7. Ventricular Diastolic Function Flashcards
Phases of diastole
- Isovolumic relaxation 2. Early, rapid LV inflow 3. Diastasis 4. Atrial contraction
LV relaxation vs compliance
LV Relaxation: involves the resequestration of calcium from the cytosol back into the SR * active process using Ca pumps * allows myofibrils to relax LV compliance: depends on the passive properties of the ventricle
Mitral Inflow, IVRT and deceleration time
IVRT: time from end systole to beginning of E wave DT: time from peak E wave velocity to zero Impaired relaxation: IVRT >110ms (delayed MV opening) DT > 250ms Decreased compliance: IVRT < 60ms (early MV opening due to high LA pressures) DT < 140ms
Transmitral Inflow, impaired relaxation
The initial abnormality in most cardiac disorders - ischemia/MI - hypertrophy - hypertrophic cardiomyopathy - infiltrative disorders Characteristics - E/A reversal (E/A < 1) - Prolonged DT - Prolonged IVRT
Transmitral Inflow, restrictive pattern
Markedly decreased LV compliance causing increased left atrial pressures - Restriction coexists with impaired relaxation, but overwhelms changes caused by impaired relaxation Characteristics: - Elevated E wave (due to elevated LAP) - Decreased A wave (poor atrial contractility) - E/A > 2 - shortened IVRT - shortened DT
Transmitral inflow pattern changes with preload reduction
Decreasing preload by NTG, reverse T-berg, vasalva - healthy individual has proportional decrease in E and A wave - pseudonormal will slide back to impaired relax pattern - restrictive will slide back to pseudonormal, unless end-stage and irreversible
Pulmonary Venous Flow Tracing
- Anterograde systolic velocity (S) - Often biphasic * S1 = left atrial relaxation * S2 = RV stroke volume, LA compliance, early ventricular systole (many things together) 2. Diastole (D) - LA serves as open conduit from PV to LV 3. Atrial flow reversal (A) - LA contraction
Pulmonary Vein Tracing, Normal Values
- S wave - Equal to or greater than diastolic - VTIsys/(VTIsys+VTIdias) < 40% denotes in left atrial pressures 2. A wave - Duration same or less than transmitral A wave (>30ms longer is abnormal) * Denotes more blood going forward (normal) than backwards - Peak velocity 35cm/s or more greater than mitral A wave is abnormal
Pulmonary Vein Tracing, Impaired Relaxation
- Reduce D wave velocity (parallels decrease in mitral E wave velocity) - Compensatory increase in S wave - ** Systolic predominance
Pulmonary Vein Tracing, Pseudonormal
- Systolic blunting (due to reduced ventricular compliance) - A wave with prolonged duration and increased velocity
Pulmonary Vein Tracing, Restrictive
- Systolic blunting (due to reduced ventricular compliance) - A wave with decreased velocity, often due to failure of atria - Diastolic wave DT shortened (similar to transmitral E wave DT shortening with restrictive defect)
Transmitral and Pulmonary Vein Limitations
- Preload, afterload, HR, rhythm all have effects
Tissue doppler to assess mitral annular motion, general considerations
- Use ME 4 chamber view - Best alignment to assess lateral wall * Septal wall possible, although velocities are lower and blood flow in LVOT can obscure measurements
TDI of mitral annular motion, normal
- Mirror image of transmitral flow velocities, with lower velocities (E’, A’, S’) - E’ normal 8-15 cm/s *** PRELOAD INSENSITIVE ***
TDI of mitral annular motion, pathology
Impaired relaxation: E’ wave decreased while A’ wave remains normal (similar to transmitral flow) Pseudonormal and Restrictive: A’ begins to fall, BUT E’/A’ remains decreased such that E’/A’ <8 (differs from transmitral flow here)
Comparison of Doppler measures of diastolic function
