VALVULAR DEFECTS

Question 1

complete AVC Palliation

Answer 1

Shunt (Qp/Qs) Too much flow  Not enough flow

Question 2

Complete AVC Repair Staged repair

Answer 2

HFP/BDG

Question 3

Complete AVC Repair Final stage

Answer 3

Fontan

Question 4

Absent Pulmonary Valve

Answer 4

 Rare defect
 Pulmonary valve tissue not formed or incomplete
 4+ PI
 Flood pulmonary arteries (pulmonary overcirculation)  Massive dilation of Pulmonary Arteries
Lead to extrinsic compression of the bronchial airway  leads to abnormal development of bronchial tree.
 Associated with VSD

Question 5

Absent Pulmonary Valve

 AKA.

Answer 5

TOF with Absent Pulmonary Valve

Question 6

Absent Pulmonary Valve Respiratory impairment

Answer 6

 R L shunting  systemic desaturation

 Compression of airway = compromised sats

Question 7

Absent Pulmonary Valve Treatment:

Answer 7

Plication of the Pulmonary Arteries  Pulmonary Valve Replacement  VSD Closure

Question 8

Pulmonary Atresia with intact ventricular septum (PA w/IVS)

Answer 8

 Complete atresia of pulmonary valve  Pulmonary valve fails to form late in development. PA is normal size

Question 9

Pulmonary Atresia with intact ventricular septum (PA w/IVS) RV and Tricuspid Valve

Answer 9

hypoplastic. Severe hypoplasia of RV results in creation of Coronary Artery Sinusoids*
 Fistula between the RV and coronaries * Can be catastrophic

Question 10

Pulmonary Atresia with intact ventricular septum (PA w/IVS) ASD

Answer 10

Large ASD will decompress RA

Question 11

Pulmonary Atresia with Intact Ventricular Septum

 Pathophysiology

Answer 11

Pulmonary Blood flow entirely dependent on PDA

 Requires PGE-1 infusion after birth

Question 12

Pulmonary Atresia with Intact Ventricular Septum shunting

Answer 12

R L shunting atrially

Question 13

Pulmonary Atresia with Intact Ventricular Septum coronary perfusion

Answer 13

ependent on increased driving forces of obstructed RV (RV increased resistance is good)
 Decompressing RV = Ischemia

Question 14

Pulmonary Atresia with Intact Ventricular Septum Treatment:

Answer 14

 PGE-1 to maintain duct patency

 RV dependent Sinusoids  Balloon atrial septostomy to decompress the RA

Question 15

Pulmonary Atresia with Intact Ventricular Septum Treatment: NO RV dependent Sinusoids

Answer 15

 Open the atretic Pulmonary valve via transcatheter or

surgical valvotomy

Question 16

Pulmonary Atresia with Intact Ventricular Septum Systemic to PA shunt or PDA stent

Answer 16

Need shunt b/c RV is poorly compliant and hypertrophied  Poor RV output

Question 17

Pulmonary Atresia with intact ventricular septum

 Post operative course: and LOS

Answer 17

 Prone to hemodynamic instability  Possibly delay chest closure
 Length of Stay: 1-2 weeks

Question 18

Pulmonary Atresia
with Intact
Ventricular Septum CHARCTERISTICS

Answer 18

1. ASD 2. Atretic Pulmonary Valve 3. PDA 4. Hypoplastic RV 5. Hypoplastic TV

Question 19

Pulmonary Atresia – with VSD

 Aka.

