Congenital Heart Defects: ASD/VSD- Topic 9

Question 1

CPB Normorthermic Blood Flow

Answer 1

0-3 kg = 200 cc/kg/min 3-10 kg= 150 cc/kg/min 10-15 kg= 125 cc/kg/min 15-30 kg= 100 cc/kg/min >30 kg= 75 cc/kg/min >55 kg= 65 cc/kg/min

Question 2

Atrial Septal Defects most commonly occur as defects in what?

Answer 2

Septum primum within the fossa ovalis (secundum ASD)

Question 3

Atrial Septal defects CAN involve the secundum near what?

Answer 3

SVC (sinus venosus defects are less common)

Question 4

Atrial septal defects will do what to physiology?

Answer 4

Will cause pressure mediated shunting L to R R to L

Question 5

Which shunt is of most concern to you? L to R or R to L?

Answer 5

R to L; skips the lungs; cyanotic shunts *BUT both are of concern; one can become the other because it is pressure mediated

Question 6

How is blood flow quantitated? (In shunts)

Answer 6

Pulmonary Blood Flow (Qp) Systemic Blood Flow (Qs)

Question 7

What would expect the Qp/Qs ratio to be in a normal individual?

Answer 7

1 (1:1 ratio)

Question 8

When do shunts require treatment?

Answer 8

When they are symptomatic

Question 9

When do shunts require treatment?

Answer 9

When they are symptomatic Pulmonary over circulation Shunts causing increase in right heart size

Question 10

When do shunts require treatment?

Answer 10

When they are symptomatic Pulmonary over circulation Shunts causing increase in right heart size Qp:Qs > 1.5

Question 11

When do shunts require treatment?

Answer 11

When they are symptomatic Pulmonary over circulation Shunts causing increase in right heart size Qp:Qs > 1.5

Question 12

What is the most common type of atrial septal defect?

Answer 12

Ostium Secundum

Question 13

What are some common types of atrial septal defects?

Answer 13

Ostium Secundum Patent Foramen Ovale Ostium Primum Sinus Venosus

Question 14

Ostium Secundum

Answer 14

Most common ASD type Formed by failed growth of the septum secundum OR rapid reabsorption of the septum primum Mid atrial

Question 15

What is the only type of ASD suitable for percutaneous closure?

Answer 15

Ostium Secundum ASD; defect in the middle of the atrial septum

Question 16

Patent foramen Ovale (PFO)

Answer 16

Small channel that has little hemodynamic consequence; it is a remnant of the fetal foramen ovale *In some cases PFO can be larger and require treatment

Question 17

Patent foramen Ovale (PFO)

Answer 17

-Small channel that has little hemodynamic consequence; it is a remnant of the fetal foramen ovale -Channel from birth; “Flap valve” *In some cases PFO can be larger and require treatment

Question 18

Why would a PFO normally close?

Answer 18

Closes due to pressure changes very early in life

Question 19

Why would a PFO normally close?

Answer 19

Closes due to pressure changes very early in life

Question 20

Closure of Fetal Shunts

Answer 20

*The initial inflation of the lungs causes changes: *Decreases PVR results in increased BF from PA *Increased BF from RA to RV and into the PA’s and less BF through the foramen ovale to the left atrium *More blood returns from lungs increases pressure inLA *Increased LA pressure and decreased RA pressure (due to pulmonary resistance) forces blood against septum primum causing hte formane ovale to close

Question 21

What action functionally completes the separation of the heart into two pumps?

Answer 21

Closure of the PFO in a normal fetal heart after birth (changes in pulmonary pressures, resistance, BF)

Question 22

Ostium Primum ASD Location

Answer 22

Low in the septum and can be considered a type of AV septal defect (AVSD)

Question 23

Ostium Primum Sat Changes

Answer 23

Could have RA saturations lower than RV without a VSD

Question 24

Ostium Secundum

Answer 24

Most common ASD type (90%) Formed by failed growth of the septum secundum OR rapid reabsorption of the septum primum Mid atrial

Question 25

Ostium Primum Sat Changes

Answer 25

Could have RA saturations lower than RV without a VSD

Question 26

Sinus Venosus ASD Location

Answer 26

high in the septum where the vena cava intersects with the right atrium; may be inferior or superior

Question 27

What is sinus venosus ASD frequently associated with?

Answer 27

Partial anomalous venous return (PAPVR)

Question 28

What is sinus venosus ASD frequently associated with?

Answer 28

Partial anomalous venous return (PAPVR)

Question 29

What forms separate chambers of the heart?

Answer 29

Embryonic septation

Question 30

What are key aspects in heart development?

Answer 30

1. Embryonic/fetal circulation is different to the neonatal circulation 2. Embryonic septation forms separate chambers 3. Several septal defects of heart septation may only become apparent on this transition

Question 31

Which septal defect occurs in us all?

Answer 31

The foramen ovale (between the 2 atria) which in general closes in the neonate over time

Question 32

At what day does cardiac septation occur?

