Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome

Heiner Latus; Mohamed S. Nassar; James Wong; Pauline Hachmann; Hannah Bellsham-Revell; Tarique Hussain; Christian Apitz; Caner Salih; Conal Austin; David Anderson; Can Yerebakan; Hakan Akintuerk; Juergen Bauer; Reza Razavi; Dietmar Schranz; Gerald Greil

doi:10.1136/heartjnl-2017-311532

Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome

Heiner Latus, Mohamed S. Nassar, James Wong, Pauline Hachmann, Hannah Bellsham-Revell, Tarique Hussain, Christian Apitz, Caner Salih, Conal Austin, David Anderson, Can Yerebakan, Hakan Akintuerk, Juergen Bauer, Reza Razavi, Dietmar Schranz, Gerald Greil

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Objective Norwood and hybrid procedure are two options available for initial palliation of patients with hypoplastic left heart syndrome (HLHS). Our study aimed to assess potential differences in right ventricular (RV) function and pulmonary artery dimensions using cardiac magnetic resonance (CMR) in survivors with HLHS. Methods 42 Norwood (mean age 2.4±0.8) and 44 hybrid (mean age 2.0±1.0 years) patients were evaluated by CMR after stage II palliation prior to planned Fontan completion. Initial stage I Norwood procedure was performed using a modified Blalock-Taussig shunt, while the hybrid procedure consisted of bilateral pulmonary artery banding and arterial duct stenting. Need for reinterventions and subsequent outcomes were also assessed. Results Norwood patients had larger RV end-diastolic dimensions (91±23 vs 80±31 mL/m 2, p=0.004) and lower heart rate (90±15 vs 102±13, p<0.001) than hybrid patients. Both Norwood and hybrid patients showed preserved global RV pump function (59±9 vs 59%±10%, p=0.91), while RV strain, strain rate and intraventricular synchrony were superior in the Norwood group. Pulmonary artery size was reduced (lower lobe index 135±74 vs 161±62 mm²/m², p=0.02), and reintervention rate was significantly higher in the hybrid group whereas subsequent outcome did not differ significantly (p=0.24). Conclusions Norwood and hybrid strategy were associated with equivalent and preserved global RV pump function while development of the pulmonary arteries and reintervention rate were superior using the Norwood approach. Impaired RV myocardial deformation as a potential marker of early RV dysfunction in the hybrid group may have a negative long-term impact in this population.

Original language	English (US)
Pages (from-to)	244-252
Number of pages	9
Journal	Heart
Volume	104
Issue number	3
DOIs	https://doi.org/10.1136/heartjnl-2017-311532
State	Published - Feb 1 2018

Keywords

Complex congenital heart disease
Congenital heart disease surgery
cardiac magnetic resonance (CMR) imaging

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1136/heartjnl-2017-311532

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Latus, H., Nassar, M. S., Wong, J., Hachmann, P., Bellsham-Revell, H., Hussain, T., Apitz, C., Salih, C., Austin, C., Anderson, D., Yerebakan, C., Akintuerk, H., Bauer, J., Razavi, R., Schranz, D., & Greil, G. (2018). Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome. Heart, 104(3), 244-252. https://doi.org/10.1136/heartjnl-2017-311532

Latus, H, Nassar, MS, Wong, J, Hachmann, P, Bellsham-Revell, H, Hussain, T, Apitz, C, Salih, C, Austin, C, Anderson, D, Yerebakan, C, Akintuerk, H, Bauer, J, Razavi, R, Schranz, D & Greil, G 2018, 'Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome', Heart, vol. 104, no. 3, pp. 244-252. https://doi.org/10.1136/heartjnl-2017-311532

