Formal echocardiography: Difference between revisions

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**Below the line for pulmonic and aortic valves (systole)
**Below the line for pulmonic and aortic valves (systole)
**Above the line in tricuspid and mitral valves (diastole)
**Above the line in tricuspid and mitral valves (diastole)
 
*Coronary artery distributions
**LAD, circumflex, RCA
**Left marginal = obtuse marginal
**Right marginal
[[File:LV distribution coronary arteries.jpg|thumbnail|LV Coronary Artery Distributions]]
[[File:Coronary Artery Distribution.jpg|thumbnail|Coronary Artery Distribution, Grayscale]]
===Parasternal long===
===Parasternal long===
*Assess for mitral valve prolapse, systolic anterior motion
*Assess for mitral valve prolapse, systolic anterior motion
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**Pleural effusion posterior to descending aorta
**Pleural effusion posterior to descending aorta
[http://www.onlinejets.org/viewimage.asp?img=JEmergTraumaShock_2012_5_1_72_93118_u6.jpg Pericardial effusion vs. pleural effusion]
[http://www.onlinejets.org/viewimage.asp?img=JEmergTraumaShock_2012_5_1_72_93118_u6.jpg Pericardial effusion vs. pleural effusion]
*Wall motion assessment obtains LAD and Circumflex coronary artery distributions
[[File:Parasternal Long Wall Motion.png|thumbnail|Parasternal Long Wall Motion]]
*EPSS, E-Point Septal Separation in PSL view
*EPSS, E-Point Septal Separation in PSL view
**M-mode distance in mm between anterior leaflet of MV and septum in diastole
**M-mode distance in mm between anterior leaflet of MV and septum in diastole
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===Parasternal short===
===Parasternal short===
*See [[Aortic stenosis]] regarding evaluation of cuspidity
*Evaluate kinetics of LV motion anatomically by coronary artery flow
[[File:Parasternal Short Wall Anatomy.png|thumbnail|Parasternal Short Wall Anatomy]]
[[File:Coronary Artery Distribution in Wall Motion Evaluation.png|thumbnail|Coronary Artery Distribution in PSS Axis]]


===Apical===
===Apical===
*Best obtained in left lateral decubitus with L arm above head to open up ribs
*Best obtained in left lateral decubitus with left arm above head to open up ribs
*EF estimation
*EF estimation
**LVEF by Simpson, LV volume change  
**LVEF by Simpson, LV volume change  
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***30-44% = moderately depressed
***30-44% = moderately depressed
***<30% = severely depressed
***<30% = severely depressed
*Evaluation for wall motion abnormality
[[File:Apical Wall Motion.png|thumbnail|Apical Wall Motion and Coronary Artery Distribution (red box in PSS view in left image representative of apical 4 chamber window)]]
====Apical Two Chamber View====
*Infrequently used unless concern exists for full evaluation of wall motion abnormality in LV
*Obtains better views of RCA and LAD distribution
[[File:Apical Two Chamber View.png|thumbnail|Apical Two Chamber with RCA and LAD Distribution]]
====Aortic Stenosis====
*See [[Aortic stenosis]] for formal echo evaluation
====Mitral Stenosis====
*See [[Mitral stenosis]] for formal echo evaluation


