Patent Ductus Arteriosus (PDA) Echocardiographic Assessment: Anatomy, Flow & Suitability for Closure
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Apr 15, 2021
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About This Presentation
A 30-minute talk, presented as part of the weekly teaching activities in Alder Hey Children's Hospital (Liverpool, UK). It addresses PDA evaluation in children - starting with embryology & anatomy with the basis behind physiological closure versus patency after birth. What is the role of ech...
Slide Content
PDA Echocardiographic
Assessment: Anatomy,
Flow & Suitability for
Closure
Abd El-Salam Al-Ethawi, MD
Specialty Doctor in Paediatric Cardiology,
Alder Hey Children’s Hospital
2021
Assessment: Anatomy,
Flow & Suitability for
Closure
Abd El-Salam Al-Ethawi, MD
Specialty Doctor in Paediatric Cardiology,
Alder Hey Children’s Hospital
2021
Disclaimer:
AUDIENCE TIME FEEDBACK
AUDIENCE TIME FEEDBACK
Objectives:
•To know the embryologicorigin of PDA
•Basis behind physiological closurevs patency
•To understand PDA anatomy, its variants, and suitability for closure
•How can we diagnose PDA with echo?
•What are the helpful modes (2D, CW, PW, M-Mode)?
•Some echo limitations?
•To know the embryologicorigin of PDA
•Basis behind physiological closurevs patency
•To understand PDA anatomy, its variants, and suitability for closure
•How can we diagnose PDA with echo?
•What are the helpful modes (2D, CW, PW, M-Mode)?
•Some echo limitations?
Background
The ductus arteriosus(DA):
fetal vascular connection
between the main pulmonary
artery and the aorta that diverts
blood away from the
pulmonary bed.
fetal vascular connection
between the main pulmonary
artery and the aorta that diverts
blood away from the
pulmonary bed.
•Derived from the embryonic left
sixthaortic arch.
•Aortic endarises distal to the
left subclavian artery and the
pulmonary endinserts at the
junction of the main and left
pulmonary arteries.
sixthaortic arch.
•Aortic endarises distal to the
left subclavian artery and the
pulmonary endinserts at the
junction of the main and left
pulmonary arteries.
•Right aortic arch:
•Mostly, DA arises from the left
innominate arteryand inserts
into the proximal LPA.
•Less frequently, the DA arises
distal to right subclavian
arteryand inserts near the
proximal RPA.
•Rarely, bilateral DA; presence
of other complex congenital
cardiovascular anomalies.
•Mostly, DA arises from the left
innominate arteryand inserts
into the proximal LPA.
•Less frequently, the DA arises
distal to right subclavian
arteryand inserts near the
proximal RPA.
•Rarely, bilateral DA; presence
of other complex congenital
cardiovascular anomalies.
Vascular ringdue to PDA?
•Right aortic arch + aberrant
left subclavian artery.
•Right aortic arch + aberrant
left subclavian artery.
Histology:
•Intima thicker
•Media contains more smooth
muscle fibers arranged in a
characteristic spiral fashion
Abnormal wall structure
Failure to spont. closure
•Intima thicker
•Media contains more smooth
muscle fibers arranged in a
characteristic spiral fashion
Abnormal wall structure
Failure to spont. closure
Krichenkoangiographic classification:
•Type A–Conical; narrowest portion at PA.
•Type B–Short with narrowing at Ao.
•Type C–Tubular without constriction
•Type D–Tubular with multiple constrictions
•Type E–Bizarre, with an elongated, conical
appearance and multiple constrictions
Not include the ‘reverse-oriented ductus’
•Type A–Conical; narrowest portion at PA.
•Type B–Short with narrowing at Ao.
•Type C–Tubular without constriction
•Type D–Tubular with multiple constrictions
•Type E–Bizarre, with an elongated, conical
appearance and multiple constrictions
Not include the ‘reverse-oriented ductus’
Fetal Circulation:
RV accommodates 60 percentof the total
COP.
•Pulmonary vasculature is constricted high
PVR.
•In contrast, the placentacreates a very low
resistance bed low SVR.
↓
•Majority of blood passes right-to-left
across the DA into the descending aorta
and on to the placenta.
RV accommodates 60 percentof the total
COP.
•Pulmonary vasculature is constricted high
PVR.
•In contrast, the placentacreates a very low
resistance bed low SVR.
↓
•Majority of blood passes right-to-left
across the DA into the descending aorta
and on to the placenta.
•In the fetus, the DA is large, with a diameter
approximating that of the descending
aorta!
•Onset of respiration:
•Lungs expand systemic O2 sat rises,
pulmonary vasodilatation drop in PVR
•At the same time, SVR riseswith placental
removal
↓
•Sudden reversal of blood flow from right-to-
left to left-to-right
approximating that of the descending
aorta!