Answer 32

Day 27

Question 33

How long does cardiac septation last?

Answer 33

10 days

Question 34

When do the formation of cardiac septa occur?

Answer 34

Simultaneously

Question 35

During cardiac septation, how does the external appearance change?

Answer 35

No major changes in external appearance

Question 36

Atrial Septation at what days?

Answer 36

27-28 (for 10 days)

Question 37

What happens during atrial septation?

Answer 37

*The paired atria fuse together to form a common atrium *Atrial septation occur simultaneously and in cooperation with ventricular septation *Atrial septation also lasts 10 days

Question 38

In normal individuals, are left or right sided pressures higher? Why?

Answer 38

Left heart pressures > Right heart pressures Thick LV has to produce enough pressure to pump blood throughout the entire body, while the thin RV only has to produce enough pressure to pump blood to the lungs

Question 39

In normal individuals, are left or right sided pressures higher? Why?

Answer 39

Left heart pressures > Right heart pressures Thick LV has to produce enough pressure to pump blood throughout the entire body, while the thin RV only has to produce enough pressure to pump blood to the lungs

Question 40

What size ASD would be considered “large”?

Answer 40

> 9mm

Question 41

A large ASD may result in what kind of shunt?

Answer 41

Clinically remarkable left-to-right shunt; blood shunted LA to RA. This extra blood from LA may cause a volume overload of both the RA and the RV (RA dilatation leading the RA fibrosis)

Question 42

What could happen if a large ASD went untreated?

Answer 42

Can result in enlargement of the right side of the heart and ultimately heart failure

Question 43

What could happen if a large ASD went untreated?

Answer 43

Can result in enlargement of the right side of the heart and ultimately heart failure

Question 44

How could an ASD result in pulmonary hyptertension?

Answer 44

Increased right sided volume Right atrial and ventricular dilatation Tricuspid annular dilatation (TR) Pulmonary congestion Pulmonary hypertension

Question 45

How do Qp and Qs compare in pulmonary hypertension?

Answer 45

Qp > Qs

Question 46

What could cause worsening of a left-to-right-shunt?

Answer 46

Any process that increases the pressure in the LV can cause worsening of the left-to-right shunt

Question 47

What could cause worsening of a left-to-right-shunt?

Answer 47

Any process that increases the pressure in the LV can cause worsening of the left-to-right shunt; also works on the right heart Systemic hypertension, increases pressure that the LV has to generate in order to open the aortic valve

Question 48

What could cause worsening of a left-to-right-shunt?

Answer 48

Any process that increases the pressure in the LV can cause worsening of the left-to-right shunt; also works on the right heart Systemic hypertension, increases pressure that the LV has to generate in order to open the aortic valve

Question 49

If there is a L to R shunt, which ventricle has to push our more blood? What does this result in?

Answer 49

Right ventricle; constant overload of the right side of the heart will cause an overload of the entire pulmonary vasculature (pulmonary over-circulation)

Question 50

If there is a L to R shunt, which ventricle has to push our more blood? What does this result in?

Answer 50

Right ventricle; constant overload of the right side of the heart will cause an overload of the entire pulmonary vasculature (pulmonary over-circulation)

Question 51

Qp/Qs > 1.5/1.0

Answer 51

Problem!! Eventually pulmonary hyptertension will develop

Question 52

What does pulmonary hyptension cause for the RV?

Answer 52

Increased afterload (PVR) In addition to increased preload that the shunted blood form the LA to RA caused RV will be forced to generate higher tension/pressures to try to overcome the pulmonary HTN Could lead to RV failure (dilatation and decreased systolic function of the RV)

Question 53

If Left to Right shunt is left uncorrected….

Answer 53

Pressure in right heart> pressure in left heart RA pressure > LA pressure Pressure gradient reverses across the ASD Shunt reverses (R to L shunt)= Eisenmenger’s syndrome Oxygen-poor blood gets shunted to the left heart Cyanosis

Question 54

Eisenmenger’s Syndrome

Answer 54

Reversal of a L to R shunt to become a R to L shunt Oxygen-poor blood gets shunted to the left heart Causes cyanosis

Question 55

Eisenmenger’s Syndrome

Answer 55

Reversal of a L to R shunt to become a R to L shunt Oxygen-poor blood gets shunted to the left heart Causes cyanosis

Question 56

Surgical Correction of ASD’s

Answer 56

Percutanous Closure (Amplatzer) Surgical Closure (Primary closure; patch closure)

Question 57

What is the only ASD that could undergo Amplatzer closure?