====Diastolic Function<ref>Dokainish H. Left ventricular diastolic function and dysfunction: Central role of echocardiography. Glob Cardiol Sci Pract. 2015; 2015: 3.</ref>====
====Diastolic Function<ref>Dokainish H. Left ventricular diastolic function and dysfunction: Central role of echocardiography. Glob Cardiol Sci Pract. 2015; 2015: 3.</ref>====
*Worsening diastolic dysfunction corresponds to less fluid responsive hypotension and more volume overload
*Worsening diastolic dysfunction corresponds to less fluid responsive hypotension and more volume overload
**For example, septic/hypotensive patients with baseline diastolic dysfunction
**Septic/hypotensive patients with baseline diastolic dysfunction will not have reliable IVC ultrasounding for fluid responsiveness
**Pts in impaire relaxation can stand to be volume resuscitated just until impaired relaxation becomes pseudonormal
**Pts in impaired relaxation states can stand to be volume resuscitated just until impaired relaxation becomes pseudonormal
**Otherwise seen as the E wave ≈ A wave (give fluids until E wave increases up to A wave)
**Otherwise seen as the E wave ≈ A wave (give fluids until E wave increases up to A wave)
*PW Doppler across MV in apical view bisecting across MV tips during opening, diastole
**If still hypotensive at that point, pt volume resuscitated, then start vasopressors
*Tissue doppler at MV annulus (base) at either septum or lateral position to measure tissue velocity
**Patients with pseudonormal or worse diastolic dysfunction require vasopressors, not more fluids
*Measure E and A waves, then e' and a' waves with tissue doppler
**PW Doppler across MV in apical view bisecting across MV tips during opening, diastole
**Tissue doppler at MV annulus (base) at either septum or lateral position to measure tissue velocity
**E/e' ratio ≅ LVEDP (PCWP)
[[File:MVI and TDI.jpg|thumbnail|PW across Mitral Valve Opening and Tissue Doppler of Mitral Valve Annulus]]
[[File:MVI and TDI.jpg|thumbnail|PW across Mitral Valve Opening and Tissue Doppler of Mitral Valve Annulus]]
*The following rules will apply to most patients<ref>123sonography. Nov 20, 2010. https://www.youtube.com/watch?v=qdLkbcFe_DI.</ref>[https://www.youtube.com/watch?v=qdLkbcFe_DI (Video)]
*The following rules will apply to most patients<ref>123sonography. Nov 20, 2010. https://www.youtube.com/watch?v=QDLkbcFe_DI.</ref>[https://www.youtube.com/watch?v=QDLkbcFe_DI (Video)]
#Rule 1: Normal diastolic function if echo normal, age<45 yrs, E>A
#Rule 1: Normal diastolic function if echo normal, age<45 yrs, E>A
#Rule 2: Impaired relaxation if A>E, with E/A<1
#Rule 2: Impaired relaxation if A>E, with E/A<1
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**Septal MV annulus TD, E' magnitude less than 8 cm/s suggestive of diastolic dysfunction
**Septal MV annulus TD, E' magnitude less than 8 cm/s suggestive of diastolic dysfunction
**Lateral MV annulus TD, E' < 10 cm/s suggestive of diastolic dysfunction
**Lateral MV annulus TD, E' < 10 cm/s suggestive of diastolic dysfunction
*E/e' ratio ≅ LVEDP (PCWP)


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Revision as of 08:38, 7 July 2017

Diagnostic Pearls

  • Normal directional flow in CW and PW in apical, parasternal short:
    • Below the line for pulmonic and aortic valves (systole)
    • Above the line in tricuspid and mitral valves (diastole)
  • Coronary artery distributions
    • LAD, circumflex, RCA
    • Left marginal = obtuse marginal
    • Right marginal
LV Coronary Artery Distributions
Coronary Artery Distribution, Grayscale

Parasternal long

  • Assess for mitral valve prolapse, systolic anterior motion
  • Differentiate pleural effusion from pericardial effusion
    • Pericardial effusion is anterior to descending aorta
    • Pleural effusion posterior to descending aorta

Pericardial effusion vs. pleural effusion

  • Wall motion assessment obtains LAD and Circumflex coronary artery distributions
Parasternal Long Wall Motion
  • EPSS, E-Point Septal Separation in PSL view
    • M-mode distance in mm between anterior leaflet of MV and septum in diastole
    • E-point is shortest distance
    • LVEF = 75.5 - 2.5 x EPSS in mm[1]
      • EPSS and MRI LVEF correlated ~0.80 in study that generated equation
      • Excluded MV prostheses, asymmetrical septal hypertrophy, significant aortic regurgitation
    • Values as calculated by above study
      • < 5 mm, normal
      • > 7 mm, EF < 50%
      • > 18 mm, EF < 30%
    • Falsely elevated EPSS in:

Parasternal short

  • See Aortic stenosis regarding evaluation of cuspidity
  • Evaluate kinetics of LV motion anatomically by coronary artery flow
Parasternal Short Wall Anatomy
Coronary Artery Distribution in PSS Axis