•Onset of respiration:
•Lungs expand systemic O2 sat rises,
pulmonary vasodilatation drop in PVR
•At the same time, SVR riseswith placental
removal
↓
•Sudden reversal of blood flow from right-to-
left to left-to-right
Ductal constriction:
•At birth, ductal constriction is triggered
by:
•↑O2 tension
•↓PGE2
oRemoval of the placenta
oProstaglandin dehydrogenase
•At birth, ductal constriction is triggered
by:
•↑O2 tension
•↓PGE2
oRemoval of the placenta
oProstaglandin dehydrogenase
•Functionalclosure: 10 -15 hours;
begins at the pulmonary end of the DA
•Anatomical closure:completed by 2-3
weeks
↓
Ligamentum arteriosum
begins at the pulmonary end of the DA
•Anatomical closure:completed by 2-3
weeks
↓
Ligamentum arteriosum
Incidence, pathophysiology, clinical
presentation, and treatment options differ in
preterm babies
presentation, and treatment options differ in
preterm babies
Closure of PDAis indicated even in
asymptomatic patients, regardless of its
variant:
•Risk of infective endarteritis
•Closure is associated with minimal risk
asymptomatic patients, regardless of its
variant:
•Risk of infective endarteritis
•Closure is associated with minimal risk
Closure of PDA:
Current practice in different parts of the world:
-PDA 2mmand less coil closure (e.g., Nit-Occlud)
-PDA >2mmDevice closure (e.g., Amplatzer)
-PDA >12mmseptal device, VSD muscular, stent, or surgery
Current practice in different parts of the world:
-PDA 2mmand less coil closure (e.g., Nit-Occlud)
-PDA >2mmDevice closure (e.g., Amplatzer)
-PDA >12mmseptal device, VSD muscular, stent, or surgery
How can we
diagnose PDA?
diagnose PDA?
How can we
diagnose PDA?
•Clinical evaluation –including ECG &
CXR
•Imaging:
•Echocardiography
•Angiography
•CT/MRA –complex anatomy
diagnose PDA?
•Clinical evaluation –including ECG &
CXR
•Imaging:
•Echocardiography
•Angiography
•CT/MRA –complex anatomy
Echocardiography:
Anatomic confirmation by 2Dimaging
Dopplerechocardiography
hemodynamic assessment
degree of shunting
pulmonary artery pressure
Anatomic confirmation by 2Dimaging
Dopplerechocardiography
hemodynamic assessment
degree of shunting
pulmonary artery pressure
Echocardiography:
Many views using 2D
echocardiographic imaging and
superimposed Doppler color flow
mapping
Parasternal short-axis(PSAX) view:
ductus connecting the pulmonary artery
and the descending aorta near the
origin of the LPA
Many views using 2D
echocardiographic imaging and
superimposed Doppler color flow
mapping
Parasternal short-axis(PSAX) view:
ductus connecting the pulmonary artery
and the descending aorta near the
origin of the LPA
Echocardiography:
Many views using 2D
echocardiographic imaging and
superimposed Doppler color flow
mapping
Parasternal short-axis(PSAX) view:
ductus connecting the pulmonary artery
and the descending aorta near the
origin of the LPA
Many views using 2D
echocardiographic imaging and
superimposed Doppler color flow
mapping
Parasternal short-axis(PSAX) view:
ductus connecting the pulmonary artery
and the descending aorta near the
origin of the LPA
Echocardiography:
Suprasternal notchwindow, the
ductus arises from the descending
aorta at level of the left subclavian
artery and courses anteriorly to join PA
Suprasternal notchwindow, the
ductus arises from the descending
aorta at level of the left subclavian
artery and courses anteriorly to join PA
Echocardiography:
Suprasternal notchwindow, the
ductus arises from the descending
aorta at level of the left subclavian
artery and courses anteriorly to join PA
Suprasternal notchwindow, the
ductus arises from the descending
aorta at level of the left subclavian
artery and courses anteriorly to join PA
Echocardiography:
DUCTAL VIEW –Moving the transducer just
laterally & inferiorly to an “infraclavicular”
position; rotating clockwise.
DUCTAL VIEW –Moving the transducer just
laterally & inferiorly to an “infraclavicular”
position; rotating clockwise.
Echocardiography:
Right aortic arch, the ductus
usually arises from the left
brachiocephalic (Innominate)
vessels instead of the descending
aorta and can be followed caudally
to its insertion on PA
What is wrong here?
Right aortic arch, the ductus
usually arises from the left
brachiocephalic (Innominate)
vessels instead of the descending
aorta and can be followed caudally
to its insertion on PA
What is wrong here?
Echocardiography:
Left atrial and ventricular dilation
are seen in the presence of a
largeleft-to-right shunt.
Left atrial and ventricular dilation
are seen in the presence of a
largeleft-to-right shunt.
