on pulmonary and systemic
patients with known or circulation
suspected valve disease
History and Establishes symptom severity, comorbidities, valve disease
physical presence and severity, and presence of HF

ECG Establishes rhythm, LV function, and presence or absence of
hypertrophy

*TTE is the standard initial diagnostic test in the initial evaluation of patients with known
or suspected VHD
17
 Table 3. Evaluation of Patients
with Known or Suspected VHD

Reason Test Indication

Further diagnostic testing: Information Chest x-ray Important for the symptomatic patient; establishes heart size and

required for equivocal symptom status, presence or absence of pulmonary vascular congestion, intrinsic

discrepancy between examination and lung disease, and calcification of aorta and pericardium

echocardiogram, further definition of valve
TEE Provides high-quality assessment of mitral and prosthetic valve,
disease, or assessing response of the ventricles
including definition of intracardiac masses and possible associated
and pulmonary circulation to load and to
abnormalities (e.g., intracardiac abscess, LA thrombus)
exercise

CMR Provides assessment of LV volumes and function, valve severity,

and aortic disease

18
 Table 3. Evaluation of Patients
with Known or Suspected VHD

Reason Test Indication

Further diagnostic testing: PET CT Aids in determination of active infection or inflammation
Information required for equivocal
symptom status, discrepancy between
Stress testing Gives an objective measure of exercise capacity
examination and echocardiogram,
further definition of valve disease, or
Catheterization Provides measurement of intracardiac and pulmonary
assessing response of the ventricles and
pressures, valve severity, and hemodynamic response to
pulmonary circulation to load and to
exercise and drugs
exercise

19
 Table 3. Evaluation of Patients
with Known or Suspected VHD

Reason Test Indication

Further risk stratification: Biomarkers Provide indirect assessment of filling pressures and

Information on future risk of myocardial damage
the valve disease, which is
TTE strain Helps assess intrinsic myocardial performance
important for determination
of timing of intervention
CMR Assesses fibrosis by gadolinium enhancement

20
 Table 3. Evaluation of Patients
with Known or Suspected VHD

Reason Test Indication

Further risk stratification: Stress testing Provides prognostic markers

Information on future risk of

the valve disease, which is
Procedural risk Quantified by STS (Predicted Risk of Mortality) and
important for determination of
TAVI scores
timing of intervention
Frailty score Provides assessment of risk of procedure and chance of

recovery of quality of life

21
 Table 3. Evaluation of Patients
with Known or Suspected VHD
Reason Test Indication

Preprocedural testing: Dental examination Rules out potential infection sources

Testing required before

valve intervention CT coronary angiogram or invasive coronary Provides an assessment of coronary anatomy

angiogram

CT: peripheral Assess femoral access for TAVI and other transcatheter

procedures

CT: cardiac Assesses suitability for TAVI and other transcatheter

procedures

CMR indicates cardiac magnetic resonance; CT, computed tomography; ECG, electrocardiogram; HF, heart failure; LV, left ventricular; PET, positron
emission tomography; STS, Society of Thoracic Surgeons; TAVI, transcatheter aortic valve implantation; TEE, transesophageal echocardiography;
TTE, transthoracic echocardiography; and VHD, valvular heart disease.

22
 Table 4. Stages of VHD
Stage Definition Description

A At risk Patients with risk factors for development of VHD

B Progressive Patients with progressive VHD (mild to moderate severity and asymptomatic)

C Asymptomatic Asymptomatic patients who have the criteria for severe VHD:
severe C1: Asymptomatic patients with severe VHD in whom the LV or RV remains
compensated space
C2: asymptomatic patients with severe VHD with decompensation of LV or RV

D Symptomatic severe Patients who have developed symptoms as a result of VHD

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Diagnosis and Follow-up

24
 Diagnostic Testing: Routine
Follow-up
Table 5. Frequency of Echocardiograms in Asymptomatic Patients with VHD and
Normal LV Function
Type of Valve Lesion

Stage Aortic Stenosis* Aortic Regurgitation Mitral Stenosis Mitral Regurgitation

Progressive  Every 3–5 y (mild  Every 3–5 y (mild Every 3–5 y  Every 3–5 y (mild severity)
(Stage B) severity; Vmax 2.0–2.9 severity) (MV area >1.5 cm2)

m/s)

 Every 1–2 y moderate  Every 1–2 y (moderate  Every 1–2 y (moderate

severity; Vmax 3.0–3.9 severity) severity)

m/s)

Patients with mixed valve disease may require serial evaluations at intervals earlier than recommended for single-valve lesions. These
intervals apply to most patients with each valve lesion and do not take into consideration the etiology of the valve disease.
*With normal stroke volume.
25
 Diagnostic Testing: Routine
Follow-up
Table 5. Frequency of Echocardiograms in Asymptomatic Patients with VHD and Normal LV Function

Type of Valve Lesion

Stage Aortic Stenosis* Aortic Regurgitation Mitral Stenosis Mitral Regurgitation

Severe Every 6–12 mo Every 6–12 mo  Every 1–2 y (MV area 1.0– Every 6–12 mo

asymptomatic (Vmax ≥4 m/s) 1.5 cm2)
(Stage C1)

Dilating LV: More  Every year (MV area 3 months ago,

a non–vitamin K oral anticoagulant (NOAC) is an effective alternative to
1 A
VKA anticoagulation and should be administered on the basis of the

patient’s CHA2DS2-VASc score.