Apical

  • Best obtained in left lateral decubitus with left arm above head to open up ribs
  • EF estimation
    • LVEF by Simpson, LV volume change
    • LVEF by Teichholz method, using M-mode (estimation of LV volume by diameter measured just beyond mitral tips in diastole)
    • EF visual assessment:
      • >65% = hyperdynamic
      • 55-65% = normal
      • 45-54% = mildly depressed
      • 30-44% = moderately depressed
      • <30% = severely depressed
  • Evaluation for wall motion abnormality
Apical Wall Motion and Coronary Artery Distribution (red box in PSS view in left image representative of apical 4 chamber window)

Apical Two Chamber View

  • Infrequently used unless concern exists for full evaluation of wall motion abnormality in LV
  • Obtains better views of RCA and LAD distribution
Apical Two Chamber with RCA and LAD Distribution

Aortic Stenosis

Mitral Stenosis

Diastolic Function[2]

  • Worsening diastolic dysfunction corresponds to less fluid responsive hypotension and more volume overload
    • Septic/hypotensive patients with baseline diastolic dysfunction will not have reliable IVC ultrasounding for fluid responsiveness
    • Pts in impaired relaxation states can stand to be volume resuscitated just until impaired relaxation becomes pseudonormal
    • Otherwise seen as the E wave ≈ A wave (give fluids until E wave increases up to A wave)
    • If still hypotensive at that point, pt volume resuscitated, then start vasopressors
    • Patients with pseudonormal or worse diastolic dysfunction require vasopressors, not more fluids
  • Measure E and A waves, then e' and a' waves with tissue doppler
    • PW Doppler across MV in apical view bisecting across MV tips during opening, diastole
    • Tissue doppler at MV annulus (base) at either septum or lateral position to measure tissue velocity
    • E/e' ratio ≅ LVEDP (PCWP)
PW across Mitral Valve Opening and Tissue Doppler of Mitral Valve Annulus
  • The following rules will apply to most patients[3](Video)
  1. Rule 1: Normal diastolic function if echo normal, age<45 yrs, E>A
  2. Rule 2: Impaired relaxation if A>E, with E/A<1
  3. Rule 3: Pseudonormal if echo abnormal (LVH), age>65, E>A, E/A>1
  4. Rule 4: Restrictive filling if E/A>2
Diastology Chart
Comprehensive Diastology Chart
  • Evaluate the E' and A' in tissue doppler to differentiate normal diastolic function from pseudonormalization[4]
    • Septal MV annulus TD, E' magnitude less than 8 cm/s suggestive of diastolic dysfunction
    • Lateral MV annulus TD, E' < 10 cm/s suggestive of diastolic dysfunction
Normal Impaired Pseudonormal Restrictive
LVEDP < 15 mmHg < 15 mmHg 15-25 mmHg > 25 mmHg
E velocity Normal Stays Same ~ 100 cm/s ~150 cm/s
A velocity Normal ↓↓
E/A > 1 < 1 > 1 > 2
TDI e' > a' a' > e' a' > e' a' ≈ e'
E/e' < 15 < 15 > 15 > 15
e' (septal) > 8 cm/s < 8 cm/s << 8 cm/s <<< 8 cm/s

Two chamber view

Three chamber view

Subxiphoid view

Suprasternal view

See Also

External Links

References

  1. Silverstein JR et al. Quantitative Estimation of Left Ventricular Ejection Fraction from Mitral Valve E-Point to Septal Separation and Comparison to Magnetic Resonance Imaging. Jan 2006. Vol 97, Issue 1, Pg 137=140.
  2. Dokainish H. Left ventricular diastolic function and dysfunction: Central role of echocardiography. Glob Cardiol Sci Pract. 2015; 2015: 3.
  3. 123sonography. Nov 20, 2010. https://www.youtube.com/watch?v=QDLkbcFe_DI.
  4. Nagueh SF, Appleton CP, Gillebert TC, Marino PN, Oh JK, Smiseth OA, Waggoner AD, Flachskampf FA, Pellikka PA, and Evangelisa A. Recommendations for the evaluation of left ventricular diastolic function by echocardiography. Eur J Echocardiogr. 2009 Mar;10(2):165-93.