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12. Pregnancy outcomes in two growth restricted fetuses with in utero cerebral lactate.

Author

Andescavage, N., Limperopoulos, C., Evangelou, I., Murnick, J., and du Plessis, A.

Subjects
FETAL development, PREGNANCY complications, NUCLEAR magnetic resonance spectroscopy, FETAL MRI, LACTATES, CHOLINE
Abstract

Elevated cerebral lactate is increasingly detected by magnetic resonance spectroscopy in the human fetus diagnosed with various pathologic conditions. However, the significance of detectable cerebral lactate remains uncertain. We present two cases of fetal cerebral lactate with adverse pregnancy outcomes. [ABSTRACT FROM AUTHOR]

Published
2015
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15. Quantitative susceptibility mapping with source separation in normal brain development of newborns.

Author

Jang M, Dimov AV, Kapse K, Murnick J, Grinspan Z, Wu A, Choudhury AR, Wang Y, Spincemaille P, Nguyen TD, Limperopoulos C, and Zun Z

Abstract

Background and Purpose: Quantitative susceptibility mapping is an emerging method for characterizing tissue composition and studying myelination and iron deposition. However, accurate assessment of myelin and iron content in the newborn brain using this method is challenging because these two susceptibility sources of opposite signs (myelin, negative; iron, positive) occupy the same voxel, with minimal and comparable content in both sources. In this study, susceptibilities were measured in the normal newborn brain using susceptibility source separation., Materials and Methods: Sixty-nine healthy newborns without clinical indications were prospectively recruited for MRI. All newborns underwent gradient echo imaging for quantitative susceptibility mapping. Positive (paramagnetic) and negative (diamagnetic) susceptibility sources were separated using additional information from R2* with linear modeling performed for the newborn brain. Average susceptibility maps were generated by normalizing all susceptibility maps to an atlas space. Mean regional susceptibility measurements were obtained in the cortical GM, WM, deep GM, caudate nucleus, putamen, globus pallidus, thalamus, and the four brain lobes., Results: A total of sixty-five healthy newborns (mean postmenstrual age, 42.8 ± 2.3 weeks; 34 females) were studied. The negative susceptibility maps visually demonstrated high signals in the thalamus, brainstem and potentially myelinated WM regions, whereas the positive susceptibility maps depicted high signals in the GM compared to all WM regions, including both myelinated and unmyelinated WM. The WM exhibited significantly lower mean positive susceptibility and significantly higher mean negative susceptibility than cortical GM and deep GM. Within the deep GM, the thalamus showed a significantly lower mean negative susceptibility than the other nuclei, and the putamen and globus pallidus showed significant associations with newborn age in positive and/or negative susceptibility. Among the four brain lobes, the occipital lobe showed a significantly higher mean positive susceptibility and a significantly lower mean negative susceptibility than the frontal lobe., Conclusions: This study demonstrates regional variations and temporal changes in positive and negative susceptibilities of the newborn brain, potentially associated with myelination and iron deposition patterns in normal brain development. It suggests that quantitative susceptibility mapping with source separation may be used for early identification of delayed myelination or iron deficiency., Abbreviations: CGM = cortical gray matter; DGM = deep gray matter; PMA = postmenstrual age; QSM = quantitative susceptibility mapping., Competing Interests: The authors declare no conflicts of interest related to the content of this article., (© 2024 by American Journal of Neuroradiology.)

Published
2024
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16. Circadian rhythm development in preterm infants. The role of postnatal versus postmenstrual age.

Author

Govindan RB, Andescavage NN, Basu S, Murnick J, Ngwa J, Galla JT, Kapse K, Limperopoulos C, and du Plessis A

Subjects
Humans, Infant, Newborn, Male, Female, Gestational Age, Prospective Studies, Circadian Rhythm physiology, Infant, Premature growth & development, Infant, Premature physiology, Heart Rate physiology
Abstract

Background, Aims: Circadian rhythm maturation may be disturbed in premature infants undergoing neonatal intensive care. We used continuous heart rate recordings across the entire neonatal intensive care period to study circadian rhythm development in preterm infants and to evaluate the roles of postmenstrual (PMA) versus postnatal age (PNA)., Materials and Methods: The circadian rhythm was calculated using a cosine fit of heart rate. The circadian rhythm amplitudes were averaged weekly and studied relative to PMA and PNA using the linear mixed effects models, adjusting for clinical variables that could affect the heart rate. The daily circadian rhythms were used to create grand averages for PMA groups: ≤31, 32-35, and > 35 weeks, and for PNA groups: ≤30, 31-60, and > 60 days., Results: Sixty-six infants were evaluated as part of an ongoing prospective study with gestational ages between 23 and 36 weeks. The PMA (1.47 × 10 -2 beats per minute (bpm)/week, P = 2.07 × 10 -8 ) and PNA (1.87 × 10 -2 bpm/day; P = 1.86 × 10 -6 ) were significantly associated with the circadian rhythm amplitude independent of covariates. Infants ≤31 weeks' PMA and ≤30 days PNA, the phase of circadian rhythm amplitude grand averages showed a peak at night and a nadir during the day. Hereafter the circadian rhythm phase reversed to that established for mature individuals. The highest circadian rhythm amplitudes present >35 weeks' PMA and > 60 days PNA., Conclusions: Our results indicate circadian rhythm matures with advancing gestation. The reversed circadian rhythm phase during the early postnatal period could be due to premature exposure to the ex-utero environment and warrant further study., Competing Interests: Declaration of competing interest None., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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17. Prenatal Maternal Psychological Distress During the COVID-19 Pandemic and Newborn Brain Development.

Author

Weiner S, Wu Y, Kapse K, Vozar T, Cheng JJ, Murnick J, Henderson D, Teramoto H, Limperopoulos C, and Andescavage N

Subjects
Humans, Female, Pregnancy, Infant, Newborn, Adult, Cross-Sectional Studies, Prospective Studies, Male, Mothers psychology, Pandemics, Stress, Psychological, Pregnancy Complications psychology, Pregnancy Complications epidemiology, Prenatal Exposure Delayed Effects psychology, Anxiety epidemiology, COVID-19 psychology, COVID-19 epidemiology, Brain diagnostic imaging, Brain pathology, Psychological Distress, Magnetic Resonance Imaging, SARS-CoV-2
Abstract

Importance: Elevated maternal psychological distress during pregnancy is associated with altered fetal brain development. During the COVID-19 pandemic, prenatal maternal psychological distress more than doubled., Objective: To examine the association of the pandemic and rising maternal psychological distress with brain growth in newborns using quantitative 3-dimensional volumetric magnetic resonance imaging (MRI)., Design, Setting, and Participants: This prospective cross-sectional study recruited mother-infant dyads at Children's National Hospital, Washington, DC, during the COVID-19 pandemic (June 1, 2020, to June 30, 2022) into a longitudinal infant brain development study and compared them with an existing normative healthy cohort (recruited March 1, 2014, to December 31, 2019). Exclusion criteria included multiple gestation pregnancy, known or suspected congenital infection, documented chromosomal abnormalities, or any maternal contraindication to MRI, as well as prenatal COVID-19 exposure. Infants with structural brain abnormalities or a postnatal confirmation of a genetic syndrome were excluded., Exposure: Psychological distress during COVID-19 pandemic., Main Outcomes and Measures: Prenatal maternal mental health was evaluated using the Spielberger State-Trait Anxiety Inventory and the Perceived Stress Scale. Neonates underwent nonsedated brain MRI. An ordinary least squares linear regression model was used to measure the differences in regional brain volumes of neonates born before vs during the pandemic with and without exposure to elevated prenatal maternal psychological distress after adjustment for neonatal sex and gestational age at MRI and maternal age and educational level., Results: A total of 159 mother-infant dyads were included in the analysis: 103 before and 56 during the pandemic (median gestational age of infants, 39.6 [IQR, 38.4-40.4] weeks; median maternal age, 34.5 [IQR, 31.0-37.0] years). Eighty-three infants (52.2%) were female. Among the mothers, 130 (81.8%) had a college degree and 87 (54.7%) had a graduate degree. Forty-four mothers (27.7%) identified as Asian, Hispanic, or multiracial; 27 (17.0%), as Black; and 88 (55.3%), as White. Scores on anxiety and stress measures were significantly increased in the pandemic cohort. Infants of mothers with elevated maternal distress showed median reductions in white matter (-0.36 [95% CI, -0.61 to -0.11] cm3; Q < .001), right hippocampal (-0.35 [95% CI, -0.65 to -0.06] cm3; Q = .04), and left amygdala (-0.49 [95% CI, -0.84 to -0.13] cm3; Q = .03) volumes compared with infants of mothers with low distress levels. After adjusting for the cohort effect of the pandemic, elevated trait anxiety remained significantly associated with decreased left amygdalar volumes (-0.71 [95% CI, -1.12 to -0.29]; Q < .001)., Conclusions and Relevance: In this cross-sectional study of maternal-infant dyads prior to and during the COVID-19 pandemic, regional neonatal brain volumes were associated with elevated maternal psychological distress.

