Your search keyword '"Benders, Manon J.N.L."' showing total 33 results

1. The relationship between early life EEG and brain MRI in preterm infants: A systematic review

Author

Meijer, Roos F., Wang, Xiaowan, van Ooijen, Inge M., van der Velde, Bauke, Dudink, Jeroen, Benders, Manon J.N.L., and Tataranno, Maria Luisa

Published

2025

2. Association between sleep stages and brain microstructure in preterm infants: Insights from DTI analysis

Author

de Groot, Eline R., Wang, Xiaowan, Wojtal, Klaudia, Janson, Els, Alderliesten, Thomas, Tataranno, Maria Luisa, Benders, Manon J.N.L., and Dudink, Jeroen

Published

2024

3. Amplitude and frequency modulation of EEG predicts Intraventricular hemorrhage in preterm infants

Author

Arasteh, Emad, Luisa Tataranno, Maria, De Vos, Maarten, Wang, Xiaowan, Benders, Manon J.N.L., Dudink, Jeroen, and Alderliesten, Thomas

Published

2024

4. Feasibility of automated early postnatal sleep staging in extremely and very preterm neonates using dual-channel EEG

Author

Wang, Xiaowan, Bik, Anne, de Groot, Eline R., Tataranno, Maria Luisa, Benders, Manon J.N.L., and Dudink, Jeroen

Published

2023

5. A scoping review of behavioral sleep stage classification methods for preterm infants

Author

Bik, Anne, Sam, Chanel, de Groot, Eline R., Visser, Simone S.M., Wang, Xiaowan, Tataranno, Maria Luisa, Benders, Manon J.N.L., van den Hoogen, Agnes, and Dudink, Jeroen

Published

2022

6. High-frequency oscillations recorded with surface EEG in neonates with seizures

Author

Noorlag, Lotte, van 't Klooster, Maryse A., van Huffelen, Alexander C., van Klink, Nicole E.C., Benders, Manon J.N.L., de Vries, Linda S., Leijten, Frans S.S., Jansen, Floor E., Braun, Kees P.J., and Zijlmans, Maeike

Published

2021

7. Nurses' experiences and perspectives on aEEG monitoring in neonatal care: A qualitative study.

Author

Wang, Xiaowan, Borovac, Ana, van den Hoogen, Agnes, Tataranno, Maria Luisa, Benders, Manon J.N.L., and Dudink, Jeroen

Published

2024

8. Evaluation of automatic neonatal brain segmentation algorithms: The NeoBrainS12 challenge

Author

Išgum, Ivana, Benders, Manon J.N.L., Avants, Brian, Cardoso, M. Jorge, Counsell, Serena J., Gomez, Elda Fischi, Gui, Laura, Hűppi, Petra S., Kersbergen, Karina J., Makropoulos, Antonios, Melbourne, Andrew, Moeskops, Pim, Mol, Christian P., Kuklisova-Murgasova, Maria, Rueckert, Daniel, Schnabel, Julia A., Srhoj-Egekher, Vedran, Wu, Jue, Wang, Siying, de Vries, Linda S., and Viergever, Max A.

Published

2015

9. Perioperative Brain Injury in Relation to Early Neurodevelopment Among Children with Severe Congenital Heart Disease: Results from a European Collaboration.

Author

Neukomm, Astrid, Claessens, Nathalie H.P., Bonthrone, Alexandra F., Stegeman, Raymond, Feldmann, Maria, Nijman, Maaike, Jansen, Nicolaas J.G., Nijman, Joppe, Groenendaal, Floris, de Vries, Linda S., Benders, Manon J.N.L., Breur, Johannes M.P.J., Haas, Felix, Bekker, Mireille N., Logeswaran, Thushiha, Reich, Bettina, Kottke, Raimund, Dave, Hitendu, Simpson, John, and Pushparajah, Kuberan

Published

2024

10. Effect of Systemic Hydrocortisone on Brain Abnormalities and Regional Brain Volumes in Ventilator-dependent Infants Born Preterm: Substudy of the SToP-BPD Study.

Author

Halbmeijer, Nienke M., Onland, Wes, Dudink, Jeroen, Cools, Filip, Debeer, Anne, van Kaam, Anton H., Benders, Manon J.N.L., and van der Aa, Niek E.

Published

2024

11. Clinical and neuroimaging characteristics of cerebral sinovenous thrombosis in neonates undergoing cardiac surgery.

Author

Claessens, Nathalie H.P., Algra, Selma O., Jansen, Nicolaas J.G., Groenendaal, Floris, de Wit, Esther, Wilbrink, Alexander A., Haas, Felix, Schouten, Antonius N.J., Nievelstein, Rutger A.J., Benders, Manon J.N.L., and de Vries, Linda S.

Abstract

Objectives Neonates with congenital heart disease may have an increased risk of cerebral sinovenous thrombosis, but incidence rates are lacking. This study describes the clinical and neuroimaging characteristics of cerebral sinovenous thrombosis in neonates undergoing cardiac surgery. Methods Forty neonates (78% male) requiring neonatal univentricular or biventricular cardiac repair using cardiopulmonary bypass were included. All underwent preoperative (median postnatal day 7) and postoperative (median postoperative day 7) magnetic resonance imaging of the brain, including venography, to detect cerebral sinovenous thrombosis. Clinical characteristics were compared between cerebral sinovenous thrombosis positive and cerebral sinovenous thrombosis negative neonates. Results Postoperatively, cerebral sinovenous thrombosis was diagnosed in 11 neonates (28%), with the transverse sinus affected in all, and involvement of multiple sinuses in 10 (91%). Preoperatively, signs of thrombosis were seen in 3 cases (8%). Focal infarction of the basal ganglia was significantly more common in cerebral sinovenous thrombosis positive than cerebral sinovenous thrombosis negative neonates ( P = .025). Cerebral sinovenous thrombosis positive neonates spent more time in the intensive care unit preoperatively ( P = .001), had lower weight ( P = .024) and lower postmenstrual age ( P = .030) at surgery, and had prolonged use of a central venous catheter ( P = .023) and a catheter placed in the internal jugular vein more often ( P = .039). Surgical and postoperative factors were not different between new postoperative cerebral sinovenous thrombosis positive and cerebral sinovenous thrombosis negative neonates. Conclusions Cerebral sinovenous thrombosis might be more common than previously understood in neonates undergoing cardiac surgery. In our study, cerebral sinovenous thrombosis was associated with a higher risk of additional intra-parenchymal brain injury. [ABSTRACT FROM AUTHOR]

Published

2018

12. MR imaging for accurate prediction of outcome after perinatal arterial ischemic stroke: Sooner not necessarily better.

