AVC, ECD, AVSD- Topic 10

Question 1

AVC

Answer 1

Atrio-ventricular canal

Question 2

ECD

Answer 2

endocardial cushion defect

Question 3

AVSD

Answer 3

atrio-ventricular septal defects

Question 4

AVSD/ECD/AVD Defects Definition

Answer 4

A deficiency or absence of septal tissue immediately above and/or below the normal plane of A-V Valves. The valves are abnormal in shape and/or function

*Incomplete fusion of the endocardial cushions which form primum atrial septum, A-V valves, and inlet ventricular septum

Question 5

AVSD/ECD/AVD Defects Definition

Answer 5

A deficiency or absence of septal tissue immediately above and/or below the normal plane of A-V Valves. The valves are abnormal in shape and/or function

*Incomplete fusion of the endocardial cushions which form primum atrial septum, A-V valves, and inlet ventricular septum

Question 6

A-V Canal Incidence of Congenital Heart Disease

Answer 6

8 per 1000 live births

Question 7

AVSD is the _____ most common occurring CHD.

Answer 7

5th

Question 8

AVSD is commonly associated with what conditions?

Answer 8

Down’s Syndrome and cardiac malformations such as TOF, DORV, SAS (subaortic stenosis)

Question 9

AVSD is present in what percent of patients with heterotaxy syndrome?

Answer 9

60%

Question 10

Heterotaxy Syndrome

Answer 10

Certain organs forming on the opposite side of the body; flipped

Question 11

Heterotaxy Syndrome

Answer 11

Certain organs forming on the opposite side of the body; flipped

Question 12

A-V Canal Morbidity/ Mortality

Answer 12

• Children with a complete AV canal fail to thrive in the first few months of life
• Pts may survive the first few years of life if PVR is high
• If AV canal is repaired between 4-6 months of life, survival is >80%

Question 13

Why may patients survive the first few years of life with AV Canal if the PVR is high?

Answer 13

High PVR decreases left to right shunting, increases LVEF

Question 14

ECD

Answer 14

consists of defects in lower atrial and upper ventricular septa and deficiencies in the mitral/tricuspid valves

Question 15

ECD is also called what?

Answer 15

AVD, or AVSD

Question 16

Types of AVSD

Answer 16

Complete (CAVSD)
Partial (PAVSD)
Transitional (TAVSD)

Question 17

How else can AVSD be classified?

Answer 17

Balanced

Unbalanced

Question 18

Balanced AVSD: Ventricle Size

Answer 18

Ventricles are equal in size

Question 19

Balanced AVSD: Size

Answer 19

Size is relatively normal

Question 20

Balanced AVSD: AV Valves

Answer 20

Both left and right AV valves may equally share the common AV valve orifice. This arrangement is termed balanced defect

Question 21

Unbalanced AVSD: Ventricles

Answer 21

One of the ventricles may be hypoplastic (not formed completely); size will be different

Question 22

Unbalanced AVSD: Ventricles

Answer 22

One of the ventricles may be hypoplastic (not formed completely); size will be different

Question 23

When in embryology is the AVSD developed?

Answer 23

Day 27-37 Atrial and ventricular septation and development

Day 29: Outflow tract septation

Question 24

AV septal defects occur at the embryonic age of what? When what happens?

Answer 24

34-36 days
Fusion of the endocardial cushions fail
*This occurs when the endocardial cushion fibroblasts fail to migrate normally to form the septum of the AVC

Question 25

After fusing with the endocardial cushion, if there is a small residual opening at the ECC it is called what?

Answer 25

Ostium primum ASD (AVSD)

Question 26

Embryology of AVSD

Answer 26

• Deficiency of the primum atrial septum, the ventricular septum, the septal leaflet of the tricuspid valve, and the anterior leaflet of the mitral valve occurs
• AV valve becomes offset
• Anterior leaflet of the AV valve extends across septum
• if the leaflet opens preferentially toward a ventricle (limiting flow to the other ventricle), hypoplasia occurs and creates an unbalanced AVSD

Question 27

Complete AVSD

Answer 27

Defect is one in which there are defects in all structures formed by the endocardial cushions.

Therefore, there are hole (defects) in the atrial and ventricular septal, and the AV valve remains undivided or “common”

Question 28

Complete AVSD

Answer 28

Defect is one in which there are defects in all structures formed by the endocardial cushions.

Therefore, there are hole (defects) in the atrial and ventricular septal, and the AV valve remains undivided or “common”

Question 29

Partial AVSD

Answer 29

A partial atrioventricular septal defect is one in which the part of the ventricular septum formed by the endocardial cushions has filled in (no VSD)

Question 30

What fills in in a partial AVSD?

Answer 30

By tissue from the AV valves or directly from the endocardial cushion tissue causing tricuspid and mitral valves dividing into two distinct valves
Note: valvular geometry might be affected

Question 31

Partial AVSD defect is primarily in the __________ and _______.

Answer 31

Atrial septum; mitral valve

Question 32

Partial AVSD is referred to as a _______ defect, and is usually associated with a _____________ that causes the valve to leak (MR).

Answer 32

Ostium primum atrial septal defect

cleft in the mitral valve

Question 33

Partial AVSD Considerations

Answer 33

• Conduction system disruption (AV node displaced inferiorly between coronary sinus and ventricular crest)
• Coronary sinus ostium often displaced
• Associated anomalies: PDA, persistent LSVC

Question 34

What anomalies are partial AVSD usually associated with?