Answer 19

TOF with Pulmonary Atresia (Extreme form of TOF)

Question 20

Pulmonary Atresia – with VSD is

Answer 20

Failure of the development of the pulmonary valve

 Underdeveloped RV outflow tract and main PA

Question 21

Pulmonary Atresia – with VSD branch PA may be

Answer 21

confluent and fed by ductus or discontinuous and hypoplastic.
 Discontinous – Pulmonary blood flow provided via Aortopulmonary Collaterals

Question 22

Pulmonary Atresia – with VSD RV

Answer 22

Normal development of the RV

Question 23

Pulmonary Atresia – with VSD (VSD + ASD)

Answer 23

arge VSD  May have an ASD

 Wide variations

Question 24

Pulmonary Atresia – With VSD

 PathophysiologY

Answer 24

 Complete intracardiac mixing

 Systemic desaturation/ cyanosis

Question 25

Pulmonary Atresia – With VSD aortopulmonary collaterals

Answer 25

 Porgressive stenosis  Hypoxemia

 “True pulmonary arteries” are hypoplastic

Question 26

Pulmonary Atresia – With VSD repair

 Confluent branch PAs which are

Answer 26

fed by ductus. Complete surgical repair  Placement of RV to PA conduit (Rastelli Procedure)  Close VSD

Question 27

Pulmonary Atresia – With VSD repair Hypoplastic branch PAs with aortopulmonary vessels

Answer 27

Surgical approach is varied and patient specific  Unifocalization of Aortopulmonary (A-P) collaterals  RVOT reconstruction
 Staged or do it all together and incorporate AP collateral unifocalization into the RVOT conduit
 Eventual closure of the VSD after RVOT reconstruction/unifocalization
 Ensure pulmonary flow adequate

Question 28

Pulmonary Stenosis (PS) prevalence

Answer 28

10% of Congenital Heart Diseases

Question 29

Pulmonary Stenosis (PS) what is it?

Answer 29

Pulmonary Valve and/or RV outflow tract is
restricted
 Range from Mild to Severe

Question 30

Pulmonary Stenosis (PS) causes

Answer 30

bstruction to the ejection of blood from the RV (forces RV tension development)
 Increased work load of the ventricle  Severe and/or Prolonged = Right Ventricular Hypertrophy

Question 31

Pulmonary Stenosis Types

 Supravalvular Stenosis

Answer 31

 Pulmonary artery lumen above the pulmonary valve opening is
narrowed  Can be main or branch PA

Question 32

Pulmonary Stenosis Types valvular stenosis

Answer 32

 Leaflets of PV thickened/ fused at edges

 Valve doesn’t open fully  May see post-stenotic dilation of the main PA  Valve may be bicuspid

Question 33

Pulmonary Stenosis Types subvalvular stenosis

Answer 33

 RVOT stenosis, below Pulmonary Valve  Obstructed by muscular tissue
Pulmonary Stenosis

Question 34

Pulmonary Stenosis

 May be classified by RV Pressure

Answer 34

 Mild: 45mmHg or less
 Moderate: 46-89mmHg
 Severe: 90mmHg (suprasystemic)  Will develop right heart failure

Question 35

PS in infancy is always

Answer 35

severe

Question 36

(PS ) If there is an ASD –

Answer 36

Right to left shunting will occur

 Cyanosis

Question 37

Moderate pulmonary stenosis (or higher), will see

Answer 37

RVH

Question 38

Repair of Pulmonary Stenosis

 If the defect is purely valvular:

Answer 38

 Balloon valvuloplasty  Commisurotomy - incise the fused commisures via direct vision

Question 39

Repair of Pulmonary Stenosis Infundibular Stensosis:

Answer 39

 Hypertrophied muscle in the outflow tract is resected

Question 40

Repair of Pulmonary Stenosis Supravalvular Stenosis:

Answer 40

 Depends where stenotic lesion is  Remove stenosis/ balloon angioplasty or stent  Patch repair/ enlargement (eyeball like)

Question 41

Aortic Stenosis prevalence

Answer 41

Congenital AS -10% of all congenital heart diseases

 Acyanotic lesion

Question 42

Aortic Stenosis what is it

Answer 42

Narrowing of the aortic valve or thickening of the leaflets, bicuspid or unicuspid valve

Question 43

Aortic Stenosis what its associated and what it causes

Answer 43

Associated with PDA, MS, or Coarctaction
 Causes increase in pressure/tension within the LV
 Develop LVH  decreased ventricular function  myocardial ischemia
High risk for sudden cardiac death