Author

Wagenaar, Nienke, van der Aa, Niek E., Groenendaal, Floris, Verhage, Cornelia H., Benders, Manon J.N.L., and de Vries, Linda S.

Abstract

Background Involvement of the corticospinal tracts after perinatal arterial ischemic stroke (PAIS) is strongly correlated with adverse motor outcome. Methods Two full-term infants with PAIS, with two early MRI scans available, are reported. Results Diffusion weighted imaging (DWI)-MRI, performed within 24 h following onset of seizures and repeated 48 h later, clearly showed restricted diffusion within the middle cerebral artery territory on both MRIs, but clear patterns of signal intensity changes in the descending corticospinal tracts on the second MRI only. Conclusion Since involvement of the corticospinal tracts is essential for prediction of motor outcome, we may need to reconsider optimal timing of MR imaging for prediction of neurodevelopmental outcome after PAIS. [ABSTRACT FROM AUTHOR]

Published

2017

13. Brain Volumes at Term-Equivalent Age in Preterm Infants: Imaging Biomarkers for Neurodevelopmental Outcome through Early School Age.

Author

Keunen, Kristin, Išgum, Ivana, van Kooij, Britt J.M., Anbeek, Petronella, van Haastert, Ingrid C., Koopman-Esseboom, Corine, Fieret-van Stam, Petronella C., Nievelstein, Rutger A.J., Viergever, Max A., de Vries, Linda S., Groenendaal, Floris, and Benders, Manon J.N.L.

Abstract

Objective: To evaluate the relationship between brain volumes at term and neurodevelopmental outcome through early school age in preterm infants.Study Design: One hundred twelve preterm infants (born mean gestational age 28.6 ± 1.7 weeks) were studied prospectively with magnetic resonance imaging (imaged at mean 41.6 ± 1.0 weeks). T2- and T1-weighted images were automatically segmented, and volumes of 6 tissue types were related to neurodevelopmental outcome assessed using the Bayley Scales of Infant and Toddler Development, Third Edition (cognitive, fine, and gross motor scores) at 24 months corrected age (n = 112), Griffiths Mental Development Scales (developmental quotient) at age 3.5 years (n = 98), Movement Assessment Battery for Children, Second Edition (n = 85), and Wechsler Preschool and Primary Scale of Intelligence, Third Edition at age 5.5 years (n = 44). Corrections were made for intracranial volume, maternal education, and severe brain lesions.Results: Ventricular volumes were negatively related to neurodevelopmental outcome at age 24 months and 3.5 years, as well as processing speed at age 5.5 years. Unmyelinated white matter (UWM) volume was positively associated with motor outcome at 24 months and with processing speed at age 5.5 years. Cortical gray matter (CGM) volume demonstrated a negative association with motor performance and cognition at 24 months and with developmental quotient at age 3.5 years. Cerebellar volume was positively related to cognition at these time points. Adjustment for brain lesions attenuated the relations between cerebellar and CGM volumes and cognition.Conclusions: Brain volumes of ventricles, UWM, CGM, and cerebellum may serve as biomarkers for neurodevelopmental outcome in preterm infants. The relationship between larger CGM volumes and adverse neurodevelopment may reflect disturbances in neuronal and/or axonal migration at the UWM-CGM boundary and warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2016

14. Myth: Cerebral palsy cannot be predicted by neonatal brain imaging.

Author

de Vries, Linda S., van Haastert, Ingrid C., Benders, Manon J.N.L., and Groenendaal, Floris

Abstract

Summary: There is controversy in the literature about the value of brain imaging in neonates regarding the prediction of cerebral palsy (CP). The aim of this review was to unravel the myth that CP cannot be predicted by neuroimaging in neonates. Major intracranial lesions in the preterm infant should be recognized with sequential cranial ultrasound and will predict those with non-ambulatory CP. Magnetic resonance imaging (MRI) at term-equivalent age will refine the prediction by assessment of myelination of the posterior limb of the internal capsule. Prediction of motor outcome in preterm infants with subtle white matter injury remains difficult, even with conventional MRI. MRI is a better tool to predict outcome in the term infant with hypoxic-ischaemic encephalopathy or neonatal stroke. The use of diffusion-weighted imaging as an additional sequence adds to the predictive value for motor outcome. Sequential and dedicated neuroimaging should enable us to predict motor outcome in high risk newborns infants. [ABSTRACT FROM AUTHOR]

Published

2011

15. Foetal hypoxia is an important determinant of birth asphyxia and subsequent adverse outcome: antenatal neuroprotection at term.

