Hypoxia Clinical Trial
Official title:
Fetal Cerebrovascular Autoregulation in Congenital Heart Disease and Association With Neonatal Neurobehavior
Determine 1) the impact of abnormal fetal cerebrovascular physiology with neurodevelopmental delay (ND) outcomes and 2) how this relationship is modified by patient and environmental factors such as chronic congenital heart disease (CCHD) lesion, maternal-fetal environment, and social determinants of heath (SDOH) in a diverse population using a multicenter design. Pregnant women will be approached during one of their fetal cardiology clinic visits.
Status | Recruiting |
Enrollment | 150 |
Est. completion date | December 2024 |
Est. primary completion date | December 2024 |
Accepts healthy volunteers | No |
Gender | Female |
Age group | 0 Years to 52 Years |
Eligibility | Inclusion Criteria: - Pregnant women 18 years of age and over with a singleton fetus with known or suspected congenital heart disease anticipated to need intervention or surgery within 30 days of birth. Exclusion Criteria: - Known fetal chromosomal or genetic abnormalities - Multiple gestation pregnancy - Fetal extra-cardiac anomalies |
Country | Name | City | State |
---|---|---|---|
United States | Primary Children's Hospital | Salt Lake City | Utah |
United States | University of Utah | Salt Lake City | Utah |
United States | University of California San Francisco | San Francisco | California |
United States | Maine Medical Center | Scarborough | Maine |
United States | Children's National Medical Center | Washington | District of Columbia |
Lead Sponsor | Collaborator |
---|---|
University of Utah | National Heart, Lung, and Blood Institute (NHLBI), Primary Children's Hospital |
United States,
Dimitropoulos A, McQuillen PS, Sethi V, Moosa A, Chau V, Xu D, Brant R, Azakie A, Campbell A, Barkovich AJ, Poskitt KJ, Miller SP. Brain injury and development in newborns with critical congenital heart disease. Neurology. 2013 Jul 16;81(3):241-8. doi: 10.1212/WNL.0b013e31829bfdcf. Epub 2013 Jun 14. — View Citation
Donofrio MT, Bremer YA, Schieken RM, Gennings C, Morton LD, Eidem BW, Cetta F, Falkensammer CB, Huhta JC, Kleinman CS. Autoregulation of cerebral blood flow in fetuses with congenital heart disease: the brain sparing effect. Pediatr Cardiol. 2003 Sep-Oct;24(5):436-43. doi: 10.1007/s00246-002-0404-0. — View Citation
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Gakenheimer-Smith L, Glotzbach K, Ou Z, Presson AP, Puchalski M, Jones C, Lambert L, Delgado-Corcoran C, Eckhauser A, Miller T. The Impact of Neurobehavior on Feeding Outcomes in Neonates with Congenital Heart Disease. J Pediatr. 2019 Nov;214:71-78.e2. doi: 10.1016/j.jpeds.2019.06.047. Epub 2019 Aug 8. — View Citation
Hahn E, Szwast A, Cnota J 2nd, Levine JC, Fifer CG, Jaeggi E, Andrews H, Williams IA. Association between fetal growth, cerebral blood flow and neurodevelopmental outcome in univentricular fetuses. Ultrasound Obstet Gynecol. 2016 Apr;47(4):460-5. doi: 10.1002/uog.14881. Epub 2016 Feb 18. — View Citation
Hogan WJ, Moon-Grady AJ, Zhao Y, Cresalia NM, Nawaytou H, Quezada E, Brook M, McQuillen P, Peyvandi S. Fetal cerebrovascular response to maternal hyperoxygenation in congenital heart disease: effect of cardiac physiology. Ultrasound Obstet Gynecol. 2021 May;57(5):769-775. doi: 10.1002/uog.22024. Epub 2021 Apr 13. — View Citation
Hogan WJ, Winter S, Pinto NM, Weng C, Sheng X, Conradt E, Wood J, Puchalski MD, Tani LY, Miller TA. Neurobehavioral evaluation of neonates with congenital heart disease: a cohort study. Dev Med Child Neurol. 2018 Dec;60(12):1225-1231. doi: 10.1111/dmcn.13912. Epub 2018 May 10. — View Citation
Limperopoulos C, Tworetzky W, McElhinney DB, Newburger JW, Brown DW, Robertson RL Jr, Guizard N, McGrath E, Geva J, Annese D, Dunbar-Masterson C, Trainor B, Laussen PC, du Plessis AJ. Brain volume and metabolism in fetuses with congenital heart disease: evaluation with quantitative magnetic resonance imaging and spectroscopy. Circulation. 2010 Jan 5;121(1):26-33. doi: 10.1161/CIRCULATIONAHA.109.865568. Epub 2009 Dec 21. — View Citation