Question 44

Supravalvular Aortic Stenosis prevalence what it is and when its seen

Answer 44

 Constriction of the aorta just above the valve due to
fibrous membrane or hypoplastic aortic arch
 Uncommon  Seen in patients with Williams Syndrome  Familial form
 Can lead to LVH, LV dysfunction, ischemia and risk of sudden death

Question 45

AS – SupraValvular Aortic Stenosis

 Correction

Answer 45

 Aorta is incised into each sinus of valsalva
 Counter incision is made in the aorta above the obstruction
 Stenotic segment is removed  2 segments are interdigitated
 CPB is short to moderate

Question 46

SubAortic Stenosis prevalence how it presents and what it causes

Answer 46

 Rare in infancy
 Presents as:  Fibromuscular stenosis  Hypertrophic Obstructive Cardiomyopathy
 In infancy usually associated with Coarctation or interrupted aortic arch
 Can lead to LVH  Arrhythmias  Sudden death

Question 47

AS – SubAortic stenosis

 Correction

Answer 47

 Done when obstruction is moderate to severe
(gradient determines)
 Aorta is opened just above the AV
 Leaflets are retracted to expose the obstructive tissue below the valve
 As much obstructive tissue as possible is excised  Careful to avoid damage to mitral valve, AV conduction
system, or AV leaflets.  CPB is short

Question 48

Subvalvular obstruction correction

Answer 48

Aortic valve annular hypoplasia and subvalvular obstruction
 Cannot just replace the valve
 Must enlarge the annulus

Question 49

Subvalvular obstruction konno procedure

Answer 49

(often done with Ross Procedure)  Aortic Valve removed  Incision made into ventricular septum (to Left of right coronary ostia)  Patched open
 Widens LVOT  Allows placement of larger graft/prosthetic valve
 Replace aortic root with cryopreserved homograft or pulmonary autograft
 Insert into newly opened LV outflow tract.

Question 50

Critical Aortic Stenosis

Answer 50

Severe form of congenital AS
 Presents in neonatal period
 Symptoms become more acute as the PDA closes  Severity depends on degree of obstruction
 Valve may be bicuspid or unicuspid  LV abnormalities can occur
 Dilation, decreased function Early surgical intervention required

Question 51

AS- Critical Aortic Stenosis

 Correction:

Answer 51

 Goal of correction – to relieve obstruction of flow of
blood through the aortic valve without causing AI
 Can do percutaneous balloon valvotomy  Surgery – AV visualized and incised at the commissures
 Commissurotomy may be hard due to abnormal valve development (shape is a factor)

Question 52

AS- Critical Aortic Stenosis

 Post operative course AND LOS

Answer 52

 Depends on the degree of LV dysfunction
preoperatively (ECMO-VAD)
 Depends on the success of the procedure
 Will most likely require an aortic valve replacement later in life
 Length of stay: 1-3 weeks

Question 53

Aortic Insufficiency

Answer 53

Aortic valve fails to close completely immediately after systole

Question 54

AI symptoms

Answer 54

 LV dilation  Decreased CO  CHF
 Exercise intolerance, Dyspnea on Exertion, Dizziness, Pulsating headaches, increased pulse pressure, pulmonary congestion, edema

Question 55

Ross Procedure

Answer 55

 Aortic Valve Replacement
 Use patient’s own Pulmonary Valve  Move to the Aortic Position
 RVOT is reconstructed with a pulmonary homograft  Coronary arteries are re-implanted on the autograft

Question 56

why is ross procedure of choice in kids

Answer 56

 Follow up studies show the pulmonary autograft grows !!!!!!!!
 THE ONLY AORTIC VALVE REPLACEMENT OPTION TO DO SO
 Makes this the AVR procedure of choice for small children/ pediatrics (rough in adults)
 Starting to become popular in young adult population as well.
No anticoagulation required post op

Question 57

Ross Procedure done as root replacement

Answer 57

 Proximal pulmonary autograft put in position of native aortic root
 Coronaries implanted
 Distal end connected to aorta
 Cryopreserved Valved Homograft inserted into original pulmonary root position.