Answer 34

PDA

persistant LSVC

Question 35

Transitional AVSD

Answer 35

Looks similar to the complete form of atrioventricular septal defect, but the leaflets of the common AV valve are struck to the ventricular septum, thereby effectively dividing the valve into two valves and closing most of the hole between the ventricles

(Behaves more like a partial AVSD even though it looks like a complete)

Question 36

Surgical Repair of AVSD

Answer 36

Palliation
Complete AVSD Repair
*It’s all about pulmonary flow

Question 37

Surgical Repair of AVSD: Palliation

Answer 37

For excessive pulmonary flow
PA Band:
-Increases PVR
-Decreases pulmonary flow
-decreases pulmonary over-circulation

Question 38

Palliation for insufficent pulmonary flow (AVSD)

Answer 38

IN patients with inadequate pulmonary flow/hypoxemia, a Blalock-Taussig-Thomas shunt or central shunt will be used

Question 39

Surgical Repair of AVSD: Palliation (overview)

Answer 39

PA Band
B-T Shunt
Central shunt

Question 40

Complete Repair of AVSD

Answer 40

The treatment of choice for an AVSD

Question 41

Two types of Complete Repair :AVSD

Answer 41

Bi-ventricular Repair

Univentricular REpair

Question 42

Bi-Ventricular Repair (AVSD)

Answer 42

VSD often closed with a synthetic patch (Dacron)
ASD closed with pericardial patch
Valve repair technique:
-Attempt to repair the abnormal valve. This is accomplished by suturing/cutting the cleft (the cut in the valve leaflets) to recreate a two-leaflet mitral valve.
-The tricuspid valve may also be repaired

Question 43

Bi-Ventricular Repair (AVSD)

Answer 43

VSD often closed with a synthetic patch (Dacron)
ASD closed with pericardial patch
Valve repair technique:
-Attempt to repair the abnormal valve. This is accomplished by suturing/cutting the cleft (the cut in the valve leaflets) to recreate a two-leaflet mitral valve.
-The tricuspid valve may also be repaired

Question 44

Univentricular Repair (AVSD)

Answer 44

The eventual goal of surgical repair is to separate pulmonary and venous outflow, and is usually done with staged procedures, culminating in the Fontan Procedure

Question 45

Univentricular Repair (AVSD): Stage ONe

Answer 45

Blalock Taussig Shunt (BT): usually performed within the first few days after birth, and establishes systemic-to-pulmonary artery shunt between the brachiocephalic artery or the right subclavian artery, to the right pulmonary artery via (usually) a tubed homograft or synthetic graft

Question 46

Univentricular Repair (AVSD): Stage TWo

Answer 46

Bi-Directional Genn PRocedure or Hemi-Fontan: usually performed at 4-6 months after birth as a bridge to Fontan completion. The BT shunt and pulmonary artery band is usually removed. The superior vena cava is then attached to right pulmonary artery, creating a systemic venous to pulmonary connection

Question 47

Univentricular Repair (AVSD): Stage TWo

Answer 47

Bi-Directional Glenn PRocedure or Hemi-Fontan: usually performed at 4-6 months after birth as a bridge to Fontan completion. The BT shunt and pulmonary artery band is usually removed. The superior vena cava is then attached to right pulmonary artery, creating a systemic venous to pulmonary connection

Question 48

Univentricular Repair (AVSD): Stage Two

Answer 48

Bi-Directional Glenn PRocedure or Hemi-Fontan: usually performed at 4-6 months after birth as a bridge to Fontan completion. The BT shunt and pulmonary artery band is usually removed. The superior vena cava is then attached to right pulmonary artery, creating a systemic venous to pulmonary connection

Question 49

Hemi-Fontan Procedure: Bi-directional Cavopulmonary Anastomosis

Answer 49

Anatomosis PA/Right atrial appendage

SVC is patched

Question 50

Univentricular Repairs AVSD: Stage Three

Answer 50

Fontan completion: usually performed 2-3 years of age; the IVC is connceted to the right pulmonary artery vai a tunnel like patch within the right atrium (Lateral Tunnel Fontan), or by creating a conduit for IVC flow outside the right atrium (Extracardiac Fontan)

Question 51

Fontan: Intracardiac

Answer 51

Atrial Baffle

Lateral Tunnel

Question 52

What does the fontan fenetration act as ?

Answer 52

A pop-off valve

Question 53

Why is AV canal a concern?

Answer 53

If not treated, this heart defect can cause lung disease
Larger volume of blood than normal must be handled by the right side of the heart
causes higher volume than normal and higher pressure than normal in the blood vessels in the lungs

Question 54

Pathophysiology AV Canal

Answer 54

The lungs are able to cope with this extra volume of blood at high pressure for a while
Lungs become damaged by this extra volume of blood at high pressure
The blood vessels in the lungs get thicker
With time, these changes in the lungs become irreversible

Question 55

CPB Circuit Considerations of AVSD

Answer 55

Palliation Stage: Shunts usually done early with small size to prevent damage caused by flow and pressure

Question 56

PA Band

Answer 56

Off CPB

Question 57

BT Shunt

Answer 57

off CPB

Question 58

Central Shunt

Answer 58

both on and off CPB

Question 59

CPB Circuit Considerations of AVSD: Surgical Repair Bi-Ventricular

Cannulation

Answer 59

Arterial: Aortic cannulation
Venous: Bicaval cannulation
LV vent: flexible vent when the herat is open
Aortic cross-clamp w/ multiple antegrade CP dosing
CPB time is moderate in length

Question 60

CPB Circuit Considerations of AVSD: Surgical Repair Univentricular

Answer 60

Bi-Directional Glenn Shunt

• Single atrial cannula (circ arrest- short or off- pump)
• Aortic Arterial

Fontan:
Single atrial cannula (DHCA)
Aortic arterial