Author

Kaandorp, Joepe J., Benders, Manon J.N.L., Derks, Jan B., and van Bel, Frank

Subjects

REPERFUSION injury, NEUROPROTECTIVE agents, NEWBORN infants, HYPOXEMIA, ASPHYXIA neonatorum, CEREBRAL palsy

Abstract

Abstract: Hypoxic-ischaemic encephalopathy is directly associated with the development of cerebral palsy and cognitive disabilities later in life, therefore remaining an important problem in perinatal medicine. Postnatal neuroprotective strategies have been investigated elaborately, but up to now, only moderate hypothermia proved to be beneficial in reducing post hypoxic-ischaemic encephalopathy in a selected group of asphyxiated neonates. Since the vast amount of toxic free radicals is produced in the reperfusion and reoxygenation period upon and immediately (30–60 min) after birth, we postulate that antenatal (i.e. maternal) pharmacologic neuroprotection of the foetus, combined with postnatal hypothermia, might be a more optimal approach to prevent this free radical induced brain damage. This review summarizes the molecular mechanisms underlying early reperfusion–reoxygenation damage and focuses on the most promising pharmacologic agents (phenobarbital, vitamin C and E, allopurinol, melatonin and xenon) to be given antenatally to the mother to neuroprotect the hypoxic foetus. [ABSTRACT FROM AUTHOR]

Published

2010

16. Perinatal Arterial Stroke in the Preterm Infant.

Author

Benders, Manon J.N.L., Groenendaal, Floris, Uiterwaal, Cuno S.P.M., and de Vries, Linda S.

Abstract

In term infants there has been an increasing awareness of stroke as part of the differential diagnosis of neonatal seizures and other neurological symptoms. The etiological factors responsible for perinatal cerebral infarction, the clinical presentation, and long-term consequences are diverse. Most perinatal arterial ischemic stroke studies looking at maternal, perinatal, and infant characteristics exclude preterm infants from the population studied. More than 10 years ago, it had already been described that perinatal stroke is not only a disorder of term or near-term infants, however, data about preterm infants suffering from stroke are scarce. It is not clear whether this is due to a lower incidence, a lack of awareness, or a different (sub)clinical presentation. In this review the differences between preterm and full-term infants in incidence, clinical presentation, neuro-imaging findings, vascular distribution, and risk factors are described. [Copyright &y& Elsevier]

Published

2008

17. The relationship between preterm birth and sleep in children at school age: A systematic review.

Author

Visser, Simone S.M., van Diemen, Willemijn J.M., Kervezee, Laura, van den Hoogen, Agnes, Verschuren, Olaf, Pillen, Sigrid, Benders, Manon J.N.L., and Dudink, Jeroen

Abstract

Premature birth (before 37 weeks of gestation) has been linked to a variety of adverse neurological outcomes. Sleep problems are associated with decreased neurocognitive functioning, which is especially common in children born preterm. The exact relationship between prematurity and sleep at school age is unknown. A systematic review is performed with the aim to assess the relationship between prematurity and sleep at school age (5th to 18th year of life), in comparison to sleep of their peers born full-term. Of 347 possibly eligible studies, nine were included. The overall conclusion is that prematurity is associated with earlier bedtimes and a lower sleep quality, in particular more nocturnal awakenings and more non-rapid eye movement stage 2 sleep. Interpretations and limitations of the review are discussed. Moreover, suggestions for future research are brought forward, including the need for a systematic approach with consistent outcome measures in this field of research. A better understanding of the mechanisms that influence sleep in the vulnerable group of children born preterm could help optimize these children's behavioral and intellectual development. [ABSTRACT FROM AUTHOR]

Published

2021

18. Increase in Brain Volumes after Implementation of a Nutrition Regimen in Infants Born Extremely Preterm.

Author

van Beek, Pauline E., Claessens, Nathalie H.P., Makropoulos, Antonios, Groenendaal, Floris, de Vries, Linda S., Counsell, Serena J., and Benders, Manon J.N.L.

Abstract

Objective: To assess the effect of early life nutrition on structural brain development in 2 cohorts of extremely preterm infants, before and after the implementation of a nutrition regimen containing more protein and lipid.Study Design: We included 178 infants retrospectively (median gestational age, 26.6 weeks; IQR, 25.9-27.3), of whom 99 received the old nutrition regimen (cohort A, 2011-2013) and 79 the new nutrition regimen (cohort B, 2013-2015). Intake of protein, lipids, and calories was calculated for the first 28 postnatal days. Brain magnetic resonance imaging (MRI) was performed at 30 weeks postmenstrual age (IQR, 30.3-31.4) and term-equivalent age (IQR, 40.9-41.4). Volumes of 42 (left + right) brain structures were calculated.Results: Mean protein and caloric intake in cohort B (3.4 g/kg per day [P < .001] and 109 kcal/kg per day [P = .038]) was higher than in cohort A (2.7 g/kg per day; 104 kcal/kg per day). At 30 weeks, 22 regions were significantly larger in cohort B compared with cohort A, whereas at term-equivalent age, only the caudate nucleus was significantly larger in cohort B compared with cohort A.Conclusions: An optimized nutrition protocol in the first 28 days of life is associated with temporarily improved early life brain volumes. [ABSTRACT FROM AUTHOR]

Published

2020

19. Brain Injury in Infants with Critical Congenital Heart Disease: Insights from Two Clinical Cohorts with Different Practice Approaches.

Author

Claessens, Nathalie H.P., Chau, Vann, de Vries, Linda S., Jansen, Nicolaas J.G., Au-Young, Stephanie H., Stegeman, Raymond, Blaser, Susan, Shroff, Manohar, Haas, Felix, Marini, Davide, Breur, Johannes M.P.J., Seed, Mike, Benders, Manon J.N.L., and Miller, Steven P.

