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Surgical Treatment of PA with VSD without/with MAPCA Jeong-Jun Park University of Ulsan, Asan Medical Center Pulmonary Atresia with VSD without/with MAPCA 1. – PowerPoint PPT presentation

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Title: Surgical Treatment of PA with VSD without/with MAPCA

1
Surgical Treatment of PA with VSD without/with
MAPCA

Jeong-Jun Park
University of Ulsan, Asan Medical Center

2
Pulmonary Atresia with VSD without/with MAPCA

1. Extreme subgroup of Tetralogy of Fallot
2. Major clinical problems in the arteries
that
supply the pulmonary circulation
3. Variable clinical presentations different
surgical strategies to that in TOF/PS

3
Morphology of PA with VSD

The general morphology of the heart in TOF/PA
- Similar to that in simple TOF,
- The differentiating features are
1. No luminal continuity between RV PA
2. Pulmonary arterial anomalies
3. Aortopulmonary collaterals

4
Natural History

Variable depending on the pulmonary blood flow
- At birth, ductus dependent in case of
true PAs
- After ductal closure, dependent on the
collaterals
1) Excessive pulmonary blood flow CHF,
PVOD
2) Moderate collateral stenosis
Balanced pulmonary blood flow
3) Severe collateral stenosis hypoxia

5
Patterns of Pulmonary Arteries

6
Morphology of Pulmonary Artery

1. Confluence of the pulmonary artery
2. Stenosis of the pulmonary artery
3. Distribution of the pulmonary artery
4. Size of the pulmonary artery
5. Abnormal hilar branching

7
Alternative Sources of PBF

1. MAPCAs
2. Paramediastinal collateral arteries
3. Bronchial collateral arteries
4. Intercostal collateral arteries
5. Collaterals from coronary arteries
6. Iatrogenically aggravated collaterals

8
Origin of MAPCA

MAPCAs
- Variable in size, number, course, origin,
arborization histologic makeup
- Usually large discrete arteries from 1 to 7
in number
1. Majority from descending thoracic aorta
2. Some cases, from a common aortic trunk
3. Finally, from branches of aorta

9
Influence of MAPCA

1. Chronic shunt LV volume overload
. Decrease LV function
. Aortic annular dilatation
. Aortic insufficiency
2. Segmental loss of lung parenchyme
. In case of collateral stenosis --hypoxia
. In unobstructed cases CHF, PVOD

10
Histologic Characteristics of MAPCAs

1. Extrapulmonary muscular artery with well
developed muscular media adventitia
2. Intrapulmonarymedial muscle is gradually
replaced by a thin elastic lamina resembling
true Pas
3. Unobstructed MAPCAs PVOD
4. Muscular segments of collateralsprone to the
development of severe stenoses, often progressive

11
Characteristic Features of MAPCAs

1. Variable in size, number, course, origin,
arborization and histologic makeup
2. Various degree of PA hypoplasia , or even
absence of the central PAs
3. MAPCAs connect with branches of central PAs,
or constitute the only blood supply
4. Congenital or acquired discrete stenosis
along the course of MAPCAs
5. PHT and progressive PVOD

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Confluent PA

Unobstructed MAPCA

Long stenotic segment

16
MAPCA Dilated Bronchial Arteries

- RCH, 2006
- All MAPCAs anatomy similar to bronchial
arteries
- BAs limited growth potential and
vasoreactivity
? might preclude long-term beneficial effects
of unifocalization

Bronchopulmonary shunts

17
Definitive Repair of PA with VSD

Ultimate goal
Completely separated pulmonary systemic
circulation
1. Closure of ventricular septal defect
2. Establish continuity between RV PA
3. Occlusion of redundant collaterals shunts
/ Unifocalization

18
Preparation for Definitive Repair

1. Maximize the pulmonary artery
The size distribution
2. Maintain the adequate PBF
3. Avoid the excessive PBF

19
Suggested Surgical Strategy for
PA with VSD, MAPCA

1. Unifocalization
- Staged vs one-stage
- Thoracotomy vs sternotomy
2. Establishment of native PA growth
- With vs without unifocalization
3. One-stage complete repair
4. Repair without unifocalization