Marino BS, Lipkin PH, Newburger JW, Peacock G, Gerdes M, Gaynor JW, Mussatto KA, Uzark K, Goldberg CS, Johnson WH Jr, Li J, Smith SE, Bellinger DC, Mahle WT; American Heart Association Congenital Heart Defects Committee, Council on Cardiovascular Disease in the Young, Council on Cardiovascular Nursing, and Stroke Council. Neurodevelopmental outcomes in children with congenital heart disease: evaluation and management: a scientific statement from the American Heart Association. Circulation. 2012 Aug 28;126(9):1143-72. doi: 10.1161/CIR.0b013e318265ee8a. Epub 2012 Jul 30. — View Citation
McQuillen PS, Miller SP. Congenital heart disease and brain development. Ann N Y Acad Sci. 2010 Jan;1184:68-86. doi: 10.1111/j.1749-6632.2009.05116.x. — View Citation
Oros D, Figueras F, Cruz-Martinez R, Padilla N, Meler E, Hernandez-Andrade E, Gratacos E. Middle versus anterior cerebral artery Doppler for the prediction of perinatal outcome and neonatal neurobehavior in term small-for-gestational-age fetuses with normal umbilical artery Doppler. Ultrasound Obstet Gynecol. 2010 Apr;35(4):456-61. doi: 10.1002/uog.7588. — View Citation
Peyvandi S, Xu D, Wang Y, Hogan W, Moon-Grady A, Barkovich AJ, Glenn O, McQuillen P, Liu J. Fetal Cerebral Oxygenation Is Impaired in Congenital Heart Disease and Shows Variable Response to Maternal Hyperoxia. J Am Heart Assoc. 2021 Jan 5;10(1):e018777. doi: 10.1161/JAHA.120.018777. Epub 2020 Dec 21. — View Citation
Rasanen J, Wood DC, Debbs RH, Cohen J, Weiner S, Huhta JC. Reactivity of the human fetal pulmonary circulation to maternal hyperoxygenation increases during the second half of pregnancy: a randomized study. Circulation. 1998 Jan 27;97(3):257-62. doi: 10.1161/01.cir.97.3.257. — View Citation
Sanapo L, Al-Shargabi T, Ahmadzia HK, Schidlow DN, Donofrio MT, Hitchings L, Khoury A, Larry Maxwell G, Baker R, Bulas DI, Gomez LM, du Plessis AJ. Fetal acute cerebral vasoreactivity to maternal hyperoxia in low-risk pregnancies: a cross-sectional study. Prenat Diagn. 2020 Jun;40(7):813-824. doi: 10.1002/pd.5694. Epub 2020 Apr 20. — View Citation
Szwast A, Putt M, Gaynor JW, Licht DJ, Rychik J. Cerebrovascular response to maternal hyperoxygenation in fetuses with hypoplastic left heart syndrome depends on gestational age and baseline cerebrovascular resistance. Ultrasound Obstet Gynecol. 2018 Oct;52(4):473-478. doi: 10.1002/uog.18919. Epub 2018 Sep 3. — View Citation
Vesoulis ZA, Mathur AM. Cerebral Autoregulation, Brain Injury, and the Transitioning Premature Infant. Front Pediatr. 2017 Apr 3;5:64. doi: 10.3389/fped.2017.00064. eCollection 2017. — View Citation
Williams IA, Fifer C, Jaeggi E, Levine JC, Michelfelder EC, Szwast AL. The association of fetal cerebrovascular resistance with early neurodevelopment in single ventricle congenital heart disease. Am Heart J. 2013 Apr;165(4):544-550.e1. doi: 10.1016/j.ahj.2012.11.013. Epub 2013 Feb 13. — View Citation
Williams IA, Tarullo AR, Grieve PG, Wilpers A, Vignola EF, Myers MM, Fifer WP. Fetal cerebrovascular resistance and neonatal EEG predict 18-month neurodevelopmental outcome in infants with congenital heart disease. Ultrasound Obstet Gynecol. 2012 Sep;40(3):304-9. doi: 10.1002/uog.11144. Epub 2012 Aug 2. — View Citation
* Note: There are 19 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Pre-operative Neonatal Network Neurobehavioral Scale (NNNS) attention scores | The NeoNatal Neurobehavioral Scale (NNNS-II) examines the neurobehavioral organization, neurological reflexes, motor development - active and passive tone, and signs of stress and withdrawal of the at-risk and drug-exposed infant | <=30 days of life | |
Primary | Baseline MCA-PI and change in MCA-PI with Maternal Hyperoxia | The fetal middle cerebral artery (MCA) pulsatility index (PI) | <= 30 days of life |
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