Published
2024
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18. Regional homogeneity as a marker of sensory cortex dysmaturity in preterm infants.

Author

Damera SR, De Asis-Cruz J, Cook KM, Kapse K, Spoehr E, Murnick J, Basu S, Andescavage N, and Limperopoulos C

Abstract

Atypical perinatal sensory experience in preterm infants is thought to increase their risk of neurodevelopmental disabilities by altering the development of the sensory cortices. Here, we used resting-state fMRI data from preterm and term-born infants scanned between 32 and 48 weeks post-menstrual age to assess the effect of early ex-utero exposure on sensory cortex development. Specifically, we utilized a measure of local correlated-ness called regional homogeneity (ReHo). First, we demonstrated that the brain-wide distribution of ReHo mirrors the known gradient of cortical maturation. Next, we showed that preterm birth differentially reduces ReHo across the primary sensory cortices. Finally, exploratory analyses showed that the reduction of ReHo in the primary auditory cortex of preterm infants is related to increased risk of autism at 18 months. In sum, we show that local connectivity within sensory cortices has different developmental trajectories, is differentially affected by preterm birth, and may be associated with later neurodevelopment., Competing Interests: The authors declare no competing financial interests., (© 2024 The Authors.)

Published
2024
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20. Cholesteatoma: Canalplasty for External Auditory Stenosis in a Pediatric Patient.

Author

Elzomor A, Firlie M, Orobello N, Murnick J, and Reilly BK

Abstract

External auditory canal (EAC) stenosis is the narrowing of the external auditory meatus to less than 4 mm. Severe stenosis of the EAC may inhibit the ability to conduct sound and may lead to the formation of a cholesteatoma. While most cases of EAC stenosis may be managed nonoperatively, the significant impact that the associated symptoms can have on patients may require surgical intervention. Progression of the cholesteatoma can erode the bony ossicles, may encase the facial nerve, and impact infection risk causing chronic otorrhea, and further worsening patient quality of life. We present the case of a pediatric patient who presented due to chronic left-sided hearing loss. Further examination and imaging demonstrated near-total obstruction of the left EAC secondary to a soft tissue mass and evidence of bony hypertrophy. Following a canalplasty, the patient now has returned to baseline hearing and has no associated complications. Canalplasty remains a safe, effective surgical intervention for EAC stenosis complicated by cholesteatoma., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2023, Elzomor et al.)

Published
2023
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21. Brain injury and neurodevelopmental outcomes in children undergoing surgery for congenital heart disease.

Author

Reitz JG, Zurakowski D, Kuhn VA, Murnick J, Donofrio MT, d'Udekem Y, Licht D, Kosiorek A, Limperopoulos C, Axt-Fliedner R, Yerebakan C, and Carpenter JL

Abstract

Objectives: Brain injury is commonly seen on magnetic resonance imaging in infants with complex congenital heart disease. The impact of perioperative brain injury on neurodevelopmental outcomes is not well understood. We evaluate the association of brain injury and other markers on neurodevelopmental outcomes in patients undergoing surgery for congenital heart surgery during infancy., Methods: Term newborns with infant cardiac surgery performed between 2008 and 2019 at a single tertiary center, and both preoperative and postoperative brain magnetic resonance imaging were included. Those with underlying genetic conditions were excluded. Brain injury was characterized using an magnetic resonance imaging scoring system. Neurodevelopmental outcomes were assigned using the Pediatric Stroke Outcome Measure and Glasgow Outcome Scale Extended. Independent risk factors for poor neurodevelopmental outcomes were determined by multivariable Cox regression., Results: A total of 122 patients were included. New or progressive postoperative brain injury was noted in 69 patients (57%). A total of 101 patients (83%) had at least 1 neurodevelopmental assessment (median age 36 months) with an early assessment (5-24 months) performed in 95 children. Multivariable Cox regression analysis of early neurodevelopmental outcomes identified new stroke on postoperative magnetic resonance imaging to be an independent predictor of poor neurodevelopmental outcome. Postoperative peak lactate was an independent predictor of poor outcome assessed by the Pediatric Stroke Outcome Measure and Glasgow Outcome Scale Extended., Conclusions: Our study reveals that evidence of new stroke on magnetic resonance imaging after infant congenital heart surgery is a predictor of poor neurodevelopmental outcomes in early childhood. Postoperative lactic acidosis is associated with poor neurodevelopmental outcome and may be a surrogate biomarker for ischemic brain injury., Competing Interests: The authors reported no conflicts of interest. The Journal policy requires editors and reviewers to disclose conflicts of interest and to decline handling or reviewing manuscripts for which they may have a conflict of interest. The editors and reviewers of this article have no conflicts of interest., (© 2023 The Author(s).)

Published
2023
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22. Experience of early-life pain in premature infants is associated with atypical cerebellar development and later neurodevelopmental deficits.

Author

Cook KM, De Asis-Cruz J, Kim JH, Basu SK, Andescavage N, Murnick J, Spoehr E, Liggett M, du Plessis AJ, and Limperopoulos C

Subjects
Infant, Infant, Newborn, Humans, Male, Female, Magnetic Resonance Imaging, Cognition, Pain etiology, Infant, Premature, Neurodevelopmental Disorders etiology
Abstract

Background: Infants born very and extremely premature (V/EPT) are at a significantly elevated risk for neurodevelopmental disorders and delays even in the absence of structural brain injuries. These risks may be due to earlier-than-typical exposure to the extrauterine environment, and its bright lights, loud noises, and exposures to painful procedures. Given the relative underdeveloped pain modulatory responses in these infants, frequent pain exposures may confer risk for later deficits., Methods: Resting-state fMRI scans were collected at term equivalent age from 148 (45% male) infants born V/EPT and 99 infants (56% male) born at term age. Functional connectivity analyses were performed between functional regions correlating connectivity to the number of painful skin break procedures in the NICU, including heel lances, venipunctures, and IV placements. Subsequently, preterm infants returned at 18 months, for neurodevelopmental follow-up and completed assessments for autism risk and general neurodevelopment., Results: We observed that V/EPT infants exhibit pronounced hyperconnectivity within the cerebellum and between the cerebellum and both limbic and paralimbic regions correlating with the number of skin break procedures. Moreover, skin breaks were strongly associated with autism risk, motor, and language scores at 18 months. Subsample analyses revealed that the same cerebellar connections strongly correlating with breaks at term age were associated with language dysfunction at 18 months., Conclusions: These results have significant implications for the clinical care of preterm infants undergoing painful exposures during routine NICU care, which typically occurs without anesthesia. Repeated pain exposures appear to have an increasingly detrimental effect on brain development during a critical period, and effects continue to be seen even 18 months later., (© 2023. The Author(s).)

Published
2023
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23. Impact of bronchopulmonary dysplasia on brain GABA concentrations in preterm infants: Prospective cohort study.

Author

Basu SK, Kapse KJ, Murnick J, Pradhan S, Spoehr E, Zhang A, Andescavage N, Nino G, du Plessis AJ, and Limperopoulos C

Subjects
Infant, Female, Humans, Infant, Newborn, Infant, Premature, Prospective Studies, Brain diagnostic imaging, Brain metabolism, Gestational Age, Fetal Growth Retardation, gamma-Aminobutyric Acid metabolism, Bronchopulmonary Dysplasia, Brain Injuries
Abstract

Background: Bronchopulmonary dysplasia (BPD) is associated with cognitive-behavioral deficits in very preterm (VPT) infants, often in the absence of structural brain injury. Advanced GABA-editing techniques like Mescher-Garwood point resolved spectroscopy (MEGA-PRESS) can quantify in-vivo gamma-aminobutyric acid (GABA+, with macromolecules) and glutamate (Glx, with glutamine) concentrations to investigate for neurophysiologic perturbations in the developing brain of VPT infants., Objective: To investigate the relationship between the severity of BPD and basal-ganglia GABA+ and Glx concentrations in VPT infants., Methods: MRI studies were performed on a 3 T scanner in a cohort of VPT infants [born ≤32 weeks gestational age (GA)] without major structural brain injury and healthy-term infants (>37 weeks GA) at term-equivalent age. MEGA-PRESS (TE68ms, TR2000ms, 256averages) sequence was acquired from the right basal-ganglia voxel (∼3cm 3 ) and metabolite concentrations were quantified in institutional units (i.u.). We stratified VPT infants into no/mild (grade 0/1) and moderate-severe (grade 2/3) BPD., Results: Reliable MEGA-PRESS data was available from 63 subjects: 29 healthy-term and 34 VPT infants without major structural brain injury. VPT infants with moderate-severe BPD (n = 20) had the lowest right basal-ganglia GABA+ (median 1.88 vs. 2.28 vs. 2.12 i.u., p = 0.025) and GABA+/choline (0.73 vs. 0.99 vs. 0.88, p = 0.004) in comparison to infants with no/mild BPD and healthy-term infants. The GABA+/Glx ratio was lower (0.34 vs. 0.44, p = 0.034) in VPT infants with moderate-severe BPD than in infants with no/mild BPD., Conclusions: Reduced GABA+ and GABA+/Glx in VPT infants with moderate-severe BPD indicate neurophysiologic perturbations which could serve as early biomarkers of future cognitive deficits., Competing Interests: Declaration of competing interest The authors have no financial or non-financial conflicts of interests or relationships relevant to this article to disclose., (Copyright © 2023. Published by Elsevier B.V.)