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title = "Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome",

abstract = "Objective Norwood and hybrid procedure are two options available for initial palliation of patients with hypoplastic left heart syndrome (HLHS). Our study aimed to assess potential differences in right ventricular (RV) function and pulmonary artery dimensions using cardiac magnetic resonance (CMR) in survivors with HLHS. Methods 42 Norwood (mean age 2.4±0.8) and 44 hybrid (mean age 2.0±1.0 years) patients were evaluated by CMR after stage II palliation prior to planned Fontan completion. Initial stage I Norwood procedure was performed using a modified Blalock-Taussig shunt, while the hybrid procedure consisted of bilateral pulmonary artery banding and arterial duct stenting. Need for reinterventions and subsequent outcomes were also assessed. Results Norwood patients had larger RV end-diastolic dimensions (91±23 vs 80±31 mL/m 2, p=0.004) and lower heart rate (90±15 vs 102±13, p<0.001) than hybrid patients. Both Norwood and hybrid patients showed preserved global RV pump function (59±9 vs 59%±10%, p=0.91), while RV strain, strain rate and intraventricular synchrony were superior in the Norwood group. Pulmonary artery size was reduced (lower lobe index 135±74 vs 161±62 mm2/m2, p=0.02), and reintervention rate was significantly higher in the hybrid group whereas subsequent outcome did not differ significantly (p=0.24). Conclusions Norwood and hybrid strategy were associated with equivalent and preserved global RV pump function while development of the pulmonary arteries and reintervention rate were superior using the Norwood approach. Impaired RV myocardial deformation as a potential marker of early RV dysfunction in the hybrid group may have a negative long-term impact in this population.",

keywords = "Complex congenital heart disease, Congenital heart disease surgery, cardiac magnetic resonance (CMR) imaging",

author = "Heiner Latus and Nassar, {Mohamed S.} and James Wong and Pauline Hachmann and Hannah Bellsham-Revell and Tarique Hussain and Christian Apitz and Caner Salih and Conal Austin and David Anderson and Can Yerebakan and Hakan Akintuerk and Juergen Bauer and Reza Razavi and Dietmar Schranz and Gerald Greil",

note = "Funding Information: Funding this study was supported by the Doris-haag stiftung, Frankfurt am Main, germany and the Willy robert Pitzer stiftung, Bad nauheim, germany. this study has also received funding by the Department of health through the national institute for health research comprehensive Biomedical research centre award to guy{\textquoteright}s & st thomas{\textquoteright} nhs Foundation trust in partnership with King{\textquoteright}s college london and King{\textquoteright}s college hospital nhs Foundation trust. the Division of imaging sciences receives also support as the centre of excellence in Medical engineering (funded by the Wellcome trust and ePsrc; grant number Wt 088641/Z/09/Z) as well as the BhF centre of excellence (British heart Foundation award re/08/03). Publisher Copyright: {\textcopyright} 2018 Article author(s) (or their employer(s) unless otherwise stated in the text of the article). All rights reserved.",

year = "2018",

month = feb,

day = "1",

doi = "10.1136/heartjnl-2017-311532",

language = "English (US)",

volume = "104",

pages = "244--252",

journal = "Heart",

issn = "1355-6037",

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number = "3",

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TY - JOUR

T1 - Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome

AU - Latus, Heiner

AU - Nassar, Mohamed S.

AU - Wong, James

AU - Hachmann, Pauline

AU - Bellsham-Revell, Hannah

AU - Hussain, Tarique

AU - Apitz, Christian

AU - Salih, Caner

AU - Austin, Conal

AU - Anderson, David

AU - Yerebakan, Can

AU - Akintuerk, Hakan

AU - Bauer, Juergen

AU - Razavi, Reza

AU - Schranz, Dietmar

AU - Greil, Gerald

N1 - Funding Information: Funding this study was supported by the Doris-haag stiftung, Frankfurt am Main, germany and the Willy robert Pitzer stiftung, Bad nauheim, germany. this study has also received funding by the Department of health through the national institute for health research comprehensive Biomedical research centre award to guy’s & st thomas’ nhs Foundation trust in partnership with King’s college london and King’s college hospital nhs Foundation trust. the Division of imaging sciences receives also support as the centre of excellence in Medical engineering (funded by the Wellcome trust and ePsrc; grant number Wt 088641/Z/09/Z) as well as the BhF centre of excellence (British heart Foundation award re/08/03). Publisher Copyright: © 2018 Article author(s) (or their employer(s) unless otherwise stated in the text of the article). All rights reserved.