Abstract

Objectives: To determine prevalence and risk factors for brain injury in infants with critical congenital heart disease (CHD) from 2 sites with different practice approaches who were scanned clinically.Study Design: Prospective, longitudinal cohort study (2016-2017) performed at Hospital for Sick Children Toronto (HSC) and Wilhelmina Children's Hospital Utrecht (WKZ), including 124 infants with cardiac surgery ≤60 days (HSC = 77; WKZ = 47). Magnetic resonance imaging was performed per clinical protocol, preoperatively (n = 100) and postoperatively (n = 120). Images were reviewed for multifocal (watershed, white matter injury) and focal ischemic injury (stroke, single white matter lesion).Results: The prevalence of ischemic injury was 69% at HSC and 60% at WKZ (P = .20). Preoperative multifocal injury was associated with low cardiac output syndrome (OR, 4.6), which was equally present at HSC and WKZ (20% vs 28%; P = .38). Compared with WKZ, HSC had a higher prevalence of balloon-atrioseptostomy in transposition of the great arteries (83% vs 53%; P = .01) and more frequent preoperative focal injury (27% vs 6%; P = .06). Postoperatively, 30% of new multifocal injury could be attributed to postoperative low cardiac output syndrome, which was equally present at HSC and WKZ (38% vs 28%; P = .33). Postoperative focal injury was associated with intraoperative selective cerebral perfusion in CHD with arch obstruction at both sites (OR, 2.7). Compared with HSC, WKZ had more arch obstructions (62% vs 35%; P < .01) and a higher prevalence of new focal injury (36% vs 16%; P = .01).Conclusions: Brain injury is common in clinical cohorts of infants with critical CHD and related to practice approaches. This study confirms that the high prevalence of brain injury in critical CHD is a clinical concern and does not simply reflect the inclusion criteria of published research studies. [ABSTRACT FROM AUTHOR]

Published

2019

20. Postoperative cerebral oxygenation was not associated with new brain injury in infants with congenital heart disease.

Author

Claessens, Nathalie H.P., Jansen, Nicolaas J.G., Breur, Johannes M.P.J., Algra, Selma O., Stegeman, Raymond, Alderliesten, Thomas, van Loon, Kim, de Vries, Linda S., Haas, Felix, Benders, Manon J.N.L., and Lemmers, Petra M.A.

Abstract

The aim of this study was to evaluate postoperative indices of cerebral oxygenation and autoregulation in infants with critical congenital heart disease in relation to new postoperative ischemic brain injury. This prospective, clinical cohort included 77 infants with transposition of the great arteries (N = 19), left ventricular outflow tract obstruction (N = 30), and single ventricle physiology (N = 28) undergoing surgery at 30 days or less of life. Postoperative near-infrared spectroscopy and physiologic monitoring were applied to extract mean arterial blood pressure, regional cerebral oxygen saturation, fractional tissue oxygen extraction, and regional cerebral oxygen saturation mean arterial blood pressure correlation coefficient (≥0.5 considered sign of impaired cerebral autoregulation). New postoperative ischemic injury was defined as moderate-severe white matter injury or focal infarction on magnetic resonance imaging. Low cardiac output syndrome was measured as lactate greater than 4 mmol/L with pH less than 7.30. After surgery, regional cerebral oxygen saturation was decreased in all congenital heart disease groups with a notable increase in regional cerebral oxygen saturation between 6 and 12 hours after surgery, on average with a factor of 1.4 (range, 1.1-2.4). Both single ventricle physiology and postoperative low cardiac output syndrome were associated with lower regional cerebral oxygen saturation and increased time with correlation coefficient of 0.5 or greater. New postoperative ischemic injury was seen in 39 patients (53%) and equally distributed across congenital heart disease groups. Postoperative regional cerebral oxygen saturation, fractional tissue oxygen extraction, and correlation coefficient were not independently associated with new postoperative white matter injury or focal infarction (mixed-model analysis, all F > 0.12). Postoperative indices of cerebral oxygenation and cerebral autoregulation are not independent predictors of new ischemic brain injury in infants with critical congenital heart disease. Further exploration of the complex interplay among low regional cerebral oxygen saturation, low cardiac output syndrome, and heart defect is required to identify potential biomarkers enabling early intervention for ischemic brain injury. [ABSTRACT FROM AUTHOR]

Published

2019

21. Assessment of Brain Injury and Brain Volumes after Posthemorrhagic Ventricular Dilatation: A Nested Substudy of the Randomized Controlled ELVIS Trial.

Author

Cizmeci, Mehmet N., Khalili, Nadieh, Claessens, Nathalie H.P., Groenendaal, Floris, Liem, Kian D., Heep, Axel, Benavente-Fernández, Isabel, van Straaten, Henrica L.M., van Wezel-Meijler, Gerda, Steggerda, Sylke J., Dudink, Jeroen, Išgum, Ivana, Whitelaw, Andrew, Benders, Manon J.N.L., de Vries, Linda S., and ELVIS study group

Abstract

Objective: To compare the effect of early and late intervention for posthemorrhagic ventricular dilatation on additional brain injury and ventricular volume using term-equivalent age-MRI.Study Design: In the Early vs Late Ventricular Intervention Study (ELVIS) trial, 126 preterm infants ≤34 weeks of gestation with posthemorrhagic ventricular dilatation were randomized to low-threshold (ventricular index >p97 and anterior horn width >6 mm) or high-threshold (ventricular index >p97 + 4 mm and anterior horn width >10 mm) groups. In 88 of those (80%) with a term-equivalent age-MRI, the Kidokoro Global Brain Abnormality Score and the frontal and occipital horn ratio were measured. Automatic segmentation was used for volumetric analysis.Results: The total Kidokoro score of the infants in the low-threshold group (n = 44) was lower than in the high-threshold group (n = 44; median, 8 [IQR, 5-12] vs median 12 [IQR, 9-17], respectively; P < .001). More infants in the low-threshold group had a normal or mildly increased score vs more infants in the high-threshold group with a moderately or severely increased score (46% vs 11% and 89% vs 54%, respectively; P = .002). The frontal and occipital horn ratio was lower in the low-threshold group (median, 0.42 [IQR, 0.34-0.63]) than the high-threshold group (median 0.48 [IQR, 0.37-0.68], respectively; P = .001). Ventricular cerebrospinal fluid volumes could be calculated in 47 infants and were smaller in the low-threshold group (P = .03).Conclusions: More brain injury and larger ventricular volumes were demonstrated in the high vs the low-threshold group. These results support the positive effects of early intervention for posthemorrhagic ventricular dilatation.Trial Registration: ISRCTN43171322. [ABSTRACT FROM AUTHOR]

Published

2019

22. Amplitude-Integrated Electroencephalography for Early Recognition of Brain Injury in Neonates with Critical Congenital Heart Disease.

