Literature DB >> 30923087

Brain and CSF Volumes in Fetuses and Neonates with Antenatal Diagnosis of Critical Congenital Heart Disease: A Longitudinal MRI Study.

N H P Claessens1,2,3, N Khalili4, I Isgum4, H Ter Heide2, T J Steenhuis2, E Turk5, N J G Jansen3,6, L S de Vries5, J M P J Breur2, R de Heus7, M J N L Benders5.   

Abstract

BACKGROUND AND
PURPOSE: Fetuses and neonates with critical congenital heart disease are at risk of delayed brain development and neurodevelopmental impairments. Our aim was to investigate the association between fetal and neonatal brain volumes and neonatal brain injury in a longitudinally scanned cohort with an antenatal diagnosis of critical congenital heart disease and to relate fetal and neonatal brain volumes to postmenstrual age and type of congenital heart disease.
MATERIALS AND METHODS: This was a prospective, longitudinal study including 61 neonates with critical congenital heart disease undergoing surgery with cardiopulmonary bypass <30 days after birth and MR imaging of the brain; antenatally (33 weeks postmenstrual age), neonatal preoperatively (first week), and postoperatively (7 days postoperatively). Twenty-six had 3 MR imaging scans; 61 had at least 1 fetal and/or neonatal MR imaging scan. Volumes (cubic centimeters) were calculated for total brain volume, unmyelinated white matter, cortical gray matter, cerebellum, extracerebral CSF, and ventricular CSF. MR images were reviewed for ischemic brain injury.
RESULTS: Total fetal brain volume, cortical gray matter, and unmyelinated white matter positively correlated with preoperative neonatal total brain volume, cortical gray matter, and unmyelinated white matter (r = 0.5-0.58); fetal ventricular CSF and extracerebral CSF correlated with neonatal ventricular CSF and extracerebral CSF (r = 0.64 and 0.82). Fetal cortical gray matter, unmyelinated white matter, and the cerebellum were negatively correlated with neonatal ischemic injury (r = -0.46 to -0.41); fetal extracerebral CSF and ventricular CSF were positively correlated with neonatal ischemic injury (r = 0.40 and 0.23). Unmyelinated white matter:total brain volume ratio decreased with increasing postmenstrual age, with a parallel increase of cortical gray matter:total brain volume and cerebellum:total brain volume. Fetal ventricular CSF:intracranial volume and extracerebral CSF:intracranial volume ratios decreased with increasing postmenstrual age; however, neonatal ventricular CSF:intracranial volume and extracerebral CSF:intracranial volume ratios increased with postmenstrual age.
CONCLUSIONS: This study reveals that fetal brain volumes relate to neonatal brain volumes in critical congenital heart disease, with a negative correlation between fetal brain volumes and neonatal ischemic injury. Fetal brain imaging has the potential to provide early neurologic biomarkers.
© 2019 by American Journal of Neuroradiology.

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Year:  2019        PMID: 30923087      PMCID: PMC7053893          DOI: 10.3174/ajnr.A6021

Source DB:  PubMed          Journal:  AJNR Am J Neuroradiol        ISSN: 0195-6108            Impact factor:   3.825


  25 in total

1.  Longitudinal Regional Brain Development and Clinical Risk Factors in Extremely Preterm Infants.

Authors:  Karina J Kersbergen; Antonios Makropoulos; Paul Aljabar; Floris Groenendaal; Linda S de Vries; Serena J Counsell; Manon J N L Benders
Journal:  J Pediatr       Date:  2016-09-12       Impact factor: 4.406

2.  Fetal MRI detects early alterations of brain development in Tetralogy of Fallot.

Authors:  Christoph Schellen; Schwartz Ernst; Gerlinde M Gruber; Elisabeth Mlczoch; Michael Weber; Peter C Brugger; Barbara Ulm; Georg Langs; Ulrike Salzer-Muhar; Daniela Prayer; Gregor Kasprian
Journal:  Am J Obstet Gynecol       Date:  2015-05-23       Impact factor: 8.661

3.  Incidence and evolution of subependymal and intraventricular hemorrhage: a study of infants with birth weights less than 1,500 gm.

Authors:  L A Papile; J Burstein; R Burstein; H Koffler
Journal:  J Pediatr       Date:  1978-04       Impact factor: 4.406

4.  Cerebrospinal Fluid and Parenchymal Brain Development and Growth in the Healthy Fetus.

Authors:  Nickie N Andescavage; Adre DuPlessis; Robert McCarter; Gilbert Vezina; Richard Robertson; Catherine Limperopoulos
Journal:  Dev Neurosci       Date:  2017-03-18       Impact factor: 2.984

5.  Automatic Segmentation of MR Brain Images With a Convolutional Neural Network.

Authors:  Pim Moeskops; Max A Viergever; Adrienne M Mendrik; Linda S de Vries; Manon J N L Benders; Ivana Isgum
Journal:  IEEE Trans Med Imaging       Date:  2016-03-30       Impact factor: 10.048

6.  The association between cardiac physiology, acquired brain injury, and postnatal brain growth in critical congenital heart disease.