Answer 57

Ostium Secundum

Question 58

Surgical Closure of ASD: Incision

Answer 58

Median Sternotomy Right thoracotomy Sub-mammary (under breast tissue on right front of chest/very difficult)

Question 59

Surgical Closure of ASD: Primary

Answer 59

Closure by direct vision suture

Question 60

Surgical Closure of ASD: Patch

Answer 60

uses pericardial tissue or gore-tex patch for closure

Question 61

SurgicalClosure of ASD: Cannulation

Answer 61

Arterial: Aortic VEnous: Bicaval (Total CPB) *Single atrial if infant and small and DHCA is anticipated

Question 62

Surgical Closure of ASD: Venting

Answer 62

May use direct venting with a flexible since the heart is open

Question 63

Surgical Closure of VSD: Cardioplegia

Answer 63

Antegrade; usually a single dose will suffice

Question 64

Surgical Closure of VSD: Case Notes

Answer 64

Very, very quick (5-10 min pump run) Will XC, Stay warm “ drift down temp “ Can be challenging: (on CPB, XC, CPG, warm, correct Ca++, lytes, ABG’s off CPB-MUF)

Question 65

VSD

Answer 65

defect in the ventricular septum, the wall dividing the left and right ventricles of the heart

Question 66

What does the ventricular septum consist of?

Answer 66

Inferior muscular portion Superior membranous portion

Question 67

Common Regions of VSDs

Answer 67

Inlet Outlet (supracristal) Peri-membranous septum Muscular septum

Question 68

What is the #1 type of VSD we will see? (What percent)

Answer 68

Per-membranous septum (75%)

Question 69

What percent of VSDs are muscular?

Answer 69

20%

Question 70

What percent of VSDs are supracristal (outflow)?

Answer 70

5%

Question 71

Muscular VSDs are found in what four locations?

Answer 71

Anterior Mid-ventricular Posterior Apical

Question 72

Muscular VSDs are found in what part of the septum?

Answer 72

lower part of the septum (they’re surrounded by muscule)

Question 73

The membranous portion of the ventricle is close to what?

Answer 73

AV node

Question 74

Membranous VSDs are located near what?

Answer 74

Heart valves

Question 75

What is the #1 type of VSD we will see? (What percent)

Answer 75

Peri-membranous septum (75%)

Question 76

Membranous VSDs are located near what?

Answer 76

Heart valves; can close at any time

Question 77

Supracristal VSD

Answer 77

outflow tract VSD sub-valvular in nature

Question 78

Crista Supraventricularis can be considered synonymous with what?

Answer 78

Infundibular (or conus) ventricular septum

Question 79

Outflow VSDs are found in what part of the ventricle?

Answer 79

Where blood leaves the heart; these are the rarest types of VSD

Question 80

What are the rarest types of VSDs?

Answer 80

Outflow VSDs

Question 81

What separates the tricuspid and pulmonary valves and accounts for the more superior placement of the pulmonary valves relative to the aortic valve?

Answer 81

Infundibular (or conus) septum

Question 82

What separates the tricuspid and pulmonary valves and accounts for the more superior placement of the pulmonary valves relative to the aortic valve?

Answer 82

Infundibular (or conus) septum

Question 83

Infundibular (or conus) septum provides muscular rigid support for what valve?

Answer 83

Aortic valve, especially the right coronary cusp (think prolapse)

Question 84

VSD

Answer 84

defect in the ventricular septum, the wall dividing the left and right ventricles of the heart

Question 85

Infundibular (or conus) septum provides muscular rigid support for what valve?

Answer 85

Aortic valve, especially the right coronary cusp (think prolapse)

Question 86

VSD Blood Flow Pattern During Systole

Answer 86

some of the blood from the left ventricle leaks into the right ventricle, passes through the lungs and reenters the left ventricle via the pulmonary veins and left atrium

Question 87

VSD Blood Flow Pattern During Systole

Answer 87

some of the blood from the left ventricle leaks into the right ventricle, passes through the lungs and reenters the left ventricle via the pulmonary veins and left atrium Results: Overloads LV Because the left ventricle normally has a must higher systolic pressure (120 mmHg) than the right ventricle (20 mmHG) a left to right shunt persists Elevated RV pressure and volume –> pulmonary HTN

Question 88

VSD Symptoms when there is a larger defect

Answer 88

Breathlessness, poor feeding, failure to thrive in infancy (patients with smaller defects may be asymptomatic)

Question 89

Ventricular septum is formed by what?

Answer 89

Outgrowth of the muscular ridge at the interventricular foramen; ventricular septum grows upward from the apex of the heart to the base of the heart

Question 90

VSD Cannulation

Answer 90

Arterial: Aortic Venous: Bicaval (total Cpb) Single atrial if the infant is small and DHCA is anticipated

Question 91

VSD Repair: Venting

Answer 91

May use direct venting with a flexible since the heart is open

Question 92

VSD Repair: Cardioplegia

Answer 92

Antegrade, usually with a single dose

Question 93

VSD Repair: Case Notes

Answer 93

case is quick depending on VSD location Case may be 32C or DHCA if small infant Can be challenging, but usually you have more time with VSD Ventricular function may be related to the length of time the VSD has been present

Question 94

What could Ventricular function in a pt with a VSD be related to?

Answer 94

Length of time the VSD has been present

Question 95

Surgical Correction of VSDs

Answer 95

Percutaneous closure *can be tough with VSDs Surgical closure (Primary, patch) *probably not primary