Author

Claessens, Nathalie H.P., Noorlag, Lotte, Weeke, Lauren C., Toet, Mona C., Breur, Johannes M.P.J., Algra, Selma O., Schouten, Antonius N.J., Haas, Felix, Groenendaal, Floris, Benders, Manon J.N.L., Jansen, Nicolaas J.G., and de Vries, Linda S.

Abstract

Objective: To study perioperative amplitude-integrated electroencephalography (aEEG) as an early marker for new brain injury in neonates requiring cardiac surgery for critical congenital heart disease (CHD).Study Design: This retrospective observational cohort study investigated 76 neonates with critical CHD who underwent neonatal surgery. Perioperative aEEG recordings were evaluated for background pattern (BGP), sleep-wake cycling (SWC), and ictal discharges. Spontaneous activity transient (SAT) rate, inter-SAT interval (ISI), and percentage of time with an amplitude <5 µV were calculated. Routinely obtained preoperative and postoperative magnetic resonance imaging of the brain were reviewed for brain injury (moderate-severe white matter injury, stroke, intraparenchymal hemorrhage, or cerebral sinovenous thrombosis).Results: Preoperatively, none of the neonates showed an abnormal BGP (burst suppression or worse) or ictal discharges. Postoperatively, abnormal BGP was seen in 18 neonates (24%; 95% CI, 14%-33%) and ictal discharges was seen in 13 neonates (17%; 95% CI, 8%-26%). Abnormal BGP and ictal discharges were more frequent in neonates with new postoperative brain injury (P = .08 and .01, respectively). Abnormal brain activity (ie, abnormal BGP or ictal discharges) was the single risk factor associated with new postoperative brain injury in multivariable logistic regression analysis (OR, 4.0; 95% CI, 1.3-12.3; P = .02). Postoperative SAT rate, ISI, or time <5 µV were not associated with new brain injury.Conclusion: Abnormal brain activity is an early, bedside marker of new brain injury in neonates undergoing cardiac surgery. Not only ictal discharges, but also abnormal BGP, should be considered a clear sign of underlying brain pathology. [ABSTRACT FROM AUTHOR]

Published

2018

23. Clinical Risk Factors for Punctate White Matter Lesions on Early Magnetic Resonance Imaging in Preterm Newborns.

Author

Wagenaar, Nienke, Chau, Vann, Groenendaal, Floris, Kersbergen, Karina J., Poskitt, Kenneth J., Grunau, Ruth E., Synnes, Anne, Duerden, Emma G., de Vries, Linda S., Miller, Steven P., Benders, Manon J.N.L., and Benders, ManonJ N L

Abstract

Objective: To identify clinical risk factors for punctate white matter lesions (PWML) on early magnetic resonance imaging (MRI) in 2 cohorts of newborns born extremely preterm in different neonatal centers.Study Design: A total of 250 newborns born preterm at less than 28 weeks of gestation (mean 26.4 ± 1.1 weeks) with an early MRI were identified from 2 neonatal centers, in Vancouver, Canada (cohort A, n = 100) and Utrecht, the Netherlands (cohort B, n = 150). Cohort A was imaged as part of a prospective research study and cohort B was imaged as part of routine clinical care. PWML were defined as cluster type foci of hyperintensity on T1-weighted imaging and were identified at a mean postmenstrual age of 31.1 (±1.9) weeks. Multivariable analysis was used to identify clinical factors predictive of PWML.Results: Cluster type PWML were found in 47 newborns born extremely preterm (18.8%) and were more common in cohort A (32%) than in cohort B (10%). Newborns in cohort A generally were sicker than those in cohort B. Multivariable analyses revealed that greater birth weight (B = 0.002; P < .02), grade II-III intraventricular hemorrhage (B = 0.83; P < .02), and cohort A (B = 1.34; P < .0001) were independent predictors of PWML.Conclusion: Several risk factors for PWML on early MRI were identified. The interaction among birth weight, intraventricular hemorrhage, and other aspects of postnatal illness as risk factors for PWML warrants further investigation in newborns born extremely preterm and may help to identify modifiable risk factors for PWML. [ABSTRACT FROM AUTHOR]

Published

2017

24. Neonatal Surgery for Noncardiac Congenital Anomalies: Neonates at Risk of Brain Injury.

Author

Stolwijk, Lisanne J., Keunen, Kristin, de Vries, Linda S., Groenendaal, Floris, van der Zee, David C., van Herwaarden, Maud Y.A., Lemmers, Petra M.A., and Benders, Manon J.N.L.

Abstract

Objective: To evaluate the incidence of brain injury after neonatal surgery for noncardiac congenital anomalies using magnetic resonance imaging (MRI).Study Design: An MRI was obtained in 101 infants at 7 days [range: 1-115] after neonatal surgery for major noncardiac congenital anomalies. Brain injury was assessed using T1, T2, diffusion weighted imaging, and susceptibility-weighted imaging.Results: Thirty-two preterm infants (<37 weeks of gestation) and 69 full-term infants were included. MRI abnormalities were found in 24 (75%) preterm and 40 (58%) full-term infants. Parenchymal lesions were noted in 23 preterm (72%) and 29 full-term infants (42%). These consisted of punctate white matter lesions (n = 45), punctate cerebellar lesions (n = 17), thalamic infarction (n = 5), and periventricular hemorrhagic infarction (n = 4). Nonparenchymal abnormalities were found in 9 (28%) preterm and 26 (38%) full-term infants. These included supra- and infratentorial subdural hemorrhages (n = 30), intraventricular hemorrhage grade II (n = 7), and asymptomatic sinovenous thrombosis (n = 1). A combination of parenchymal lesions was present in 21 infants. Of infants who had an MRI within 10 days after surgery, punctate white matter lesions were visible on diffusion weighted imaging in 22 (61%), suggestive of recent ischemic origin. Type of congenital anomaly and prematurity were most predictive of brain injury.Conclusions: Infants who have neonatal surgery for noncardiac congenital anomalies are at risk of brain injury, potentially accounting for the neurodevelopmental delay frequently observed in this population. Further research is warranted into potential mechanisms of brain injury and its timing of onset. Long-term neurodevelopmental follow-up is needed in this vulnerable population. [ABSTRACT FROM AUTHOR]

Published

2017

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

Author

Kersbergen, Karina J., Makropoulos, Antonios, Aljabar, Paul, Groenendaal, Floris, de Vries, Linda S., Counsell, Serena J., and Benders, Manon J.N.L.

