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Evaluation of end-organ protection in newborns and infants after surgery of aortic arch hypoplasia: A prospective randomized study

Introduction: Surgical repair of aortic arch hypoplasia in children requires a “dry” surgical field with reliable end-organ protection. Perfusion strategies commonly involve deep hypothermic circulatory arrest (DHCA) and variations of the continuous perfusion techniques, such as selective antegrade cerebral perfusion (SACP) and full-flow perfusion with double aortic cannulation (DAC). We aimed to evaluate the end-organ protection in the surgery of aortic arch hypoplasia in newborns and infants using DHCA and DAC.

Materials and methods: 66 newborns and infants with aortic arch hypoplasia and biventricular anatomy were enrolled in this prospective study. Patients were randomly assigned into two groups according to the perfusion strategy – DHCA (n = 33); and DAC (n = 33). Primary endpoint: acute kidney injury (AKI), graded according to the KDIGO score. Secondary endpoints: neurological sequelae (pre- and postoperative MRI), in-hospital mortality.

Results: The lowest temperature was 32 (28; 34)°С in the DAC group and 23 (20; 25)°С in the DHCA group. The patients with DAC had lower incidence of AKI (6 patients (18.2%) versus 19 patients (57.6%); p =.017). In the multivariate analysis, the inotropic index at 48 h was identified as a risk factor, increasing the risk of AKI by 4%. The DHCA group was associated with a 3.8-fold increase in the risk of AKI. There was no difference in hospital mortality between the DAC and DHCA groups (1 patient (3%) versus 3 patients (9.1%); p =.61). Neurological sequelae by MRI scan were observed in 18 patients (54.5%) in the DHCA group compared to 5 patients (15.15%) in the DAC group (p =.026). The only risk factor identified in the multivariate analysis for neurological lesions on MRI scan was the DHCA group, which increased the risk by 8.8 times.

Conclusions: Surgical reconstruction of the aortic arch hypoplasia using the method of full-body perfusion reduces the incidence of neurological lesions and renal complications requiring renal replacement therapy compared with the deep hypothermic circulatory arrest in neonates and infants.

IA Soynov et al, Evaluation of end-organ protection in newborns and infants after surgery of aortic arch hypoplasia: A prospective randomized study, Perfusion (, ) pp. . Copyright © 2024. DOI: 10.1177/02676591241276980. Users who receive access to an article through a repository are reminded that the article is protected by copyright and reuse is restricted to non-commercial and no derivative uses. Users may also download and save a local copy of an article accessed in an institutional repository for the user's personal reference. For permission to reuse an article, please follow our Process for Requesting Permission.

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Work Title Evaluation of end-organ protection in newborns and infants after surgery of aortic arch hypoplasia: A prospective randomized study
Access
Open Access
Creators
  1. I. A. Soynov
  2. Yu N. Gorbatikh
  3. Yu Yu Kulyabin
  4. S. N. Manukian
  5. K. A. Rzaeva
  6. I. A. Velyukhanov
  7. N. R. Nichay
  8. I. A. Kornilov
  9. A. N. Arkhipov
Keyword
  1. Hypoplasia of the aortic arch
  2. Cerebral perfusion
  3. Deep hypothermic circulatory arrest
  4. Double aortic cannulation
License In Copyright (Rights Reserved)
Work Type Article
Publisher
  1. Perfusion
Publication Date August 23, 2024
Publisher Identifier (DOI)
  1. https://doi.org/10.1177/02676591241276980
Deposited May 13, 2025

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  • Created

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Manuscript_Soinov___2_.docx

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator I. A. Soynov

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator Yu N. Gorbatikh

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator Yu Yu Kulyabin

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator S. N. Manukian

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator K. A. Rzaeva

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator I. A. Velyukhanov

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator N. R. Nichay

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator I. A. Kornilov

    May 13, 2025 10:29 by Researcher Metadata Database

  • Added Creator A. N. Arkhipov

    May 13, 2025 10:29 by Researcher Metadata Database

  • Published

    May 13, 2025 10:29 by Researcher Metadata Database

  • Updated

    May 13, 2025 22:05 by [unknown user]