2. For patients with AF and rheumatic MS, long-term VKA oral

1 C-EO anticoagulation is recommended.

33
 Anticoagulation for AF in Patients With
VHD

COR LOE Recommendations

3. For patients with new-onset AF  3 months after surgical or
transcatheter bioprosthetic valve replacement, anticoagulation
2a B-NR
with a VKA is reasonable.

4. In patients with mechanical heart valves with or without AF
who require long-term anticoagulation with VKA to prevent
3: Harm B-R
valve thrombosis, NOACs are not recommended.

34
Figure 1.
Anticoagulati
on for AF in
Patients With
VHD.

Colors
corresponds
to Table 2.

35
 Evaluation of Surgical and Interventional
Risk

COR LOE Recommendation

1. For patients with VHD for whom intervention is contemplated,
individual risks should be calculated for specific surgical and/or
1 C-EO transcatheter procedures, using online tools when available, and
discussed before the procedure as a part of a shared decision-making
process.

36
 Table 8. Risk Assessment for Surgical Valve
Procedures Footnote text located on the next slide
Criteria Low-Risk SAVR (Must Low-Risk Surgical Mitral High Surgical Risk Prohibitive Surgical Risk
Meet ALL Criteria in This Valve Repair for Primary (Any 1 Criterion in This (Any 1 Criterion in This Column)
Column) MR (Must Meet ALL Column)
Criteria in This Column)

STS-predicted risk of 50% at 1 y
OR

Frailty† None None ≥2 Indices (moderate to ≥2 Indices (moderate to severe)
AND AND severe) OR
OR

Cardiac or other major None None 1 to 2 Organ systems ≥3 Organ systems
organ system compromise AND AND OR OR
not to be improved
postoperatively‡

Procedure-specific None None Possible procedure-specific Severe procedure-specific
impediment§ impediment impediment
37
 Table 8. Surgical Risk
Assessment
*Use of the STS Predicted Risk of Mortality (http://riskcalc.sts.org/stswebriskcalc/#/) to predict risk in a given institution with reasonable reliability is appropriate only if

institutional outcomes are within 1 standard deviation of the STS average observed/expected mortality ratio for the procedure in question. The EUROSCORE II risk

calculator may also be considered for use and is available at http://www.euroscore.org/calc.html.

†Seven frailty indices: Katz Activities of Daily Living (independence in feeding, bathing, dressing, transferring, toileting, and urinary continence) plus independence in

ambulation (no walking aid or assistance required, or completion of a 5-m walk in 15
Life expectancy Life Life expectancy 40 years of age and
postmenopausal women), invasive coronary angiography is indicated before valve intervention.
2. In patients with chronic severe secondary MR, invasive coronary angiography should be
1 C-LD
performed as part of the evaluation.
3. In selected patients with a low to intermediate pretest probability of CAD, contrast-enhanced
2a B-NR coronary CT angiography is reasonable to exclude the presence of significant obstructive CAD.

4. In patients undergoing valve repair or replacement with significant proximal CAD (≥70%
reduction in luminal diameter in major coronary arteries or ≥50% reduction in luminal
2a C-LD diameter in the left main coronary artery and/or physiologically significance), CABG is
reasonable for selective patients.

205
 Intervention for AF in
Patients With VHD
COR LOE Recommendations
1. In patients with VHD and AF for whom surgical intervention is planned, the
potential symptomatic benefits and additional procedural risks of adjunctive
1 C-LD arrhythmia surgery at the time of cardiac valvular surgery should be discussed with
the patient.
2. For symptomatic patients with paroxysmal or persistent AF who are undergoing
valvular surgery, surgical pulmonary vein isolation or a maze procedure can be
2a B-R
beneficial to reduce symptoms and prevent recurrent arrhythmias.

3. For patients with AF or atrial flutter who are undergoing valve surgery, LA
appendage ligation/excision is reasonable to reduce the risk of thromboembolic
2a B-NR
events.

206
 Intervention for AF in Patients With
VHD
COR LOE Recommendations
4. In patients undergoing LA surgical ablation of atrial
arrhythmias and/or LA appendage ligation/excision,
2a B-NR
anticoagulation therapy is reasonable for at least 3 months
after the procedure.
5. For patients without atrial arrhythmias who are undergoing
3: valvular surgery, LA appendage
B-NR
Harm occlusion/exclusion/amputation is potentially harmful.

207
Figure 20.
Intervention for
AF in patients
with VHD.

Colors
correspond to
Table 2.

208
Noncardiac Surgery in Patients with
VHD

209
 Diagnosis in Patients With VHD
Undergoing Noncardiac Surgery

COR LOE Recommendation

1. In patients with clinically suspected moderate or
greater degrees of valvular stenosis or
regurgitation who are undergoing noncardiac
1 C-EO
surgery, preoperative echocardiography is
recommended.

210
 Management of the Symptomatic
Patient With VHD Undergoing
Noncardiac Surgery

COR LOE Recommendation
1. In patients who meet standard indications for intervention
for VHD (replacement and repair) on the basis of symptoms
and disease severity, intervention should be performed
before elective noncardiac surgery to reduce perioperative
1 C-EO
risk if possible, depending on the urgency and risk of the
noncardiac procedure.

211
 Management of the Asymptomatic
Patient With VHD Undergoing
Noncardiac Surgery
COR LOE Recommendations

1. In asymptomatic patients with moderate or greater degrees of AS and normal LV systolic
2a B-R function, it is reasonable to perform elective noncardiac surgery.

2. In asymptomatic patients with moderate or greater degrees of rheumatic MS with less
than severe pulmonary hypertension (pulmonary artery systolic pressure