Published
2023
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24. Ex-utero third trimester developmental changes in functional brain network organization in infants born very and extremely preterm.

Author

Cook KM, De Asis-Cruz J, Basu SK, Andescavage N, Murnick J, Spoehr E, du Plessis AJ, and Limperopoulos C

Abstract

Introduction: The latter half of gestation is a period of rapid brain development, including the formation of fundamental functional brain network architecture. Unlike in-utero fetuses, infants born very and extremely preterm undergo these critical maturational changes in the extrauterine environment, with growing evidence suggesting this may result in altered brain networks. To date, however, the development of functional brain architecture has been unexplored., Methods: From a prospective cohort of preterm infants, graph parameters were calculated for fMRI scans acquired prior to reaching term equivalent age. Eight graph properties were calculated, Clustering Coefficient (C), Characteristic Path Length (L), Modularity (Q), Local Efficiency (LE), Global Efficiency (GE), Normalized Clustering (λ), Normalized Path Length (γ), and Small-Worldness (σ). Properties were first compared to values generated from random and lattice networks and cost efficiency was evaluated. Subsequently, linear mixed effect models were used to assess relationship with postmenstrual age and infant sex., Results: A total of 111 fMRI scans were acquired from 85 preterm infants born at a mean GA 28.93 ± 2.8. Infants displayed robust small world properties as well as both locally and globally efficient networks. Regression models found that GE increased while L, Q, λ, γ, and σ decreased with increasing postmenstrual age following multiple comparison correction (r 2 Adj range 0.143-0.401, p < 0048), with C and LE exhibited trending increases with age., Discussion: This is the first direct investigation on the extra-uterine formation of functional brain architecture in preterm infants. Importantly, our results suggest that changes in functional architecture with increasing age exhibit a different trajectory relative to in utero fetus. Instead, they exhibit developmental changes more similar to the early postnatal period in term born infants., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Cook, De Asis-Cruz, Basu, Andescavage, Murnick, Spoehr, du Plessis and Limperopoulos.)

Published
2023
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25. Severity of prematurity and age impact early postnatal development of GABA and glutamate systems.

Author

Basu SK, Pradhan S, Sharker YM, Kapse KJ, Murnick J, Chang T, Lopez CA, Andescavage N, duPlessis AJ, and Limperopoulos C

Subjects
Infant, Pregnancy, Female, Humans, Infant, Newborn, Infant, Premature, Glutamic Acid metabolism, Magnetic Resonance Spectroscopy methods, gamma-Aminobutyric Acid metabolism, Premature Birth, Brain Injuries
Abstract

Gamma-aminobutyric acid (GABA) and glutamatergic system perturbations following premature birth may explain neurodevelopmental deficits in the absence of structural brain injury. Using GABA-edited spectroscopy (MEscher-GArwood Point Resolved Spectroscopy [MEGA-PRESS] on 3 T MRI), we have described in-vivo brain GABA+ (+macromolecules) and Glx (glutamate + glutamine) concentrations in term-born infants. We report previously unavailable comparative data on in-vivo GABA+ and Glx concentrations in the cerebellum, the right basal ganglia, and the right frontal lobe of preterm-born infants without structural brain injury. Seventy-five preterm-born (gestational age 27.8 ± 2.9 weeks) and 48 term-born (39.6 ± 0.9 weeks) infants yielded reliable MEGA-PRESS spectra acquired at post-menstrual age (PMA) of 40.2 ± 2.3 and 43.0 ± 2 weeks, respectively. GABA+ (median 2.44 institutional units [i.u.]) concentrations were highest in the cerebellum and Glx higher in the cerebellum (5.73 i.u.) and basal ganglia (5.16 i.u.), with lowest concentrations in the frontal lobe. Metabolite concentrations correlated positively with advancing PMA and postnatal age at MRI (Spearman's rho 0.2-0.6). Basal ganglia Glx and NAA, and frontal GABA+ and NAA concentrations were lower in preterm compared with term infants. Moderate preterm infants had lower metabolite concentrations than term and extreme preterm infants. Our findings emphasize the impact of premature extra-uterine stimuli on GABA-glutamate system development and may serve as early biomarkers of neurodevelopmental deficits., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2023
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27. Cerebral Sinus Venous Thrombosis in Infants after Surgery for Congenital Heart Disease.

Author

Harrar DB, Goss M, Donofrio MT, Murnick J, Reitz JG, Zhang A, Diab Y, Meldau J, Sinha P, Yerebakan C, and Carpenter JL

Subjects
Anticoagulants therapeutic use, Humans, Infant, Infant, Newborn, Heart Defects, Congenital complications, Sinus Thrombosis, Intracranial epidemiology, Sinus Thrombosis, Intracranial etiology, Transposition of Great Vessels complications, Venous Thrombosis complications
Abstract

Objective: To determine the prevalence of and risk factors for cerebral sinus venous thrombosis (CSVT) in neonates undergoing congenital heart disease (CHD) repair., Study Design: Neonates who had CHD repair with cardiopulmonary bypass and postoperative brain magnetic resonance imaging (MRI) between 2013 and 2019 at a single tertiary care center were identified from institutional databases. Demographic, clinical, and surgical data were abstracted from these databases and from the medical record; 278 neonates with CHD had cardiopulmonary bypass, 184 of whom had a postoperative brain MRI., Results: Eight patients (4.3%) had a CSVT. Transposition of the great arteries with an intact ventricular septum (P < .01) and interrupted aortic arch (P = .02) were associated with an increased risk for CSVT. Other risk factors for CSVT included cross-clamp time (98 [IQR, 77.5-120] minutes vs 67 [IQR, 44-102] minutes; P = .03), units of platelets (3.63 [IQR, 3-4] vs 2.17 [IQR, 1-4]; P < .01) and packed red blood cells (0.81 [IQR, 0.25-1] vs 1.21 [IQR, 1-1]; P = .03) transfused intraoperatively, and time between surgery and MRI (10 [IQR, 7-12.5] days vs 20 [IQR, 12-35] days; P < .01). Five patients (62.5%) were treated with anticoagulation. All patients had complete or partial resolution of their CSVT, regardless of treatment., Conclusions: Brain MRI after cardiopulmonary bypass in neonates revealed a low prevalence of CSVT (4.3%). Further studies are needed to establish best practices for surveillance, prevention, and treatment of CSVT in this population., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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28. In infants with congenital heart disease autonomic dysfunction is associated with pre-operative brain injury.

Author

Schlatterer SD, Govindan RB, Murnick J, Barnett SD, Lopez C, Donofrio MT, Mulkey SB, Limperopoulos C, and du Plessis AJ

Subjects
Autonomic Nervous System, Critical Illness, Heart Rate physiology, Humans, Infant, Infant, Newborn, Autonomic Nervous System Diseases etiology, Brain Injuries complications, Heart Defects, Congenital complications, Heart Defects, Congenital surgery
Abstract

Background: Brain injury is a serious and common complication of critical congenital heart disease (CHD). Impaired autonomic development (assessed by heart rate variability (HRV)) is associated with brain injury in other high-risk neonatal populations., Objective: To determine whether impaired early neonatal HRV is associated with pre-operative brain injury in CHD., Methods: In infants with critical CHD, we evaluated HRV during the first 24 h of cardiac ICU (CICU) admission using time-domain (RMS 1, RMS 2, and alpha 1) and frequency-domain metrics (LF, nLF, HF, nHF). Pre-operative brain magnetic resonance imaging (MRI) was scored for injury using an established system. Spearman's correlation coefficient was used to determine the association between HRV and pre-operative brain injury., Results: We enrolled 34 infants with median birth gestational age of 38.8 weeks (IQR 38.1-39.1). Median postnatal age at pre-operative brain MRI was 2 days (IQR 1-3 days). Thirteen infants had MRI evidence of brain injury. RMS 1 and RMS 2 were inversely correlated with pre-operative brain injury., Conclusions: Time-domain metrics of autonomic function measured within the first 24 h of admission to the CICU are associated with pre-operative brain injury, and may perform better than frequency-domain metrics under non-stationary conditions such as critical illness., Impact: Autonomic dysfunction, measured by heart rate variability (HRV), in early transition is associated with pre-operative brain injury in neonates with critical congenital heart disease. These data extend our earlier findings by providing further evidence for (i) autonomic dysfunction in infants with CHD, and (ii) an association between autonomic dysfunction and brain injury in critically ill neonates. These data support the notion that further investigation of HRV as a biomarker for brain injury risk is warranted in infants with critical CHD., (© 2021. The Author(s), under exclusive licence to the International Pediatric Research Foundation, Inc.)