20
Early Palliative Procedures

Goals 1) Create a balanced PBF
2) Incorporation growth of
PAs

- Systemic-pulmonary shunt - RV-PA connection
conduit or outflow patch - Unifocalization
- Ligation - Embolization - Creating stenosis
21
Ideal Unifocalization Procedure

Incorporation of all the nonredundant
collaterals true Pas
? healthy microvasculature of lung
2. Use conduit that is growing, large,
minimizing the risk of thrombosis
3. Easily accessible from the mediastinum
at the time of definitive repair

22
Timing of Unifocalization

1. At any age, when collaterals are large to
allow technical ease without risk of
thrombosis
2. Variable depending on collateral size,
usually older than 23 months
3. Staged procedures may be required for the
bilateral aortopulmonary collaterals

23
Techniques of Unifocalization

Procedures for collaterals
1) Ligation
2) Patch enlargement
3) Direct anastomosis
2. Interposition grafts
1) Synthetic graft
2) Homograft
3) Xenograft
4) Autologous tissue pericardium, azygos v.

24
Unifocalization Procedures

Ligation

Angioplasty

Anastomosis

25
Unifocalization Procedures

Interposition

Additional PA
creation

Central PA
creation

26
Surgical technique of unifocalization

- Offbypass during dissection
- Maximal use of native tissue
- Avoid circumferential use of non-viable
conduits
for growth potential

End-to side

Side -to side

27
Surgical technique of unifocalization

Aortic button several MAPCAs from the same
location

28
Surgical technique of unifocalization
29
RV-PA Conduit
30
Advantages of RV - PA Connection

1. Reduction of LV volume overload
2. Pulsatile blood flow to enhance PA growth
3. Facilitating the catheter access for the
later evaluation intervention
CIx d/t
1) aneurysm and pseudoaneurysm
2) pulmonary flow and pressure is completely
uncontrolled

31
Melbourne Shunt

Central end-to-side Aortopulmonary shunt
Diminutive central pulmonary arteries

32
Modified Central Shunt
33
Criteria for VSD closure 2 Dimensional Anatomic
Data

- Central PA area ? 50 of predicted normal
-
by Puga, 1989
- Predicted pRV/pLV ? 0.7, No MAPCAs remain
More than 2/3 lung segments are centralized
-
by Iyer and Mee, 1991
- Nakata Index gt 150mm2/M2 BSA -by Metras,
2001
- TNPAI ? 200 mm2/m2 - by Hanley,
1997
- 15 out of 20 bronchopulmonary segments(1
1/2 lungs) are connected to confluent pulmonary
artery
-
by Baker, 2002

34
Functional Intraoperative Pulmoanry Blood Flow
Study

Post-repair RVSP most reliable predictor of
favorable outcome
Data of functionality of the entire pul.
vasculature
Hanley
- m PAP lt 25mmHg at a full flow(2.5L/min/m2)
predicts RV/LV pressure ratio lt 0.5
Toronto, 2009
Close the VSD for a mPAP of lt30mmHg
Predict postop. Physiology better than standard
anatomic measures

35
Functional Intraoperative PBF Study
36
Repair without Unifocalization

- RCH, 2009
- Unifocalization brings no long-term benefits
. Unifocalization sufficient to allow a safe
repair
but, failed to achieve adequate
growth
. Dilated BAs limited growth potential
unstable
Growth of the native PA rather than recruitment
of MAPCAs
- Multi-stage approach
. 46wks Modified central shunt
. 46months RV-PA conduit
. 3rd complete repair or 2nd conduit
18 pts enrolled in this protocol (No
Unifocalization)
. 7 complete repair, RVP 59 of systemic
. 8 awaiting repair
. 4 MAPCAs in 17 pts ligated

37
Advantages of One-stage Complete Repair

1. Eliminate the need for multiple operations
2. Eliminate the use of prosthetic materials
3. Establish the normal physiology early in life
1) Growth of respiratory PA system
2) Avoid cyanosis volume overload
3) Prevent the PVOD

38
Disadvantages of Multistage Approach

1. The final repair is achieved on an old age
2. Mediastinum hilar regions are significantly
scarred, increasing surgical risks
3. Prolonged cyanosis previous operation cause
secondary collaterals, risks of bleeding
4. The risk of drop-off before the final repair