  • Updated Keyword, Description, Publication Date Show Changes

    May 19, 2025 14:40 by avs5190

    Keyword
    • Hypoplasia of the aortic arch, Cerebral perfusion, Deep hypothermic circulatory arrest, Double aortic cannulation
    Description
    • Introduction: Surgical repair of aortic arch hypoplasia in children requires a “dry” surgical field with reliable end-organ protection. Perfusion strategies commonly involve deep hypothermic circulatory arrest (DHCA) and variations of the continuous perfusion techniques, such as selective antegrade cerebral perfusion (SACP) and full-flow perfusion with double aortic cannulation (DAC). We aimed to evaluate the end-organ protection in the surgery of aortic arch hypoplasia in newborns and infants using DHCA and DAC. Materials and methods: 66 newborns and infants with aortic arch hypoplasia and biventricular anatomy were enrolled in this prospective study. Patients were randomly assigned into two groups according to the perfusion strategy – DHCA (n = 33); and DAC (n = 33). Primary endpoint: acute kidney injury (AKI), graded according to the KDIGO score. Secondary endpoints: neurological sequelae (pre- and postoperative MRI), in-hospital mortality. Results: The lowest temperature was 32 (28; 34)°С in the DAC group and 23 (20; 25)°С in the DHCA group. The patients with DAC had lower incidence of AKI (6 patients (18.2%) versus 19 patients (57.6%); p =.017). In the multivariate analysis, the inotropic index at 48 h was identified as a risk factor, increasing the risk of AKI by 4%. The DHCA group was associated with a 3.8-fold increase in the risk of AKI. There was no difference in hospital mortality between the DAC and DHCA groups (1 patient (3%) versus 3 patients (9.1%); p =.61). Neurological sequelae by MRI scan were observed in 18 patients (54.5%) in the DHCA group compared to 5 patients (15.15%) in the DAC group (p =.026). The only risk factor identified in the multivariate analysis for neurological lesions on MRI scan was the DHCA group, which increased the risk by 8.8 times. Conclusions: Surgical reconstruction of the aortic arch hypoplasia using the method of full-body perfusion reduces the incidence of neurological lesions and renal complications requiring renal replacement therapy compared with the deep hypothermic circulatory arrest in neonates and infants.
    • Introduction: Surgical repair of aortic arch hypoplasia in children requires a “dry” surgical field with reliable end-organ protection. Perfusion strategies commonly involve deep hypothermic circulatory arrest (DHCA) and variations of the continuous perfusion techniques, such as selective antegrade cerebral perfusion (SACP) and full-flow perfusion with double aortic cannulation (DAC). We aimed to evaluate the end-organ protection in the surgery of aortic arch hypoplasia in newborns and infants using DHCA and DAC.
    • Materials and methods: 66 newborns and infants with aortic arch hypoplasia and biventricular anatomy were enrolled in this prospective study. Patients were randomly assigned into two groups according to the perfusion strategy – DHCA (n = 33); and DAC (n = 33). Primary endpoint: acute kidney injury (AKI), graded according to the KDIGO score. Secondary endpoints: neurological sequelae (pre- and postoperative MRI), in-hospital mortality.
    • Results: The lowest temperature was 32 (28; 34)°С in the DAC group and 23 (20; 25)°С in the DHCA group. The patients with DAC had lower incidence of AKI (6 patients (18.2%) versus 19 patients (57.6%); p =.017). In the multivariate analysis, the inotropic index at 48 h was identified as a risk factor, increasing the risk of AKI by 4%. The DHCA group was associated with a 3.8-fold increase in the risk of AKI. There was no difference in hospital mortality between the DAC and DHCA groups (1 patient (3%) versus 3 patients (9.1%); p =.61). Neurological sequelae by MRI scan were observed in 18 patients (54.5%) in the DHCA group compared to 5 patients (15.15%) in the DAC group (p =.026). The only risk factor identified in the multivariate analysis for neurological lesions on MRI scan was the DHCA group, which increased the risk by 8.8 times.
    • Conclusions: Surgical reconstruction of the aortic arch hypoplasia using the method of full-body perfusion reduces the incidence of neurological lesions and renal complications requiring renal replacement therapy compared with the deep hypothermic circulatory arrest in neonates and infants.
    Publication Date
    • 2025-05-01
    • 2024-08-23