Published
2022
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29. Automatic brain segmentation in preterm infants with post-hemorrhagic hydrocephalus using 3D Bayesian U-Net.

Author

Largent A, De Asis-Cruz J, Kapse K, Barnett SD, Murnick J, Basu S, Andersen N, Norman S, Andescavage N, and Limperopoulos C

Subjects
Bayes Theorem, Cerebral Hemorrhage complications, Cerebral Hemorrhage diagnostic imaging, Cerebral Ventricles diagnostic imaging, Humans, Infant, Infant, Newborn, Hydrocephalus complications, Hydrocephalus etiology, Infant, Premature
Abstract

Post-hemorrhagic hydrocephalus (PHH) is a severe complication of intraventricular hemorrhage (IVH) in very preterm infants. PHH monitoring and treatment decisions rely heavily on manual and subjective two-dimensional measurements of the ventricles. Automatic and reliable three-dimensional (3D) measurements of the ventricles may provide a more accurate assessment of PHH, and lead to improved monitoring and treatment decisions. To accurately and efficiently obtain these 3D measurements, automatic segmentation of the ventricles can be explored. However, this segmentation is challenging due to the large ventricular anatomical shape variability in preterm infants diagnosed with PHH. This study aims to (a) propose a Bayesian U-Net method using 3D spatial concrete dropout for automatic brain segmentation (with uncertainty assessment) of preterm infants with PHH; and (b) compare the Bayesian method to three reference methods: DenseNet, U-Net, and ensemble learning using DenseNets and U-Nets. A total of 41 T 2 -weighted MRIs from 27 preterm infants were manually segmented into lateral ventricles, external CSF, white and cortical gray matter, brainstem, and cerebellum. These segmentations were used as ground truth for model evaluation. All methods were trained and evaluated using 4-fold cross-validation and segmentation endpoints, with additional uncertainty endpoints for the Bayesian method. In the lateral ventricles, segmentation endpoint values for the DenseNet, U-Net, ensemble learning, and Bayesian U-Net methods were mean Dice score = 0.814 ± 0.213, 0.944 ± 0.041, 0.942 ± 0.042, and 0.948 ± 0.034 respectively. Uncertainty endpoint values for the Bayesian U-Net were mean recall = 0.953 ± 0.037, mean  negative predictive value = 0.998 ± 0.005, mean accuracy = 0.906 ± 0.032, and mean AUC = 0.949 ± 0.031. To conclude, the Bayesian U-Net showed the best segmentation results across all methods and provided accurate uncertainty maps. This method may be used in clinical practice for automatic brain segmentation of preterm infants with PHH, and lead to better PHH monitoring and more informed treatment decisions., (© 2022 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2022
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30. Predictors of Neurological Outcome Following Infant Cardiac Surgery Without Deep Hypothermic Circulatory Arrest.

Author

Kosiorek A, Donofrio MT, Zurakowski D, Reitz JG, Tague L, Murnick J, Axt-Fliedner R, Limperopoulos C, Yerebakan C, and Carpenter JL

Subjects
Circulatory Arrest, Deep Hypothermia Induced adverse effects, Humans, Infant, Risk Factors, Seizures etiology, Cardiac Surgical Procedures adverse effects, Heart Defects, Congenital surgery
Abstract

The aim of this study is to describe the clinical characteristics, perioperative course and neuroimaging abnormalities of infants with congenital heart disease (CHD) undergoing heart surgery without deep hypothermic circulatory arrest (DHCA) and identify variables associated with neurological outcome. Infants with CHD undergoing open-heart surgery without DHCA between 2009 and 2017 were identified from a cardiac surgery database. Full-term infants < 10 weeks of age at the time of surgery who had both a pre- and postoperative brain magnetic resonance imaging exam (MRI) were included. Clinical characteristics and perioperative variables were collected from the electronic medical record. Brain Injury Scores (BIS) were assigned to pre- and postoperative brain MRIs. Variables were examined for association with neurological outcome at 12 months of age or greater. Forty-two infants were enrolled in the study, of whom 69% (n = 29) had a neurological assessment ≥ to 12 months of age. Adverse neurological outcome was associated with longer intensive care unit (ICU) stay (P = 0.003), lengthier mechanical ventilation (P = 0.031), modified Blalock-Taussig (MBT) shunt procedure (P = 0.005) and postoperative seizures (P = 0.005). Total BIS scores did not predict outcome but postoperative infarction and/or intraparenchymal hemorrhage (IPH) was associated with worse outcome by multivariable analysis (P = 0.018). Infants with CHD undergoing open-heart surgery without DHCA are at increased risk of worse neurological outcome when their ICU stay is prolonged, mechanical ventilation is extended, MBT shunt is performed or when postoperative seizures are present. Cerebral infarctions and IPH on postoperative MRI are also associated with worse outcome., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2022
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31. Proceedings of the 13th International Newborn Brain Conference: Fetal and/or neonatal brain development, both normal and abnormal.

Author

Abdi K, Abramsky R, Andescavage N, Bambi J, Basu S, Bearer C, Benner EJ, Biselele T, Bliznyuk N, Breckpot J, Carey G, Chao A, Christiansen LI, Comani S, Croce P, De Vos M, Dereymaeker A, Dubois L, Eisch AJ, Epstein A, Geva N, Geva Y, Gewillig M, Gillis S, Goldberg RN, Gram M, Gregory S, Guez-Barber D, Hayakawa M, Henriksen NL, Hermans T, Hershkovitz R, Holgersen K, Holmqvist B, Jain V, Jansen K, Kandula V, Kapse K, Kawaguchi M, Khair A, Khazaei M, Kidokoro H, Kiffer FC, Kisilewicz K, Kumai S, Lacaille H, Ley D, Limperopoulos C, Lindholm SEH, Lukusa P, Lundberg R, MacFarlane P, Matak P, Mavinga L, Mayer C, Mbayabo G, Mitsumatsu T, Mubungu G, Murnick J, Nakata T, Narita H, Nataraj P, Natsume J, Naulaers G, Nikam R, Ortenlöf N, Ottolini K, Pan X, Pankratova S, Pegram K, Penn AA, Pradhan S, Raeisi K, Rickman N, Rikard B, Rotem R, Sangild PT, Sato Y, Sawamura F, Shany E, Shelef I, Shiraki A, Smets L, Sura L, Suzui R, Suzuki T, Tady BP, Taga G, Tamburro G, Thewissen L, Thompson JW, Thymann T, Tokat C, Vacher CM, Valdes C, Vallius S, Vatolin S, Watanabe H, Weintraub AY, Weiss M, Yamamoto H, Yaniv SS, Younge N, Yun S, and Zappasodi F

Subjects
Female, Head, Humans, Infant, Newborn, Pregnancy, Prenatal Care, Brain, Fetus
Published
2022
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32. Regional Differences in Gamma-Aminobutyric Acid and Glutamate Concentrations in the Healthy Newborn Brain.

Author

Basu SK, Pradhan S, Barnett SD, Mikkelsen M, Kapse KJ, Murnick J, Quistorff JL, Lopez CA, du Plessis AJ, and Limperopoulos C

Subjects
Aspartic Acid metabolism, Brain diagnostic imaging, Brain metabolism, Cross-Sectional Studies, Humans, Infant, Infant, Newborn, Magnetic Resonance Spectroscopy methods, Glutamic Acid metabolism, gamma-Aminobutyric Acid metabolism
Abstract

Background and Purpose: Gamma-aminobutyric acid and glutamate system disruptions may underlie neonatal brain injury. However, in vivo investigations are challenged by the need for special 1 H-MR spectroscopy sequences for the reliable measurement of the neurotransmitters in this population. We used J -edited 1 H-MR spectroscopy (Mescher-Garwood point-resolved spectroscopy) to quantify regional in vivo gamma-aminobutyric acid and glutamate concentrations during the early postnatal period in healthy neonates., Materials and Methods: We prospectively enrolled healthy neonates and acquired Mescher-Garwood point-resolved spectroscopy spectra on a 3T MR imaging scanner from voxels located in the cerebellum, the right basal ganglia, and the right frontal lobe. CSF-corrected metabolite concentrations were compared for regional variations and cross-sectional temporal trends with advancing age., Results: Fifty-eight neonates with acceptable spectra acquired at postmenstrual age of 39.1 (SD, 1.3) weeks were included for analysis. Gamma-aminobutyric acid (+ macromolecule) (2.56 [SD, 0.1]) i.u., glutamate (3.80 [SD, 0.2]), Cho, and mIns concentrations were highest in the cerebellum, whereas NAA (6.72 [SD, 0.2]), NAA/Cho, Cr/Cho, and Glx/Cho were highest in the basal ganglia. Frontal gamma-aminobutyric acid (1.63 [SD, 0.1]), Glx (4.33 [SD, 0.3]), Cr (3.64 [SD, 0.2]), and Cho concentrations were the lowest among the ROIs. Glx, NAA, and Cr demonstrated a significant adjusted increase with postmenstrual age (β = 0.2-0.35), whereas gamma-aminobutyric acid and Cho did not., Conclusions: We report normative regional variations and temporal trends of in vivo gamma-aminobutyric acid and glutamate concentrations reflecting the functional and maturational status of 3 distinct brain regions of the neonate. These measures will serve as important normative values to allow early detection of subtle neurometabolic alterations in high-risk neonates., (© 2022 by American Journal of Neuroradiology.)

