Module 15 : Intro to Systolic Function

Question 1

what are the apical views for assessing wall motion

Answer 1

• PLAX
• PSAX LV base
• Apical 2 chamber
• apical 4 chamber

Question 2

quantitative assessment of LV systolic function

Answer 2

• MEASURING
• SV/EF/CO
• simpsons

Question 3

qualitative assessment of LV systolic function

Answer 3

• visual/descriptive
• visual EF
• segmental wall motion analysis

Question 4

wall motion can be describes as

Answer 4

• hyperkinetic
• normal
• hypokinetic
• akinetic
• dyskinetic

Question 5

segmental VS global approach **

Answer 5

• you can describe visual wall motion as segmental or global
  + global= entire heart effected
  + segmental = just one region of heart effected

Question 6

hyperkinesis

Answer 6

• excessive wall motion
• high preload
• severe regurgitation
• fever
• trauma

Question 7

hypokinesis

Answer 7

• motion/wall thickening is reduced

- not normal but not akinetic

Question 8

factors leading to hypokinesis

Answer 8

• CAD = coronary artery disease
• CMO = cardiomyopathy
• long standing valve disease

Question 9

akinetic

Answer 9

• no thickening
• may have motion if tethered to a moving segment adjacent to it
• look for thickening

Question 10

factors causing akinesis

Answer 10

• MI = myocardial infarction

- viral CMO = viral cardiomyopathy

Question 11

dyskinetic

Answer 11

• wall or segment is moving the OPPOSITE DIRECTION as normal segments in systole

Question 12

factors causing dyskinesis

Answer 12

• increased right heart pressure
• pacemaker
• BBB = bundle branch block
• longstanding scarred segment

Question 13

ways to assess LV EF - least to most accurate

Answer 13

- Teicholz (parasternal - EF) or LINEAR
   \+ FS (LVIDd) - dimension 
   \+ CO (SV x HR)
- Simpsons Biplane EF 
   \+ recommended 
- 3D trace (3D EF)
   \+ only most accurate when performed by well experienced staff

Question 14

volumetric assessment of LV function (quantification)

Answer 14

- Simpsons Biplane 
   \+ end diastolic trace 
   \+ end systole volume 
 - then get STROKE VOLUME and EF
- then combine SV with HR to get CARDIAC OUTPUT

Question 15

images needed to calculate LV stroke volume DOPPLER METHOD

Answer 15

• LVOT diameter (PLAX)

- LVOT VTI (apical 5 PW of LVOT)

Question 16

3 ways to determine end diastole in 2D scanning

Answer 16

1) onset of QRS complex
2) FRAME AFTER MV CLOSURE (both valves closed)
3) Frame where LV dimension if largest

Question 17

3 ways to determine end systole in 2D scanning

Answer 17

1) THE FRAM PRECEDING MV OPENING (both valves closed)
2) when the LV is at its smallest
3) near the end of the T wave

Question 18

triplane EF

Answer 18

• uses 3D
• gives real time volume info
• volume changes over time
• uses 3D echo probe

Question 19

ASE recommendations for EF

Answer 19

• use modified simpsons EF with biplane apical approach for the measurement of EF
  + felt to be quite accurate and most studied
  + more universal than 3D
  + 3D more accurate when done well

Question 20

systolic dysfunction

Answer 20

• inability to contract

+ usually due to CAD (coronary arterial disease)

Question 21

decrease in systolic function causes what to happen

Answer 21

• decrease in SV/EF

- due to inadequate contraction to meet the demands of the body

Question 22

decrease in SV/EF due to systolic dysfunction can lead to what

Answer 22

• congestive heart failure

Question 23

congestive heart failure

Answer 23

• chambers state to dilate when there is a back up of blood behind the chamber due to its inability to contract and move forward

Question 24

qualitative assessment of RV systolic function

Answer 24

• eyeball

Question 25

quantitative assessment of RV systolic function

Answer 25

• FAC = fractional area change
• TAPSE = tricuspid annular plane systolic excursion
• S prime = doppler TDI (tissue doppler imaging)

Question 26

eyeball method - RV grades

Answer 26

• normal
• mildly reduced
• moderately reduced
• severely reduced

Question 27

what will a hypokinetic RV look like

Answer 27

• it will be dilated

Question 28

fractional area change FAC

Answer 28

• comparison of area change between systole and diastole

+ not a volumetric change like simpsons

Question 29

calculating FAC

Answer 29

• trace endocardial border surface in apical 4 chamber in
  + END DIASTOLIC AREA
  + END SYSTOLIC AREA
• trace along IVS from base to apex then along RV free wall to annulus then back to beginning

Question 30

FAC formula

Answer 30

FAC=[(EDA-ESA) / EDA] x 100

Question 31

normal FAC value

Answer 31

> 35%

Question 32

3D images with contrast used when

Answer 32

• used when regular 2D imaging is poor but need an EF

Question 33

Thethering

Answer 33

A normal LV segment dragging a nearby akinetic segment making it look normal