Question 58

Aortic Surgical Repair Ross Procedure

 BUT…

Answer 58

 More extensive procedure/ operation that just an AVR
 Usually required to replace the pulmonary homograft later in life
 Patient growth  Degeneration of graft
 CPB time – Moderate to long

Question 59

Ebstein’s Malformation/ Anomaly what it is pathophysiology prevalence

Answer 59

“atrialized RV”
 Rare congenital anomaly  0.5% of all Congenital Heart Diseases  Cyanotic Legion
 Leaflets of the tricuspid valve are normally attached to the fibrous annulus
 Ebstein’s patients have a downward displacement of the posterior and septal leaflets of the tricuspid valve.
 Have an enlarged sail-like anterior leaflet

Question 60

Ebstein’s Anomaly Orientation of the valve divides the RV into 2 parts

Answer 60

 Proximal RV
 Portion of the RV on the atrial side of inferior displaced tricspid valve
 Thinned  “atrialized”
 Distal/ Functional RV  PFO/ ASD is common

Question 61

Ebstein’s Anomaly - Symptoms

Answer 61

 Anatomic severity is variable  TV Insufficiency  TI possibly combined with stenosis
 RV and RA dysfunction  Results in cyanosis  RV failure
 Wide range of symptoms  Dyspnea, Cyanosis, Clubbing
 Arrhythmias are common  Cause of sudden death

Question 62

Ebstein’s Anomaly – In Neonate

 Neonatal presentation

Answer 62

 Cyanosis due to RV dysfunction

 Functional PV “atresia”

Question 63

Ebstein’s Anomaly – In Neonate requires

Answer 63

PDA patency for pulmonary blood flow

Question 64

Ebstein’s Anomaly – In Neonate PV does not open due to

Answer 64

(normal formation) due to inability of RV to generate pressure in excess of PA pressure

Question 65

Ebstein’s Anomaly – In Neonate venous return

Answer 65

Venous return to the heart goes thru an ASD/PFO to the LA.

Question 66

Ebstein’s Malformation/ Anomaly

 Surgery is indicated with symptoms  Repair:

Answer 66

 Ideally – want to create normal functioning tricuspid valve and close the atrial communications.
 Ie. Create complete separation of pulmonary and systemic circulations
 2 methods  Post-natal  Prenatal

Question 67

Postnatal correction of Ebstein’s

 Repair

Answer 67

 Plicate the atrialized portion of the RV  Reconstruct the Tricuspid valve annulus  Close the ASD  Resect the redundant atrial wall.

Question 68

Neonatal correction of Ebstein’s

 Repair described by Starns, et al. (CHLA)

Answer 68

Tricuspid valve orifice is closed with a patch
 Careful of the conduction pathways  Create unrestricted flow across the ASD
 Resect the septum
 Plicate the redundant atrialized RV tissue
 Divide the PDA
 Pulmonary blood flow provided via systemic to PA shunt
 Bidirectional Glenn shunt and eventually and Fontan completion

Question 69

Tricuspid Atresia prevalence what it is what it causes

Answer 69

 3% of all Congenital Heart Disease
 Cyanotic Lesion
 Absence of tricuspid valve
 Prevents normal right heart circulation  Blood returning from the RA must flow through an ASD/
PFO
 VSD or PDA must be present to permit blood flow to pulmonary circulation

Question 70

Tricuspid Atresia
 Clinical Features:
 Mortality rate is high

Answer 70

 50% die within 6 months  15-30% survive the first year without surgery  10% live to 10 years without surgery

Question 71

Tricuspid Atresia Severe cyanosis – complete mixing of blood causes

Answer 71

 Clubbing  Dyspnea  Fatigue

 Right heart failure

Question 72

Tricuspid Atresia

 Surgical Correction

Answer 72

 Limited to increasing pulmonary blood flow
 Use one of the systemic to PA shunts or Rashkind procedure
 ** Cannot do valve replacement because the RV is under developed.