Published
2022
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33. Image Quality Assessment of Fetal Brain MRI Using Multi-Instance Deep Learning Methods.

Author

Largent A, Kapse K, Barnett SD, De Asis-Cruz J, Whitehead M, Murnick J, Zhao L, Andersen N, Quistorff J, Lopez C, and Limperopoulos C

Subjects
Brain diagnostic imaging, Fetus diagnostic imaging, Humans, Magnetic Resonance Imaging, Retrospective Studies, Deep Learning
Abstract

Background: Due to random motion of fetuses and maternal respirations, image quality of fetal brain MRIs varies considerably. To address this issue, visual inspection of the images is performed during acquisition phase and after 3D-reconstruction, and the images are re-acquired if they are deemed to be of insufficient quality. However, this process is time-consuming and subjective. Multi-instance (MI) deep learning methods (DLMs) may perform this task automatically., Purpose: To propose an MI count-based DLM (MI-CB-DLM), an MI vote-based DLM (MI-VB-DLM), and an MI feature-embedding DLM (MI-FE-DLM) for automatic assessment of 3D fetal-brain MR image quality. To quantify influence of fetal gestational age (GA) on DLM performance., Study Type: Retrospective., Subjects: Two hundred and seventy-one MR exams from 211 fetuses (mean GA ± SD = 30.9 ± 5.5 weeks)., Field Strength/sequence: T 2 -weighted single-shot fast spin-echo acquired at 1.5 T., Assessment: The T 2 -weighted images were reconstructed in 3D. Then, two fetal neuroradiologists, a clinical neuroscientist, and a fetal MRI technician independently labeled the reconstructed images as 1 or 0 based on image quality (1 = high; 0 = low). These labels were fused and served as ground truth. The proposed DLMs were trained and evaluated using three repeated 10-fold cross-validations (training and validation sets of 244 and 27 scans). To quantify GA influence, this variable was included as an input of the DLMs., Statistical Tests: DLM performance was evaluated using precision, recall, F-score, accuracy, and AUC values., Results: Precision, recall, F-score, accuracy, and AUC averaged over the three cross validations were 0.85 ± 0.01, 0.85 ± 0.01, 0.85 ± 0.01, 0.85 ± 0.01, 0.93 ± 0.01, for MI-CB-DLM (without GA); 0.75 ± 0.03, 0.75 ± 0.03, 0.75 ± 0.03, 0.75 ± 0.03, 0.81 ± 0.03, for MI-VB-DLM (without GA); 0.81 ± 0.01, 0.81 ± 0.01, 0.81 ± 0.01, 0.81 ± 0.01, 0.89 ± 0.01, for MI-FE-DLM (without GA); and 0.86 ± 0.01, 0.86 ± 0.01, 0.86 ± 0.01, 0.86 ± 0.01, 0.93 ± 0.01, for MI-CB-DLM with GA., Data Conclusion: MI-CB-DLM performed better than other DLMs. Including GA as an input of MI-CB-DLM improved its performance. MI-CB-DLM may potentially be used to objectively and rapidly assess fetal MR image quality., Evidence Level: 4 TECHNICAL EFFICACY: Stage 3., (© 2021 International Society for Magnetic Resonance in Medicine.)

Published
2021
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34. Longitudinal Trajectories of Regional Cerebral Blood Flow in Very Preterm Infants during Third Trimester Ex Utero Development Assessed with MRI.

Author

Zun Z, Kapse K, Jacobs M, Basu S, Said M, Andersen N, Murnick J, Chang T, du Plessis A, and Limperopoulos C

Subjects
Female, Gestational Age, Humans, Infant, Newborn, Male, Pregnancy, Pregnancy Trimester, Third, Prospective Studies, Spin Labels, Cerebral Hemorrhage diagnostic imaging, Cerebrovascular Circulation physiology, Ductus Arteriosus, Patent diagnostic imaging, Infant, Premature, Magnetic Resonance Imaging methods
Abstract

Background The third trimester of gestation is a crucial phase of rapid brain development, but little has been reported on the trajectories of cerebral blood flow (CBF) in preterm infants in this period. Purpose To quantify regional CBF in very preterm infants longitudinally across the ex utero third trimester and to determine its relationship with clinical factors associated with brain injury and premature birth. Materials and Methods In this prospective study, very preterm infants were enrolled for three longitudinal MRI scans, and 22 healthy full-term infants were enrolled for one term MRI scan between November 2016 and February 2019. Global and regional CBF in the cortical gray matter, white matter, deep gray matter, and cerebellum were measured using arterial spin labeling with postlabeling delay of 2025 msec at 1.5 T and 3.0 T. Brain injury and clinical risk factors in preterm infants were investigated to determine associations with CBF. Generalized estimating equations were used to account for correlations between repeated measures in the same individual. Results A total of 75 preterm infants (mean postmenstrual age [PMA]: 29.5 weeks ± 2.3 [standard deviation], 34.9 weeks ± 0.8, and 39.3 weeks ± 2.0 for each scan; 43 male infants) and 22 full-term infants (mean PMA, 42.1 weeks ± 2.0; 13 male infants) were evaluated. In preterm infants, global CBF was 11.9 mL/100 g/min ± 0.2 (standard error). All regional CBF increased significantly with advancing PMA ( P ≤ .02); the cerebellum demonstrated the most rapid CBF increase and the highest mean CBF. Lower CBF was associated with intraventricular hemorrhage in all regions ( P ≤ .05) and with medically managed patent ductus arteriosus in the white matter and deep gray matter ( P = .03). Mean CBF of preterm infants at term-equivalent age was significantly higher compared with full-term infants ( P ≤ .02). Conclusion Regional cerebral blood flow increased significantly in preterm infants developing in an extrauterine environment across the third trimester and was associated with intraventricular hemorrhage and patent ductus arteriosus. © RSNA, 2021 Online supplemental material is available for this article .

Published
2021
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35. Craniosynostosis Develops in Half of Infants Treated for Hydrocephalus with a Ventriculoperitoneal Shunt.

Author

Bryant JR, Mantilla-Rivas E, Keating RF, Rana MS, Manrique M, Oh AK, Magge SN, Murnick J, Oluigbo CO, Myseros JS, and Rogers GF

Subjects
Child, Preschool, Female, Humans, Infant, Male, Retrospective Studies, Risk Factors, Craniosynostoses etiology, Hydrocephalus surgery, Ventriculoperitoneal Shunt adverse effects, Ventriculoperitoneal Shunt methods
Abstract

Background: Craniosynostosis following placement of a ventriculoperitoneal shunt for hydrocephalus has been sporadically described. The purpose of this investigation was to determine the general risk of developing craniosynostosis in this patient population., Methods: The authors retrospectively reviewed records and radiographs of infants who underwent ventriculoperitoneal shunt placement for hydrocephalus from 2006 to 2012. Recorded variables included date of shunt placement, demographics, comorbidities, cause of hydrocephalus, shunt type, and number of shunt revisions. Axial computed tomographic images obtained before and immediately after shunt placement and 2 to 4 years after shunt placement were evaluated by a panel of clinicians for evidence of craniosynostosis. Patients with preshunt craniosynostosis, craniosynostosis syndromes, or poor-quality computed tomographic images were excluded. Data were analyzed using STATA Version 15.1 statistical software., Results: One hundred twenty-five patients (69 male and 56 female patients) were included. Average age at shunt placement was 2.3 ± 2.58 months. Sixty-one patients (48.8 percent) developed craniosynostosis at a median of 26 months after shunt placement. Of these, 28 patients fused one suture; the majority involved the sagittal suture (n = 25). Thirty-three patients fused multiple sutures; the most common were the coronal (n = 32) and the sagittal (n = 30) sutures. Multivariable logistic regression identified older age at shunt placement and more shunt revisions as independent predictors of craniosynostosis. Shunt valve type was not significant., Conclusions: Craniosynostosis developed in nearly half of infants who underwent ventriculoperitoneal shunt placement for hydrocephalus. The sagittal suture was most commonly involved. The effect of suture fusion on subsequent cranial growth, shunt failure, or the development of intracranial pressure is unclear., Clinical Quesiton/level of Evidence: Risk, III., (Copyright © 2021 by the American Society of Plastic Surgeons.)