39
Disadvantages of Earlier Repair

1. Increased pulmonary morbidity
1) Contusion congestion
2) Bronchospasm
3) Phrenic nerve injury
2. Magnitude of operation
3. Technically more demanding
4. Unknown ideal age

40
Conclusion
- MAPCAs Wide spectrum of pul. vascualr
morphology and physiology, Ranging 1) from pts
on the favorable end true PAs with
collaterals simply contributing systemic
flow into the pul. vasculature 2) to pts on
the unfavorable end with completely
absent native PAs and all of the pulmonary
blood supply from collaterals ? Management
complex and must be individualized
according to their anatomy and clinical situations
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48
Predictors of Successful Definitive Repair

1. McGoon Ratio gt 1
2. Nakata Index gt 150mm2/M2 BSA(Metras, 2001)
????
3. TNPAI gt 200mm2/M2 BSA
4. Ideal Age
Not known , but usually more than 2-3years
old for conduit repair
5. 15 out of 20 bronchopulmonary segments(1 1/2
lungs) are connected to confluent pulmonary
artery Baker EJ. 2002

49
Selection for Final Repair

1. Central combined Rt. Lt. PA area
At least 5075 of predicted normal
2. Distribution of unobstructed confluent PAs
Equivalent to at least one whole lung
3. Presence of a predominant Lt. to Rt. shunt
without restrictive RV-PA connection

50
Representative Data
Approach Age(range) VSD closure Mortality (early)
Mee RBB (91) Multiple 2.6mo (1d 39yr) 52(30/55) 10
Hanley FL (95) Anterior 2yr (2mo 37yr) 90(9/10) -
Hanley FL (97) Anterior 4mo (10d 11mo) 63(17/27) 7
Hanley FL (98) Anterior 7.3mo (14d 37yr) 64(46/72) 11
Lofland GK (00) Anterior 3mo (5d 5.5mo) 91(10/11) 9.1
Cherian KM (02) Anterior 36mo (6mo 23yr) 51(26/51) 16
51
Midline One-stage Unifocalization
52
Staged Unifocalization
RV-PA Connection
53
One-stage Unifocalization
RV-PA Connection
54
RVOT Reconstruction with Valved Conduit
55
RVOT Reconstruction with Outflow Patch
56
RVOT Reconstruction with PA Reimplantation
57
RVOT Reconstruction with LA Appendage
58
RVOT Reconstruction with PA Flap
59
RV-PA Connection Unifocalization
60
RV-PA Connection with Unifocalization
61
Midline One-stage Repair
62
Midline One-stage Repair
63
Staged Unifocalization

M / 20 Mo, 10.6 kg Postop. 7 Mo

64
One-stage Unifocalization

M / 46 Mo, 13 kg Post-op. 8 Mo

65
RV-PA Connection

F / 3 Mo, 4.6 kg Post-op. 3 Mo

66
RV-PA Connection with Unifocalization

F / 15 Mo, 7.5kg Post-op. 11 Mo

67
One-stage Total Correction

M / 7 Mo, 6.4kg Post-op. 1 Mo

68
Surgical Results of PA
with VSD,MAPCAs
- Anterior approach -

Yang Gie Ryu, Jeong-Jun Park,
Tae Jin Yoon, Dong Man Seo

Dept. of Thoracic and Cardiovascular Surgery AMC,
University of Ulsan
69
Representative Data
Approach Age(range) VSD closure Mortality (early)
Mee RBB (91) Multiple 2.6mo (1d 39yr) 52(30/55) 10
Hanley FL (95) Anterior 2yr (2mo 37yr) 90(9/10) -
Hanley FL (97) Anterior 4mo (10d 11mo) 63(17/27) 7
Hanley FL (98) Anterior 7.3mo (14d 37yr) 64(46/72) 11
Lofland GK (00) Anterior 3mo (5d 5.5mo) 91(10/11) 9.1
Cherian KM (02) Anterior 36mo (6mo 23yr) 51(26/51) 16
70
Criteria for VSD closure

- Central PA area ? 50 of predicted normal
(by Puga, 1989)
- Predicted pRV/pLV ? 0.7
No MAPCAs remain
More than 2/3 lung segments are centralized
(by Iyer and Mee, 1991)
- TNPAI ? 200 mm2/m2 (by
Hanley, 1997)
- ? Unprotected large MAPCA