Abstract

Objectives: To investigate third-trimester extrauterine brain growth and correlate this with clinical risk factors in the neonatal period, using serially acquired brain tissue volumes in a large, unselected cohort of extremely preterm born infants.Study Design: Preterm infants (gestational age <28 weeks) underwent brain magnetic resonance imaging (MRI) at around 30 weeks postmenstrual age and again around term equivalent age. MRIs were segmented in 50 different regions covering the entire brain. Multivariable regression analysis was used to determine the influence of clinical variables on volumes at both scans, as well as on volumetric growth.Results: MRIs at term equivalent age were available for 210 infants and serial data were available for 131 infants. Growth over these 10 weeks was greatest for the cerebellum, with an increase of 258%. Sex, birth weight z-score, and prolonged mechanical ventilation showed global effects on brain volumes on both scans. The effect of brain injury on ventricular size was already visible at 30 weeks, whereas growth data and volumes at term-equivalent age revealed the effect of brain injury on the cerebellum.Conclusion: This study provides data about third-trimester extrauterine volumetric brain growth in preterm infants. Both global and local effects of several common clinical risk factors were found to influence serial volumetric measurements, highlighting the vulnerability of the human brain, especially in the presence of brain injury, during this period. [ABSTRACT FROM AUTHOR]

Published

2016

26. Effects of Posthemorrhagic Ventricular Dilatation in the Preterm Infant on Brain Volumes and White Matter Diffusion Variables at Term-Equivalent Age.

Author

Brouwer, Margaretha J., de Vries, Linda S., Kersbergen, Karina J., van der Aa, Nicolaas E., Brouwer, Annemieke J., Viergever, Max A., Išgum, Ivana, Han, Kuo S., Groenendaal, Floris, and Benders, Manon J.N.L.

Abstract

Objective: To evaluate the differential impact of germinal matrix-intraventricular hemorrhage (GMH-IVH) and posthemorrhagic ventricular dilatation (PHVD) on brain and cerebrospinal fluid (CSF) volumes and diffusion variables in preterm born infants at term-equivalent age (TEA).Study Design: Nineteen infants (gestational age <31 weeks) with GMH-IVH grade II-III according to Papile et al and subsequent PHVD requiring intervention were matched against 19 controls with GMH-IVH grade II but no PHVD and 19 controls without GMH-IVH. Outcome variables on magnetic resonance imaging (MRI) including diffusion weighted imaging at TEA were volumes of white matter, cortical gray matter, deep gray matter, brainstem, cerebellum, ventricles, extracerebral CSF, total brain tissue, and intracranial volume (ICV), as well as white matter and cerebellar apparent diffusion coefficients (ADCs). Effects of GMH-IVH and PHVD on TEA-MRI measurements were evaluated using multivariable regression analysis. Brain and CSF volumes were adjusted for ICV to account for differences in bodyweight at TEA-MRI and ICV between cases and controls.Results: PHVD was independently associated with volumes of deep gray matter (β [95% CI]: -1.4 cc [-2.3; -.5]), cerebellum (-2.7 cc [-3.8; -1.6]), ventricles (+12.7 cc [7.9; 17.4]), and extracerebral CSF (-11.2 cc [-19.2; -3.3]), and with ADC values in occipital, parieto-occipital, and parietal white matter (β: +.066-.119×10(-3) mm(2)/s) on TEA-MRI (P < .05). No associations were found between GMH-IVH grade II-III and brain and CSF volumes or ADC values at TEA.Conclusions: PHVD was negatively related to deep gray matter and cerebellar volumes and positively to white matter ADC values on TEA-MRI, despite early intervention for PHVD in the majority of the infants. These relationships were not observed for GMH-IVH. [ABSTRACT FROM AUTHOR]

Published

2016

27. Corticospinal Tract Injury Precedes Thalamic Volume Reduction in Preterm Infants with Cystic Periventricular Leukomalacia.

Author

Kersbergen, Karina J., de Vries, Linda S., Groenendaal, Floris, van Haastert, Ingrid C., Chew, Andrew T.M., Makropoulos, Antonios, Dawson, Sarah L., Cowan, Frances M., Benders, Manon J.N.L., and Counsell, Serena J.

Abstract

Objectives: To measure both fractional anisotropy (FA) values in the corticospinal tracts (CSTs) and volume of the thalami in preterm infants with cystic periventricular leukomalacia (c-PVL) and to compare these measurements with control infants. Study Design: Preterm infants with c-PVL and controls with magnetic resonance imaging data acquired between birth and term equivalent age (TEA) were retrospectively identified in 2 centers. Tractography of the CST and segmentation of the thalamus were performed, and values from infants with c-PVL and controls were compared. Results: Thirty-three subjects with c-PVL and 31 preterm controls were identified. All had at least 1 scan up to TEA, and multiple scans were performed in 31 infants. A significant difference in FA values of the CST was found between cases and controls on the scans both before and at TEA. Absolute thalamic volumes were significantly reduced at TEA but not on the earlier scans. Data acquired in infancy showed lower FA values in infants with c-PVL. Conclusions: Damage to the CST can be identified on the early scan and persists, whereas the changes in thalamic volume develop in the weeks between the early and term equivalent magnetic resonance imaging. This may reflect the difference between acute and remote effects of the extensive injury to the white matter caused by c-PVL. [ABSTRACT FROM AUTHOR]

Published

2015

28. Placental Pathology in Full-Term Infants with Hypoxic-Ischemic Neonatal Encephalopathy and Association with Magnetic Resonance Imaging Pattern of Brain Injury.