Published
2021
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36. Determinants of neurological outcome in neonates with congenital heart disease following heart surgery.

Author

Kuhn VA, Carpenter JL, Zurakowski D, Reitz JG, Tague L, Donofrio MT, Murnick J, Axt-Fliedner R, Limperopoulos C, and Yerebakan C

Subjects
Brain physiopathology, Cardiopulmonary Bypass, Female, Humans, Infant, Infant, Newborn, Magnetic Resonance Imaging, Male, Multivariate Analysis, Retrospective Studies, Risk Factors, Stroke physiopathology, Treatment Outcome, Cardiac Surgical Procedures methods, Heart Defects, Congenital complications, Heart Defects, Congenital physiopathology, Hypoplastic Left Heart Syndrome complications, Hypoplastic Left Heart Syndrome physiopathology, Transposition of Great Vessels complications, Transposition of Great Vessels physiopathology
Abstract

Background: The objective was to determine the association between perioperative risk factors and brain imaging abnormalities on neurologic outcome in neonates with hypoplastic left heart syndrome (HLHS) or d-Transposition of the great arteries (d-TGA) who underwent cardiac surgery including cardiopulmonary bypass., Methods: A retrospective analysis of neonates with HLHS or d-TGA undergoing cardiac surgery including cardiopulmonary bypass between 2009 and 2017 was performed. Perioperative risk factors and Andropoulos' Brain Injury Scores from pre- and postoperative brain magnetic resonant images (MRI) were correlated to outcome assessments on patients between 5 and 23 months of age. Neurologic outcome was measured using the Pediatric Stroke Outcome Measure (PSOM) and Pediatric Version of the Glasgow Outcome Scale-Extended (GOS-E)., Results: Fifty-three neonates met our enrollment criteria (24 HLHS, 29 d-TGA). Mechanical ventilation > 12 days and DHCA > 40 min were associated with worse outcome. MRI measures of brain injuries were not associated with worse outcome by PSOM or GOS-E., Conclusion: For HLHS and d-TGA patients, duration of mechanical ventilation and DHCA are associated with adverse neurologic outcome. Neonatal brain MRI commonly demonstrates acquired brain injuries, but the clinical impact of these abnormalities are not often seen before 2 years of age., Impact: Acquired brain injury is common in high-risk neonates with CHD but poor neurological outcome was not predicted by severity of injury or lesion subtype. Longer stay in ICU is associated with postoperative brain injuries on MRI. Total duration of ventilation > 12 days is predictive of adverse neurological outcome scores. DHCA > 40 min is associated with adverse neurological outcome scores. Neurological outcome before 2 years of age is more affected by the clinical course than by cardiac diagnosis.

Published
2021
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37. Early Lipid Intake Improves Cerebellar Growth in Very Low-Birth-Weight Preterm Infants.

Author

Ottolini KM, Andescavage N, Kapse K, Jacobs M, Murnick J, VanderVeer R, Basu S, Said M, and Limperopoulos C

Subjects
Female, Humans, Infant, Infant, Newborn, Infant, Very Low Birth Weight, Intensive Care Units, Neonatal, Lipids, Pregnancy, Infant, Premature, Premature Birth
Abstract

Background: Despite recent advances in nutrition practice in the neonatal intensive care unit, infants remain at high risk for growth restriction following preterm birth. Additionally, optimal values for macronutrient administration, especially lipid intake, have yet to be established for preterm infants in the extrauterine environment., Methods: We studied preterm infants born at very low-birth weight (VLBW, <1500 g) and ≤32 weeks' gestation. Cumulative macronutrient (carbohydrate, lipid, protein, energy) intake in the first 2 and 4 weeks of life was compared with total and regional brain volumes on magnetic resonance imaging (MRI) obtained at term-equivalent age. Preterm infants had no structural brain injury on conventional MRI., Results: In a cohort of 67 VLBW infants, cumulative lipid intake in the first 2 weeks of life was positively associated with significantly greater cerebellar volume (β = 95.8; P = .01) after adjusting for weight gain, gestational age at birth, and postmenstrual age at MRI. Cumulative lipid (β = 36.1, P = .01) and energy (β = 3.1; P = .02) intake in the first 4 weeks of life were both significantly associated with greater cerebellar volume. No relationship was seen between carbohydrate or protein intake in the first month of life and cerebral volume at term-equivalent age., Conclusion: Early cumulative lipid intake in the first month of life is associated with significantly greater cerebellar volume by term-equivalent age in very premature infants. Our findings emphasize the importance of early, aggressive nutrition interventions to optimize cerebellar development in VLBW infants., (© 2020 American Society for Parenteral and Enteral Nutrition.)

Published
2021
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38. Functional brain connectivity in ex utero premature infants compared to in utero fetuses.

Author

De Asis-Cruz J, Kapse K, Basu SK, Said M, Scheinost D, Murnick J, Chang T, du Plessis A, and Limperopoulos C

Subjects
Brain Mapping, Female, Gestational Age, Humans, Infant, Newborn, Infant, Premature, Male, Brain diagnostic imaging, Default Mode Network diagnostic imaging, Fetus diagnostic imaging, Magnetic Resonance Imaging, Nerve Net diagnostic imaging
Abstract

Brain structural changes in premature infants appear before term age. Functional differences between premature infants and healthy fetuses during this period have yet to be explored. Here, we examined brain connectivity using resting state functional MRI in 25 very premature infants (VPT; gestational age at birth <32 weeks) and 25 healthy fetuses with structurally normal brain MRIs. Resting state data were evaluated using seed-based correlation analysis and network-based statistics using 23 regions of interest (ROIs) per hemisphere. Functional connectivity strength, the Pearson correlation between blood oxygenation level dependent signals over time across all ROIs, was compared between groups. In both cohorts, connectivity between homotopic ROIs showed a decreasing medial to lateral gradient. The cingulate cortex, medial temporal lobe and the basal ganglia shared the strongest connections. In premature infants, connections involving superior temporal, hippocampal, and occipital areas, among others, were stronger compared to fetuses. Premature infants showed stronger connectivity in sensory input and stress-related areas suggesting that extra-uterine environment exposure alters the development of select neural networks in the absence of structural brain injury., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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39. Age and Sex Influences Gamma-aminobutyric Acid Concentrations in the Developing Brain of Very Premature Infants.

Author

Basu SK, Pradhan S, Jacobs MB, Said M, Kapse K, Murnick J, Whitehead MT, Chang T, du Plessis AJ, and Limperopoulos C

Subjects
Age Factors, Female, Gestational Age, Glutamic Acid metabolism, Glutamine metabolism, Humans, Infant, Newborn, Infant, Very Low Birth Weight, Magnetic Resonance Spectroscopy, Male, Sex Factors, Brain metabolism, Infant, Premature metabolism, gamma-Aminobutyric Acid metabolism
Abstract

Gamma-aminobutyric acid (GABA) and glutamate are principal neurotransmitters essential for late gestational brain development and may play an important role in prematurity-related brain injury. In vivo investigation of GABA in the preterm infant with standard proton magnetic resonance spectroscopy ( 1 H-MRS) has been limited due to its low concentrations in the developing brain, and overlap in the spectrum by other dominant metabolites. We describe early postnatal profiles of in vivo GABA and glutamate concentrations in the developing preterm brain measured by using the J-difference editing technique, Mescher-Garwood point resolved spectroscopy. We prospectively enrolled very preterm infants born ≤32 weeks gestational age and non-sedated 1 H-MRS (echo time 68 ms, relaxation time 2000 ms, 256 signal averages) was acquired on a 3 Tesla magnetic resonance imaging scanner from a right frontal lobe voxel. Concentrations of GABA + (with macromolecules) was measured from the J-difference spectra; whereas glutamate and composite glutamate + glutamine (Glx) were measured from the unedited (OFF) spectra and reported in institutional units. We acquired 42 reliable spectra from 38 preterm infants without structural brain injury [median gestational age at birth of 28.0 (IQR 26.0, 28.9) weeks; 19 males (50%)] at a median postmenstrual age of 38.4 (range 33.4 to 46.4) weeks. With advancing post-menstrual age, the concentrations of glutamate OFF increased significantly, adjusted for co-variates (generalized estimating equation β = 0.22, p = 0.02). Advancing postnatal weeks of life at the time of imaging positively correlated with GABA + (β = 0.06, p = 0.02), glutamate OFF (β = 0.11, p = 0.02) and Glx OFF (β = 0.12, p = 0.04). Male infants had higher GABA + (1.66 ± 0.07 vs. 1.33 ± 0.11, p = 0.01) concentrations compared with female infants. For the first time, we report the early ex-utero developmental profile of in vivo GABA and glutamate stratified by age and sex in the developing brain of very preterm infants. This data may provide novel insights into the pathophysiology of neurodevelopmental disabilities reported in preterm infants even in the absence of structural brain injury.