Authors:  Shabnam Peyvandi; Hosung Kim; Joanne Lau; A James Barkovich; Andrew Campbell; Steven Miller; Duan Xu; Patrick McQuillen
Journal:  J Thorac Cardiovasc Surg       Date:  2017-08-24       Impact factor: 5.209

7.  Perioperative neonatal brain injury is associated with worse school-age neurodevelopment in children with critical congenital heart disease.

Authors:  Nathalie H P Claessens; Selma O Algra; Tom L Ouwehand; Nicolaas J G Jansen; Renske Schappin; Felix Haas; Maria J C Eijsermans; Linda S de Vries; Manon J N L Benders
Journal:  Dev Med Child Neurol       Date:  2018-03-24       Impact factor: 5.449

Review 8.  Neuroimaging, cardiovascular physiology, and functional outcomes in infants with congenital heart disease.

Authors:  Nathalie H P Claessens; Christopher J Kelly; Serena J Counsell; Manon J N L Benders
Journal:  Dev Med Child Neurol       Date:  2017-05-19       Impact factor: 5.449

9.  Neonatal Brain Injury and Timing of Neurodevelopmental Assessment in Patients With Congenital Heart Disease.

Authors:  Shabnam Peyvandi; Vann Chau; Ting Guo; Duan Xu; Hannah C Glass; Anne Synnes; Kenneth Poskitt; A James Barkovich; Steven P Miller; Patrick S McQuillen
Journal:  J Am Coll Cardiol       Date:  2018-05-08       Impact factor: 24.094

10.  Severe Congenital Heart Defects Are Associated with Global Reduction of Neonatal Brain Volumes.

Authors:  Michael von Rhein; Andreas Buchmann; Cornelia Hagmann; Hitendu Dave; Vera Bernet; Ianina Scheer; Walter Knirsch; Beatrice Latal
Journal:  J Pediatr       Date:  2015-07-29       Impact factor: 4.406
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  8 in total

Review 1.  The Congenital Heart Disease Brain: Prenatal Considerations for Perioperative Neurocritical Care.

Authors:  Cynthia M Ortinau; Joshua S Shimony
Journal:  Pediatr Neurol       Date:  2020-01-22       Impact factor: 3.372

2.  Functional Connectome of the Fetal Brain.

Authors:  Elise Turk; Marion I van den Heuvel; Manon J Benders; Roel de Heus; Arie Franx; Janessa H Manning; Jasmine L Hect; Edgar Hernandez-Andrade; Sonia S Hassan; Roberto Romero; René S Kahn; Moriah E Thomason; Martijn P van den Heuvel
Journal:  J Neurosci       Date:  2019-11-04       Impact factor: 6.167

3.  A Uniform Description of Perioperative Brain MRI Findings in Infants with Severe Congenital Heart Disease: Results of a European Collaboration.

Authors:  R Stegeman; M Feldmann; N H P Claessens; N J G Jansen; J M P J Breur; L S de Vries; T Logeswaran; B Reich; W Knirsch; R Kottke; C Hagmann; B Latal; J Simpson; K Pushparajah; A F Bonthrone; C J Kelly; S Arulkumaran; M A Rutherford; S J Counsell; M J N L Benders
Journal:  AJNR Am J Neuroradiol       Date:  2021-10-21       Impact factor: 3.825

4.  Early motor outcomes in infants with critical congenital heart disease are related to neonatal brain development and brain injury.

Authors:  Raymond Stegeman; Maaike C A Sprong; Johannes M P J Breur; Floris Groenendaal; Linda S de Vries; Felix Haas; Janjaap van der Net; Nicolaas J G Jansen; Manon J N L Benders; Nathalie H P Claessens
Journal:  Dev Med Child Neurol       Date:  2021-08-20       Impact factor: 4.864

5.  Fetal brain growth and risk of postnatal white matter injury in critical congenital heart disease.

Authors:  Shabnam Peyvandi; Jessie Mei Lim; Davide Marini; Duan Xu; V Mohan Reddy; A James Barkovich; Steven Miller; Patrick McQuillen; Mike Seed
Journal:  J Thorac Cardiovasc Surg       Date:  2020-10-01       Impact factor: 6.439

6.  3D Quantitative and Ultrastructural Analysis of Mitochondria in a Model of Doxorubicin Sensitive and Resistant Human Colon Carcinoma Cells.

Authors:  Claudia Moscheni; Emil Malucelli; Sara Castiglioni; Alessandra Procopio; Clara De Palma; Andrea Sorrentino; Patrizia Sartori; Laura Locatelli; Eva Pereiro; Jeanette A Maier; Stefano Iotti
Journal:  Cancers (Basel)       Date:  2019-08-27       Impact factor: 6.639

Review 7.  Antenatal and Perioperative Mechanisms of Global Neurological Injury in Congenital Heart Disease.

Authors:  Melinda Barkhuizen; Raul Abella; J S Hans Vles; Luc J I Zimmermann; Diego Gazzolo; Antonio W D Gavilanes
Journal:  Pediatr Cardiol       Date:  2020-12-29       Impact factor: 1.655

8.  Brain tissue development of neonates with Congenital Septal Defect: Study on MRI Image Evaluation of Deep Learning Algorithm.

Authors:  Jianfei Zhu; Jiaolei Chen; Yunhui Zhang; Jianwei Ji
Journal:  Pak J Med Sci       Date:  2021       Impact factor: 1.088
  8 in total

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