Question 73

Mitral Valve Insufficiency

Answer 73

 Incomplete closure or absence of the mitral valve  Increased filling of LV
 Leads to dilation and hypertrophy

Question 74

Mitral Valve Insufficiency Clinical Presentation:

Answer 74

 Palpitations, Fatigue, Orthopnea, Pulmonary Edema

Question 75

Mitral Valve Prolapse

Answer 75

 Mitral valve leaflets prolapse into the LA during systole  MVP associated with Mitral Insufficiency (MR). Not usually serious  Manydon’tevenknowtheyhaveit  Manylivewithitasymptomaticforyears

Question 76

Mitral Valve Prolapse symptoms

Answer 76

SOB, Palpitations, Chest pain.  Etiologyoftheseunclear

Question 77

Mitral Valve Prolapse treatment

Answer 77

 Doesn’trequiretreatmentunlesssignificantmitralinsufficiencyispresent  UsuallyonlysurgicalwithsevereMitralInsufficiencyandsymptomatic.

Question 78

Mitral Valve Stenosis

Answer 78

Rare congenital heart disease
 Narrowing of the mitral valve
 Most common valvular defect
 Leaflets are abnormally thickened
 MV annulus may be small
 Chordae may only be attached to 1 papillary muscle creating a parachute mitral valve.

Question 79

Mitral Valve Stenosis effects on LA and RV

Answer 79

LA dilation
 Increased LA pressures
 Increased pulmonary venous, pulmonary arteriolar, pulmonary artery, and RV systolic pressures
 Leads to pulmonary hypertension  Pulmonary Edema  Right Heart Failure

Question 80

Mitral Valve Stenosis

 Treatment

Answer 80

 Pulmonary edema – improved with diuretics  Surgical MV repair or replacement

Question 81

Valvuloplasty

Answer 81

 Transcatheter pulmonary balloon valvuloplasty  Results equal to open surgical valvotomy
 Careful determination of anatomy via Transthoracic echo and angiograms.

Question 82

Percutaneous Pulmonary Valve Insertion

 For patients with

Answer 82

failed RV to PA conduits (Rastelli)  Stenosis or regurgitation

Question 83

Percutaneous Pulmonary Valve Insertion Transcatheter-

Answer 83

-delivered valve that has been mounted within a balloon-expandable stent

Question 84

Percutaneous Pulmonary Valve Insertion WHAT IS IT

Answer 84

Palliative procedure
 Extends life to RV to PA conduit
 High long term failure rate of valves in the pulmonary position
 Melody Valve

Question 85

Transcatheter Aortic Valve Implantation

 For patients witH

Answer 85

calcific aortic stenosis

Question 86

Transcatheter Aortic Valve Implantation Bioprosthetic valves sewn

Answer 86

within a balloon-expanded or self-

expanding stent  Same valve as their PERIMOUNT Magna

Question 87

Transcatheter Aortic Valve Implantation INSERTION

Answer 87

Retrograde transarterial insertion  Requires femoral-iliac arteries to accommodate a 18-24fr delivery
system
 Direct transapical insertion

Question 88

Transcatheter Aortic Valve Implantation Ventricle is paced rapidly to

Answer 88

limit cardiac output for device positioning and expansion

Question 89

Transcatheter Aortic Valve Implantation Position too high or too low

Answer 89

 Paravalvular leaks  Embolization

Question 90

Percutaneous Mitral Valve Repair

 Multiple different types of devices  MitraClip

Answer 90

Only device to complete enrollment in randomized clinical trials
 Designed to perform edge to edge repair of the mitral valve.
 Other devices attempt to create an annuloplasty
 Have not reached randomized trial phase yet Technical issues

Question 91

`Percutaneous Mitral Valve Repair

 Delivered by AND GUIDED BY

Answer 91

a transvenous, transseptal approach

 Guided by TEE

Question 92

Percutaneous Mitral Valve Repair implanted on the

Answer 92

valve  Grabs middle portions of the anterior and posterior

mitral leaflets  Creating edge to edge repair

Question 93

Percutaneous Mitral Valve Repair has been used

Answer 93

on MVP, Flail leaflets, annular dilation, mitral regurg secondary to CM