Published
2020
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40. Altered local cerebellar and brainstem development in preterm infants.

Author

Wu Y, Stoodley C, Brossard-Racine M, Kapse K, Vezina G, Murnick J, du Plessis AJ, and Limperopoulos C

Subjects
Female, Fetus, Gestational Age, Humans, Infant, Newborn, Magnetic Resonance Imaging methods, Male, Pregnancy, Brain Stem growth & development, Cerebellum growth & development, Infant, Premature growth & development
Abstract

Background: Premature birth is associated with high prevalence of neurodevelopmental impairments in surviving infants. The putative role of cerebellar and brainstem dysfunction remains poorly understood, particularly in the absence of overt structural injury., Method: We compared in-utero versus ex-utero global, regional and local cerebellar and brainstem development in healthy fetuses (n ​= ​38) and prematurely born infants without evidence of structural brain injury on conventional MRI studies (n ​= ​74) that were performed at two time points: the first corresponding to the third trimester, either in utero or ex utero in the early postnatal period following preterm birth (30-40 weeks of gestation; 38 control fetuses; 52 premature infants) and the second at term equivalent age (37-46 weeks; 38 control infants; 58 premature infants). We compared 1) volumetric growth of 7 regions in the cerebellum (left and right hemispheres, left and right dentate nuclei, and the anterior, neo, and posterior vermis); 2) volumetric growth of 3 brainstem regions (midbrain, pons, and medulla); and 3) shape development in the cerebellum and brainstem using spherical harmonic description between the two groups., Results: Both premature and control groups showed regional cerebellar differences in growth rates, with the left and right cerebellar hemispheres showing faster growth compared to the vermis. In the brainstem, the pons grew faster than the midbrain and medulla in both prematurely born infants and controls. Using shape analyses, premature infants had smaller left and right cerebellar hemispheres but larger regional vermis and paravermis compared to in-utero control fetuses. For the brainstem, premature infants showed impaired growth of the superior surface of the midbrain, anterior surface of the pons, and inferior aspects of the medulla compared to the control fetuses. At term-equivalent age, premature infants had smaller cerebellar hemispheres bilaterally, extending to the superior aspect of the left cerebellar hemisphere, and larger anterior vermis and posteroinferior cerebellar lobes than healthy newborns. For the brainstem, large differences between premature infants and healthy newborns were found in the anterior surface of the pons., Conclusion: This study analyzed both volumetric growth and shape development of the cerebellum and brainstem in premature infants compared to healthy fetuses using longitudinal MRI measurements. The findings in the present study suggested that preterm birth may alter global, regional and local development of the cerebellum and brainstem even in the absence of structural brain injury evident on conventional MRI., Competing Interests: Declaration of competing interest All authors declare no competing financial interests., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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41. Cerebral venous volume changes and pressure autoregulation in critically ill infants.

Author

Govindan V, Govindan R, Massaro AN, Al-Shargabi T, Andescavage NN, Vezina G, Murnick J, Wang Y, Metzler M, Cristante C, Swisher C, Reich D, and Plessis AD

Subjects
Blood Pressure, Cerebrovascular Circulation, Homeostasis, Humans, Infant, Infant, Newborn, Prospective Studies, Critical Illness, Infant, Premature
Abstract

Objective: To determine whether ventilator-related fluctuations in cerebral blood volume (CBV) are associated with cerebral pressure passivity., Study Design: In a prospective study of newborns undergoing positive-pressure ventilation, we calculated coherence between continuous mean arterial pressure (MAP) and cerebral near-infrared spectroscopy hemoglobin difference (HbD). Significant HbD-MAP coherence indicated cerebral pressure passivity. CBV changes were measured as the spectral power of total hemoglobin (S HbT ) at the ventilator frequency. A regression model tested whether S HbT predicts cerebral pressure passivity and/or death/brain injury, controlling for birth gestational age and other factors., Results: We studied 68 subjects with prematurity (n = 19), congenital heart disease (n = 11), and hypoxic-ischemic encephalopathy (n = 38). S HbT , sedative use, and pCO 2 were positively associated, and circulating hemoglobin negatively associated, with cerebral pressure passivity (p < 0.001), which was positively associated with brain injury (p < 0.001)., Conclusion: In sick newborns, ventilator-related CBV fluctuations may predispose to cerebral pressure passivity, which may predispose to an adverse neonatal outcome.

Published
2020
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42. Acute Pontine Ischemic Stroke in a Healthy Child With Intracranial Vasculopathy.

Author

Kousa YA, Murnick J, Burton J, DiSabella M, and Pergami P

Subjects
Child, Diagnosis, Differential, Humans, Male, Pons diagnostic imaging, Cerebrovascular Disorders diagnosis, Cerebrovascular Disorders therapy
Abstract

Here we report the case of a previously healthy 8-year-old boy who presented with altered mental status, right facial droop and right-sided hemiplegia the day after playing in an inflatable bouncer. No head trauma was reported by the patient nor witnessed by the parents. Urgent magnetic resonance imaging (MRI) demonstrated acute ischemic infarction in the left pons; computed tomographic angiography excluded arterial dissection but identified a small hyperdense filling defect in the basilar artery, later confirmed to be a calcification at the origin of a perforating artery. Pediatric National Institutes of Health (PedNIH) Stroke Scale score was 15. Infectious, inflammatory, hypercoagulable and additional vascular causes were excluded. Although the cause of the calcification remains obscure, we speculate that, similarly to mineralizing microangiopathy, a minor trauma led to stroke in this child. To our knowledge, mineralizing microangiopathy, the well-described entity affecting perforating arteries of the anterior circulation in young children leading to basal ganglia stroke following minor head traumas has not been described in the posterior circulation or in previously healthy school-age children.

Published
2019
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43. Altered Functional Brain Network Integration, Segregation, and Modularity in Infants Born Very Preterm at Term-Equivalent Age.

Author

Bouyssi-Kobar M, De Asis-Cruz J, Murnick J, Chang T, and Limperopoulos C

Subjects
Brain diagnostic imaging, Case-Control Studies, Cross-Sectional Studies, Female, Humans, Infant, Extremely Premature, Infant, Newborn, Infant, Premature, Diseases pathology, Magnetic Resonance Imaging, Male, Nerve Net diagnostic imaging, Prospective Studies, Brain growth & development, Infant, Premature, Diseases diagnostic imaging, Nerve Net growth & development
Abstract

Objectives: To determine the functional network organization of the brain in infants born very preterm at term-equivalent age and to relate network alterations to known clinical risk factors for poor neurologic outcomes in prematurity., Study Design: Resting-state functional magnetic resonance imaging data from 66 infants born very preterm (gestational age <32 weeks and birth weight <1500 g) and 66 healthy neonates born at full term, acquired as part of a prospective, cross-sectional study, were compared at term age using graph theory. Features of resting-state networks, including integration, segregation, and modularity, were derived from correlated hemodynamic activity arising from 93 cortical and subcortical regions of interest and compared between groups., Results: Despite preserved small-world topology and modular organization, resting-state networks of infants born very preterm at term-equivalent age were less segregated and less integrated than those of infants born full term. Chronic respiratory illness (ie, bronchopulmonary dysplasia and the length of oxygen support) was associated with decreased global efficiency and increased path lengths (P < .05). In both cohorts, 4 functional modules with similar composition were observed (parietal/temporal, frontal, subcortical/limbic, and occipital). The density of connections in 3 of the 4 modules was decreased in the very preterm network (P < .01); however, in the occipital/visual cortex module, connectivity was increased in infants born very preterm relative to control infants (P < .0001)., Conclusions: Early exposure to the ex utero environment is associated with altered resting-state network functional organization in infants born very preterm at term-equivalent age, likely reflecting disrupted brain maturational processes., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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44. Placental Pathology and Neuroimaging Correlates in Neonates with Congenital Heart Disease.