PY - 2018/2/1

Y1 - 2018/2/1

N2 - Objective Norwood and hybrid procedure are two options available for initial palliation of patients with hypoplastic left heart syndrome (HLHS). Our study aimed to assess potential differences in right ventricular (RV) function and pulmonary artery dimensions using cardiac magnetic resonance (CMR) in survivors with HLHS. Methods 42 Norwood (mean age 2.4±0.8) and 44 hybrid (mean age 2.0±1.0 years) patients were evaluated by CMR after stage II palliation prior to planned Fontan completion. Initial stage I Norwood procedure was performed using a modified Blalock-Taussig shunt, while the hybrid procedure consisted of bilateral pulmonary artery banding and arterial duct stenting. Need for reinterventions and subsequent outcomes were also assessed. Results Norwood patients had larger RV end-diastolic dimensions (91±23 vs 80±31 mL/m 2, p=0.004) and lower heart rate (90±15 vs 102±13, p<0.001) than hybrid patients. Both Norwood and hybrid patients showed preserved global RV pump function (59±9 vs 59%±10%, p=0.91), while RV strain, strain rate and intraventricular synchrony were superior in the Norwood group. Pulmonary artery size was reduced (lower lobe index 135±74 vs 161±62 mm2/m2, p=0.02), and reintervention rate was significantly higher in the hybrid group whereas subsequent outcome did not differ significantly (p=0.24). Conclusions Norwood and hybrid strategy were associated with equivalent and preserved global RV pump function while development of the pulmonary arteries and reintervention rate were superior using the Norwood approach. Impaired RV myocardial deformation as a potential marker of early RV dysfunction in the hybrid group may have a negative long-term impact in this population.

AB - Objective Norwood and hybrid procedure are two options available for initial palliation of patients with hypoplastic left heart syndrome (HLHS). Our study aimed to assess potential differences in right ventricular (RV) function and pulmonary artery dimensions using cardiac magnetic resonance (CMR) in survivors with HLHS. Methods 42 Norwood (mean age 2.4±0.8) and 44 hybrid (mean age 2.0±1.0 years) patients were evaluated by CMR after stage II palliation prior to planned Fontan completion. Initial stage I Norwood procedure was performed using a modified Blalock-Taussig shunt, while the hybrid procedure consisted of bilateral pulmonary artery banding and arterial duct stenting. Need for reinterventions and subsequent outcomes were also assessed. Results Norwood patients had larger RV end-diastolic dimensions (91±23 vs 80±31 mL/m 2, p=0.004) and lower heart rate (90±15 vs 102±13, p<0.001) than hybrid patients. Both Norwood and hybrid patients showed preserved global RV pump function (59±9 vs 59%±10%, p=0.91), while RV strain, strain rate and intraventricular synchrony were superior in the Norwood group. Pulmonary artery size was reduced (lower lobe index 135±74 vs 161±62 mm2/m2, p=0.02), and reintervention rate was significantly higher in the hybrid group whereas subsequent outcome did not differ significantly (p=0.24). Conclusions Norwood and hybrid strategy were associated with equivalent and preserved global RV pump function while development of the pulmonary arteries and reintervention rate were superior using the Norwood approach. Impaired RV myocardial deformation as a potential marker of early RV dysfunction in the hybrid group may have a negative long-term impact in this population.

KW - Complex congenital heart disease

KW - Congenital heart disease surgery

KW - cardiac magnetic resonance (CMR) imaging

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U2 - 10.1136/heartjnl-2017-311532

DO - 10.1136/heartjnl-2017-311532

M3 - Article

C2 - 28754809

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SN - 1355-6037

VL - 104

SP - 244

EP - 252

JO - Heart

JF - Heart

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ER -

Ventricular function and vascular dimensions after Norwood and hybrid palliation of hypoplastic left heart syndrome

Abstract

Keywords

ASJC Scopus subject areas

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