Author

Harteman, Johanna C., Nikkels, Peter G.J., Benders, Manon J.N.L., Kwee, Anneke, Groenendaal, Floris, and de Vries, Linda S.

Abstract

Objective: To investigate the relationship between placental pathology and pattern of brain injury in full-term infants with neonatal encephalopathy after a presumed hypoxic-ischemic insult. Study design: The study group comprised full-term infants with neonatal encephalopathy subsequent to presumed hypoxia-ischemia with available placenta for analysis who underwent cerebral magnetic resonance imaging (MRI) within the first 15 days after birth. Macroscopic and microscopic characteristics of the placenta were assessed. The infants were classified according to the predominant pattern of brain injury detected on MRI: no injury, predominant white matter/watershed injury, predominant basal ganglia and thalami (BGT) injury, or white matter/watershed injury with BGT involvement. Maternal and perinatal clinical factors were recorded. Results: Placental tissue was available for analysis in 95 of 171 infants evaluated (56%). Among these 95 infants, 34 had no cerebral abnormalities on MRI, 27 had white matter/watershed injury, 18 had BGT injury, and 16 had white matter/watershed injury with BGT involvement. Chorioamnionitis was a common placental finding in both the infants without injury (59%) and those with white matter/BGT injury (56%). On multinomial logistic regression analysis, white matter/watershed injury with and without BGT involvement was associated with decreased placental maturation. Hypoglycemia was associated with an increased risk of the white matter/BGT injury pattern (OR, 5.4; 95% CI, 1.4-21.4). The BGT injury pattern was associated with chronic villitis (OR, 12.7; 95% CI, 2.4-68.7). A placental weight <10th percentile appeared to be protective against brain injury, especially for the BGT pattern (OR, 0.1; 95% CI, 0.01-0.7). Conclusion: Placental weight <10th percentile was mainly associated with normal cerebral MRI findings. Decreased placental maturation and hypoglycemia <2.0 mmol/L were associated with increased risk of white matter/watershed injury with or without BGT involvement. Chronic villitis was associated with BGT injury irrespective of white matter injury. [Copyright &y& Elsevier]

Published

2013

29. Hydrocortisone Treatment for Bronchopulmonary Dysplasia and Brain Volumes in Preterm Infants.

Author

Kersbergen, Karina J., de Vries, Linda S., van Kooij, Britt J.M., Išgum, Ivana, Rademaker, Karin J., van Bel, Frank, Hüppi, Petra S., Dubois, Jessica, Groenendaal, Floris, and Benders, Manon J.N.L.

Abstract

Objective: To assess whether there was an adverse effect on brain growth after hydrocortisone (HC) treatment for bronchopulmonary dysplasia (BPD) in a large cohort of infants without dexamethasone exposure. Study design: Infants who received HC for BPD between 2005 and 2011 and underwent magnetic resonance imaging at term-equivalent age were included. Control infants born in Geneva (2005-2006) and Utrecht (2007-2011) were matched to the infants treated with HC according to segmentation method, sex, and gestational age. Infants with overt parenchymal pathology were excluded. Multivariable analysis was used to determine if there was a difference in brain volumes between the 2 groups. Results: Seventy-three infants treated with HC and 73 matched controls were included. Mean gestational age was 26.7 weeks, and mean birth weight was 906 g. After correction for gestational age, postmenstrual age at time of scanning, the presence of intraventricular hemorrhage, and birth weight z-score, no differences were found between infants treated with HC and controls in total brain tissue or cerebellar volumes. Conclusions: In the absence of associated parenchymal brain injury, no reduction in brain tissue or cerebellar volumes could be found at term-equivalent age between infants with or without treatment with HC for BPD. [Copyright &y& Elsevier]

Published

2013

30. B-Type Natriuretic Peptide and Rebound during Treatment for Persistent Pulmonary Hypertension.

Author

Vijlbrief, Daniel C., Benders, Manon J.N.L., Kemperman, Hans, van Bel, Frank, and de Vries, Willem B.

Abstract

Objective: To investigate whether serum B-type natriuretic peptide (BNP) is a useful biomarker in evaluating the course of persistent pulmonary hypertension of the newborn (PPHN) and the effectiveness of treatment. Study design: Prospective follow-up study of infants with clinical and echocardiographic signs of PPHN, who were treated with inhaled nitric oxide (iNO). Of 24 patients with PPHN who were treated, serum BNP levels were determined longitudinally in 21. BNP levels were compared between infants with (n = 6) and without rebound PPHN (n = 15). Results: BNP levels in all infants with PPHN were not significantly different at the initial start of iNO. BNP levels decreased in both groups during iNO treatment. In the infants in whom rebound PPHN developed after weaning from iNO, a significantly higher increase was found in BNP (283 pmol/L to 1232 pmol/L) compared with that in infants without rebound (98 pmol/L to 159 pmol/L). This occurred before the onset of clinical deterioration. BNP again decreased significantly after iNO treatment was restarted. Conclusions: BNP, a biomarker of cardiac ventricular strain, proved to be useful in evaluating the efficacy of PPHN treatment, and moreover, BNP helps to predict a rebound of PPHN. [Copyright &y& Elsevier]

Published

2012

31. Placenta histology related to flow and oxygenation in fetal congenital heart disease.

Author

Snoep, Maartje C., Nijman, Maaike, DeRuiter, Marco C., Bekker, Mireille N., Aliasi, Moska, Breur, Johannes M.P.J., ten Harkel, Arend D.J., Benders, Manon J.N.L., van der Meeren, Lotte E., and Haak, Monique C.