Author

Schlatterer SD, Murnick J, Jacobs M, White L, Donofrio MT, and Limperopoulos C

Subjects
Adult, Brain diagnostic imaging, Brain Injuries diagnostic imaging, Female, Heart Defects, Congenital diagnostic imaging, Humans, Infant, Newborn, Infant, Newborn, Diseases diagnostic imaging, Magnetic Resonance Imaging, Male, Placenta pathology, Placenta Diseases pathology, Pregnancy, Brain Injuries epidemiology, Heart Defects, Congenital epidemiology, Infant, Newborn, Diseases epidemiology, Placenta Diseases epidemiology
Abstract

Congenital heart disease (CHD) is an independent risk factor for brain injury, including stroke, and poor neurodevelopmental outcomes, and placental abnormalities may represent an additional risk factor for brain injury in neonates. The incidence and scope of placental pathology and relationship to fetal brain abnormalities in pregnancies complicated by fetal CHD has not been explored to our knowledge. In order to determine the prevalence of placental pathology findings and whether placental findings are associated with postnatal brain injury in pregnancies complicated by fetal CHD, we reviewed placental pathology reports for 51 pregnancies complicated by CHD and scored available postnatal, pre-operative brain MRI for brain pathology. Overall, 57% of CHD infants had abnormal placental pathology. Pregnancies complicated by CHD with aortic obstruction (AO) were significantly more likely than those with no obstruction to have abnormal placental pathology (79% vs. 44%). There was a trend toward more severe brain lesions amongst patients with brain lesions and placental abnormality (55% moderate/severe) compared to those without placental abnormality (11% moderate/severe). These data suggest that placental abnormalities are common in CHD and may have a compounding effect on brain lesions in this high-risk population.

Published
2019
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45. Third Trimester Cerebellar Metabolite Concentrations are Decreased in Very Premature Infants with Structural Brain Injury.

Author

Basu SK, Pradhan S, Kapse K, McCarter R, Murnick J, Chang T, and Limperopoulos C

Subjects
Aspartic Acid analogs & derivatives, Aspartic Acid analysis, Brain metabolism, Brain Injuries pathology, Choline analysis, Creatine analysis, Female, Gestational Age, Gray Matter metabolism, Humans, Infant, Infant, Newborn, Infant, Premature metabolism, Infant, Premature, Diseases metabolism, Male, Pregnancy, Pregnancy Trimester, Third metabolism, Premature Birth metabolism, Proton Magnetic Resonance Spectroscopy methods, Brain Injuries metabolism, Cerebellum metabolism, Infant, Extremely Premature metabolism
Abstract

Advanced neuroimaging techniques have improved our understanding of microstructural changes in the preterm supratentorial brain as well as the cerebellum and its association with impaired neurodevelopmental outcomes. However, the metabolic interrogation of the developing cerebellum during the early postnatal period after preterm birth remains largely unknown. Our study investigates the relationship between cerebellar neurometabolites measured by proton magnetic spectroscopy ( 1 H-MRS) in preterm infants with advancing post-menstrual age (PMA) and brain injury during ex-utero third trimester prior to term equivalent age (TEA). We prospectively enrolled and acquired high quality 1 H-MRS at median 33.0 (IQR 31.6-35.2) weeks PMA from a voxel placed in the cerebellum of 53 premature infants born at a median gestational age of 27.0 (IQR 25.0-29.0) weeks. 1 H-MRS data were processed using LCModel software to calculate absolute metabolite concentrations of N-acetylaspartate (NAA), choline (Cho) and creatine (Cr). We noted positive correlations of cerebellar concentrations of NAA, Cho and Cr (Spearman correlations of 0.59, 0.64 and 0.52, respectively, p value < 0.0001) and negative correlation of Cho/Cr ratio (R -0.5, p value 0.0002) with advancing PMA. Moderate-to-severe cerebellar injury was noted on conventional magnetic resonance imaging (MRI) in 14 (26.4%) of the infants and were noted to have lower cerebellar NAA, Cho and Cr concentrations compared with those without injury (p value < 0.001). Several clinical complications of prematurity including necrotizing enterocolitis, systemic infections and bronchopulmonary dysplasia were associated with altered metabolite concentrations in the developing cerebellum. We report for the first time that ex-utero third trimester cerebellar metabolite concentrations are decreased in very preterm infants with moderate-to-severe structural cerebellar injury. We report increasing temporal trends of metabolite concentrations in the cerebellum with advancing PMA, which was impaired in infants with brain injury on MRI and may have early diagnostic and prognostic value in predicting neurodevelopmental outcomes in very preterm infants.

Published
2019
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46. Early extra-uterine exposure alters regional cerebellar growth in infants born preterm.

Author

Brossard-Racine M, McCarter R, Murnick J, Tinkleman L, Vezina G, and Limperopoulos C

Subjects
Female, Humans, Infant, Newborn, Longitudinal Studies, Male, Pregnancy, Prenatal Exposure Delayed Effects diagnostic imaging, Prospective Studies, Cerebellum diagnostic imaging, Cerebellum growth & development, Imaging, Three-Dimensional methods, Infant, Premature growth & development, Magnetic Resonance Imaging methods, Prenatal Diagnosis methods
Abstract

Objectives: To compare third trimester global and regional cerebellar volumetric growth at two time-points between very preterm (PT) infants and healthy gestational age-matched fetuses in the PT period and at term equivalent age (TEA)., Study Design: Using a prospective study design, high resolution anatomic magnetic resonance images (MRI) were acquired in PT infants (gestational age at birth < 32 weeks; birthweight < 1500 g) without cerebellar injury and healthy full-term controls. PT infants completed two MRIs, one as soon as medically stable and the other around TEA. Controls also completed two MRIs, one in utero (i.e. fetal MRI) and a postnatal MRI shortly after birth. The cerebellum of each participant was parcellated into 5 regions: left and right hemispheres, the anterior, neo and posterior vermis. Evidence of differences in regional volumes between term and pre-term infants matched for gestational age (GA) at the time of the first MRI were assessed using multiple linear regression., Results: WE STUDIED 76 SUBJECTS: 38 PT infants were matched to 38 healthy fetuses. At MRI-1, PT infants demonstrated decreased cerebellar hemispheric volumes and increased anterior, neo- and posterior vermian regional volumes when compared to healthy fetuses. At TEA, PT infants demonstrated a persistent increase in anterior, neo- and posterior vermian regional volumes but no longer showed reductions in cerebellar hemispheric volume. Only the neovermis volume demonstrated a significant negative association with birthweight, male gender and supratentorial injury., Conclusions: In the absence of demonstrable cerebellar parenchymal injury evident on conventional MRI, PT birth is associated with cerebellar growth alterations that are regionally- and temporally-specific., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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47. Cerebral Perfusion Is Perturbed by Preterm Birth and Brain Injury.

Author

Mahdi ES, Bouyssi-Kobar M, Jacobs MB, Murnick J, Chang T, and Limperopoulos C

Subjects
Female, Gestational Age, Humans, Infant, Infant, Newborn, Male, Pregnancy, Brain Injuries diagnostic imaging, Cerebrovascular Circulation physiology, Infant, Premature, Infant, Premature, Diseases diagnostic imaging
Abstract

Background and Purpose: Early disturbances in systemic and cerebral hemodynamics are thought to mediate prematurity-related brain injury. However, the extent to which CBF is perturbed by preterm birth is unknown. Our aim was to compare global and regional CBF in preterm infants with and without brain injury on conventional MR imaging using arterial spin-labeling during the third trimester of ex utero life and to examine the relationship between clinical risk factors and CBF., Materials and Methods: We prospectively enrolled preterm infants younger than 32 weeks' gestational age and <1500 g and performed arterial spin-labeling MR imaging studies. Global and regional CBF in the cerebral cortex, thalami, pons, and cerebellum was quantified. Preterm infants were stratified into those with and without structural brain injury. We further categorized preterm infants by brain injury severity: moderate-severe and mild., Results: We studied 78 preterm infants: 31 without brain injury and 47 with brain injury (29 with mild and 18 with moderate-severe injury). Global CBF showed a borderline significant increase with increasing gestational age at birth ( P = .05) and trended lower in preterm infants with brain injury ( P = .07). Similarly, regional CBF was significantly lower in the right thalamus and midpons ( P < .05) and trended lower in the midtemporal, left thalamus, and anterior vermis regions ( P < .1) in preterm infants with brain injury. Regional CBF in preterm infants with moderate-severe brain injury trended lower in the midpons, right cerebellar hemisphere, and dentate nuclei compared with mild brain injury ( P < .1). In addition, a significant, lower regional CBF was associated with ventilation, sepsis, and cesarean delivery ( P < .05)., Conclusions: We report early disturbances in global and regional CBF in preterm infants following brain injury. Regional cerebral perfusion alterations were evident in the thalamus and pons, suggesting regional vulnerability of the developing cerebro-cerebellar circuitry., (© 2018 by American Journal of Neuroradiology.)

Published
2018
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48. A boy presenting with chronic ear drainage and associated middle ear mass.

Author

Black K, Murnick J, and Reilly BK

Subjects
Child, Chronic Disease, Diagnosis, Differential, Diffusion Magnetic Resonance Imaging, Foreign Bodies complications, Hearing Loss etiology, Humans, Male, Tomography, X-Ray Computed, Ear, Middle diagnostic imaging, Foreign Bodies diagnostic imaging, Otitis Media, Suppurative diagnostic imaging, Otitis Media, Suppurative etiology
Published
2018
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