Echocardiography:
Doppler color flow
Supplement 2D imaging
Retrograde color flow jet in PA
Normal PAP, the high-velocity
turbulent flow is easily seen in
bothsystole and diastole
Doppler color flow
Supplement 2D imaging
Retrograde color flow jet in PA
Normal PAP, the high-velocity
turbulent flow is easily seen in
bothsystole and diastole
Echocardiography:
Doppler color flow
Supplement 2D imaging
Retrograde color flow jet in PA
Normal PAP, the high-velocity
turbulent flow is easily seen in
bothsystole and diastole
Doppler color flow
Supplement 2D imaging
Retrograde color flow jet in PA
Normal PAP, the high-velocity
turbulent flow is easily seen in
bothsystole and diastole
Echocardiography:
Doppler echocardiographycan
estimate the degree of left-to-right
shunt and assess the pulmonary
artery pressure.
PG: 35mmHg
Doppler echocardiographycan
estimate the degree of left-to-right
shunt and assess the pulmonary
artery pressure.
PG: 35mmHg
Echocardiography:
Large PDA:
Low peak systolic velocity
Low/absent diastolic velocity
Flow reversal in descending
aorta
PG: 35mmHg
Large PDA:
Low peak systolic velocity
Low/absent diastolic velocity
Flow reversal in descending
aorta
PG: 35mmHg
Echocardiography:
Large PDA:
Continuous runoffcan be seen
in the branch pulmonary arteries
and in the aorta proximal to the
PDA by pulsedDoppler
echocardiography
Not mistaken with COA!
PG: 35mmHg
Large PDA:
Continuous runoffcan be seen
in the branch pulmonary arteries
and in the aorta proximal to the
PDA by pulsedDoppler
echocardiography
Not mistaken with COA!
PG: 35mmHg
Echocardiography:
Large PDA:
Distal to the origin of the PDA,
diastolic retrogradeflow can be
demonstrated, corresponding to
the runoff into the pulmonary
artery
Other Causes?
PG: 35mmHg
Large PDA:
Distal to the origin of the PDA,
diastolic retrogradeflow can be
demonstrated, corresponding to
the runoff into the pulmonary
artery
Other Causes?
PG: 35mmHg
Echocardiography:
PAP = systemic pressure:
Pulsed Doppler (PW) within
ductus demonstrates systolic
right-to-left shunting, with
diastolic left-to-right flow within the
vessel
PG: 35mmHg
PAP = systemic pressure:
Pulsed Doppler (PW) within
ductus demonstrates systolic
right-to-left shunting, with
diastolic left-to-right flow within the
vessel
PG: 35mmHg
QP = VTI*CSA
QS = VTI*CSA
Echocardiography:
The pulmonary-to-systemic-flow ratio
(Qp:Qs) can be estimated using the
area of the LVOT & RVOT and Doppler-
derived velocity.
However, the ductal jet frequently
distorts the antegrade pulmonary flow
signalnot usually helpful.
QS = VTI*CSA
Echocardiography:
The pulmonary-to-systemic-flow ratio
(Qp:Qs) can be estimated using the
area of the LVOT & RVOT and Doppler-
derived velocity.
However, the ductal jet frequently
distorts the antegrade pulmonary flow
signalnot usually helpful.
Echocardiography:
RV and PAP may also be derived by:
TR velocity
Ventricular septal configuration
(qualitatively)
RV and PAP may also be derived by:
TR velocity
Ventricular septal configuration
(qualitatively)
Echocardiography:
M-mode echocardiography –significant left-to-
right shunting:
Increased LVIDd
A ratio of LA-to-Ao> 1.5:1
TOE-difficult to visualize PDA
M-mode echocardiography –significant left-to-
right shunting:
Increased LVIDd
A ratio of LA-to-Ao> 1.5:1
TOE-difficult to visualize PDA
Conclusions:
Derived from the embryonic left sixthaortic arch
Changes in O2 tension/PGE2and PDA wall
histologypost-natal closure VS patency
PDA should be closed–regardless to its size /
shape
Once suspected, TTE is initial investigation of
choiceto confirm Dx
2D, Color flow, Doppler & M-Modesshould be used
for full anatomic/haemodynamic assessment
Derived from the embryonic left sixthaortic arch
Changes in O2 tension/PGE2and PDA wall
histologypost-natal closure VS patency
PDA should be closed–regardless to its size /
shape
Once suspected, TTE is initial investigation of
choiceto confirm Dx
2D, Color flow, Doppler & M-Modesshould be used
for full anatomic/haemodynamic assessment
ANY QUESTION?
PDA Echocardiographic Assessment: Anatomy, Flow
& Suitability for Closure
Abd El-Salam Al-Ethawi,2021
PDA Echocardiographic Assessment: Anatomy, Flow
& Suitability for Closure
Abd El-Salam Al-Ethawi,2021
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