71
Patient Profile

Period Jan. 1997
Jul. 2002
Number 25 (M F 12 13)
Age(mo), median 8 (3 190)
Weight(kg), median 6.8 (2.9 62)
Follow-up(mo), median 16 (3 150)

72
PA,VSD,MAPCAs (n25)
VSD closed (n19,76)
VSD open (n6,24)
73
Demographic Data
Group Ia (VSD closed) Group Ib (VSD closed) Group II ( VSD open )
No. of pts() 11(44) 8(32) 6(24)
Age(mo) Median Range 8 3 11 10.5 4 190 10.5 5 58
Weight(kg) Median Range 6.7 2.9 8.1 8.05 5 62 7.9 5.1 15.8
74
MAPCAs True PAs
Group Ia (VSD closed) Group Ib (VSD closed) Group II (VSD open)
No. of MAPCAs Mean Range 3.6 ? 1.2 1 5 3.3 ? 1.3 1 5 3.6 ? 0.5 3 4
True PAs Present Absent 7 4 7 1 6 0
75
Operation
Group Ia (VSD closed) Group Ib (VSD closed) Group II (VSD open) Total
Surgical approach Median sternotomy Sternotomy thoracotomy 7 4 6 2 4 2 17 8
RV-PA conduit Homograft Pericardial roll Transannular patch 8 2 1 5 1 2 3 1 1 16 4 4
76
Detail of Group Ia (n11)
Pt Confluency of PA Neo-McGoon ratio No. of MAPCAs Age
1 - lt 2.0 5 4m
2 Hypoplastic gt 2.0 4 8m
3 Hypoplastic gt 2.0 4 6m
4 - gt 2.0 4 12m
5 Good gt 2.0 3 6m
6 Hypoplastic lt 2.0 5 10m
7 Good gt 2.0 5 8m
8 Good gt 2.0 1 4m
9 Good lt 2.0 3 4m
10 - gt 2.0 3 8m
11 - gt 2.0 3 9m
Neo-McGoon ratio (True PA each MAPCA) /
descending aorta
77
Detail of Group Ib (n8)
Pt Confluency of PA Neo-McGoon ratio No. of MAPCA 1st Op (Age) 2nd Op (Age)
1 Hypoplastic lt 1.5 3 RV-PA conduit 11m Total 16m
2 Hypoplastic lt 2.0 3 Lt.unif 8m Rt.unif 22m
3 - gt 2.0 5 Rt.unif 13m Total 6y 6m
4 Hypoplastic gt 2.0 4 RVOT relieve 5m Total 10m
5 Hypoplastic gt 2.0 4 RVOT relieve,unif 8m Total 18m
6 Hypoplastic AP window gt 2.0 1 RV-PA conduit,unif 9m Total 10m
7 Hypoplastic gt 2.0 3 RV-PA conduit,unif 16m Total 3y 1m
8 gt 2.0 1 RV-PA conduit,unif 15y 10m Total 24y 1m
78
Detail of Group II (n6)
Pt Confluency of PA Neo-McGoon ratio No. of MAPCAs Op name (Age) Outcome
1 Hypoplastic lt 2.0 3 Bilat.unif,Central shunt,RV-PA conduit Cath F/U
2 Hypoplastic lt 2.0 4 RV-PA conduit 6m Poor growth of PA-gtdeath
3 Hypoplastic gt 2.0 4 RV-PA continuity 10m Waiting
4 Hypoplastic lt 1.0 4 RV-PA conduit,unif 3y 2m Waiting
5 - lt 1.5 3 Bilat.unif 6m Observ.
6 Hypoplastic gt 2.0 1 RMBT,cetral shunt RV-PA conduit(9m) Death
79
Cases of Mortality (n6)
Gr Age Anatomy Cause of death
Ia 4m PA,VSD, 5 MAPCA Respiratory failure Bronchial stenosis
Ia 6m PA, VSD, 4 MAPCA Pulmonary Hemorrhage
Ia 6m PA,VSD, 4 MAPCA Pulm. Hypertensive crisis
Ia 12m PA,VSD, 4 MAPCA Bronchus compression
II 6m PA,VSD, 4 MAPCA Poor growth of PAs
II 4y 11m PA, VSD, 1 MAPCA PVOD
Pulmonary hypertension related
80
Results