Subjects

*HYPOPLASTIC left heart syndrome, *FETAL growth retardation, *TRANSPOSITION of great vessels, *CONGENITAL heart disease, *ABORTION

Abstract

Fetuses with congenital heart defects (CHD) show delayed neurodevelopment, fetal growth restriction (FGR) and placenta related complications. The neurodevelopmental delay may be, partly, attributed to placental factors. As both placental development and fetal aortic flow/oxygenation influence neurodevelopment, placentas were compared within fetal CHD groups based on aortic oxygenation and flow, aiming to unravel the true effects in the developmental processes. Placental tissues of pregnancies with fetal CHD and healthy controls were selected from biobanks of two Dutch academic hospitals (LUMC, UMCU). Additionally, biometry and Dopplers were assessed. CHD cases with reduced oxygenation (RO) towards the fetal brain were compared to cases with reduced flow (RF) in the aortic arch and healthy controls. Genetic abnormalities, termination of pregnancy, fetal demise and/or multiple pregnancies were excluded. Histological outcomes were related to fetal Dopplers and biometry. A placenta severity score was used to assess the severity of placental abnormalities per case. In CHD, significantly more delayed maturation, maternal vascular malperfusion, fetal hypoxia and higher placenta severity scores (median 14 in RO, 14 in RF, 5 in controls, p < 0.001) were observed. Doppler abnormalities (PI UA > p90, PI MCA < p10, CPR < p10) and FGR were more often found in CHD. There were no differences in placental abnormalities, fetal growth and fetal Dopplers between cases with RO and RF. Fetal hemodynamics in the ascending aorta could not be related to placenta characteristics. We hypothesize that placental development influences neurodevelopment in excess of hemodynamics in CHD cases. • Placental features in fetal CHD could not be related to aortic flow and oxygenation. • Next to hemodynamic alterations, alternative contributing factors might play a role. • Abnormal placental development might influence neurodevelopment in these cases. [ABSTRACT FROM AUTHOR]

Published

2024

32. Healthy play, better coping: The importance of play for the development of children in health and disease.

Author

Nijhof, Sanne L., Vinkers, Christiaan H., Van Geelen, Stefan M., Duijff, Sasja N., Achterberg, E.j. Marijke, Van Der Net, Janjaap, Veltkamp, Remco C., Grootenhuis, Martha A., Van De Putte, Elise M., Hillegers, Manon H.j., Van Der Brug, Anneke W., Wierenga, Corette J., Benders, Manon J.n.l., Engels, Rutger C.m.e., Van Der Ent, C. Kors, Vanderschuren, Louk J.m.j., and Lesscher, Heidi M.b.

Subjects

*CHILD development, *CHRONIC diseases, *COGNITION disorders in children, *MOTOR ability, *PSYCHOMOTOR disorders

Abstract

Highlights • "Rodent studies support an important role of social play in the development of brain and behavior". • "Children with a chronic disease are at risk for physical, social, emotional and cognitive problems". • "Facilitating (social) play may improve the developmental outcome of chronical diseased children". • "All children may benefit from knowledge about the impressive resilience of young patients". • "Interactive technology/games can help patients to play with peers, fostering social inclusion". Abstract Play is of vital importance for the healthy development of children. From a developmental perspective, play offers ample physical, emotional, cognitive, and social benefits. It allows children and adolescents to develop motor skills, experiment with their (social) behavioural repertoire, simulate alternative scenarios, and address the various positive and negative consequences of their behaviour in a safe and engaging context. Children with a chronic or life-threatening disease may face obstacles that negatively impact play and play development, possibly impeding developmental milestones, beyond the actual illness itself. Currently, there is limited understanding of the impact of (1) aberrant or suppressed play and (2) play-related interventions on the development of chronic diseased children. We argue that stimulating play behaviour enhances the adaptability of a child to a (chronic) stressful condition and promotes cognitive, social, emotional and psychomotor functioning, thereby strengthening the basis for their future health. Systematic play research will help to develop interventions for young patients, to better cope with the negative consequences of their illness and stimulate healthy development. [ABSTRACT FROM AUTHOR]

Published

2018

33. Regional changes in brain perfusion during brain maturation measured non-invasively with Arterial Spin Labeling MRI in neonates

Author

De Vis, Jill B., Petersen, Esben T., de Vries, Linda S., Groenendaal, Floris, Kersbergen, Karina J., Alderliesten, Thomas, Hendrikse, Jeroen, and Benders, Manon J.N.L.

Subjects

*NEURAL development, *PERFUSION, *MAGNETIC resonance imaging of the brain, *MEDICAL imaging systems, *MENSTRUAL cycle, *SPIN labels

Abstract

Abstract: Purpose: The purpose of this study was to evaluate if non-invasive Arterial Spin Labeling MR imaging can be used to assess changes in brain perfusion with age which reflect neonatal brain development. For this purpose regional perfusion values obtained with ASL MR imaging were evaluated as a function of postmenstrual age. Materials and methods: Pulsed ASL imaging was performed in 33 neonates with a postmenstrual age from 30 to 53 weeks. Whole brain cerebral blood flow (wbCBF), CBF in the basal ganglia and thalamus (BGT-CBF), in the occipital cortex (OC-CBF) and the frontal cortex (FC-CBF) were measured. Regional CBF values were expressed quantitatively (in ml/100gmin) and relative as a percentage of the wbCBF. Results: Mean wbCBF increased significantly from 7±2ml/100gmin (mean±sd) at 31±2 weeks postmenstrual age to 12±3ml/100gmin at term-equivalent age (TEA) and 29±9ml/100gmin at 52±1 weeks postmenstrual age. Relative regional CBF was highest in the BGT at all time-points. Relative OC-and FC-CBF increased significantly from 31±2 weeks postmentrual age to TEA. A significant difference in relative BGT-CBF and OC-CBF was shown between infants at 31±2 weeks postmenstrual age and infants scanned at 52±1 weeks postmenstrual age. Relative perfusion in the BGT measured at TEA was significant different compared to 52±1 weeks postmenstrual age. Conclusion: In conclusion, regional differences in CBF and changes with postmenstrual age could be detected with ASL in neonates. This suggests that ASL can be used as a non-invasive tool to investigate brain maturation in neonates. [Copyright &y& Elsevier]

Published

2013