Your search keyword '"Ferriero, Donna"' showing total 114 results

1. Stem cells for perinatal stroke.

Author

Gonzalez, Fernando and Ferriero, Donna M

Subjects

*STEM cells, *STROKE treatment

Published

2022

2. The Vulnerable Newborn Brain: Imaging Patterns of Acquired Perinatal Injury.

Author

Ferriero, Donna M.

Subjects

*BRAIN injury diagnosis, *BRAIN imaging, *STROKE, *INTRAVENTRICULAR hemorrhage, *WHITE matter (Nerve tissue), *WOUNDS & injuries, NEWBORN infant health

Abstract

Background: Over the past two decades, imaging techniques have allowed for better visualization of the newborn brain. This has enabled us to detect patterns, understand mechanisms and guide diagnosis and treatment. Objectives: The purpose of this review is to discuss imaging characteristics of acquired perinatal brain injury. Methods: Through literature review and the author's research, this review assesses published data on the distinct imaging patterns that occur in the neonatal period due to acquired brain insults. Results: In the term brain, susceptibility to hypoxiaischemia, hypoglycemia and hyperbilirubinemia results in unique patterns of injury. Stroke commonly occurs in the newborn period. Infections, especially viral, have distinct patterns of white matter injury. In the preterm brain, white matter injury occurs commonly and is affected by postnatal growth, stress and infection. The cerebellum is uniquely vulnerable during this period, with resultant hemorrhages in almost half of preterm infants. Cerebellar growth is affected by intraventricular hemorrhage, drugs and placental pathology. Periventricular hemorrhagic infarction is the most serious consequence of the spectrum of intraventricular hemorrhage and results in profound disabilities. Conclusions: Taken together, the acquired perinatal brain injuries can have lifelong devastating consequences, so the search for therapies must continue. [ABSTRACT FROM AUTHOR]

Published

2016

3. Neurology--the next 10 years.

Author

Baron, Ralf, Ferriero, Donna M., Frisoni, Giovanni B., Bettegowda, Chetan, Gokaslan, Ziya L., Kessler, John A., Vezzani, Annamaria, Waxman, Stephen G., Jarius, Sven, Wildemann, Brigitte, and Weller, Michael

Subjects

*ALZHEIMER'S disease diagnosis, *ALZHEIMER'S disease prevention, *DIAGNOSIS of epilepsy, *ALZHEIMER'S disease, *AUTOANTIBODIES, *DEGENERATION (Pathology), *EPILEPSY, *FORECASTING, *NERVOUS system regeneration, *NEUROLOGY, *PEDIATRICS, *CNS demyelinating autoimmune diseases, *DIAGNOSIS, *TUMOR treatment, CENTRAL nervous system tumors

Abstract

Since the launch of our journal as Nature Clinical Practice Neurology in 2005, we have seen remarkable progress in many areas of neurology research, but what does the future hold? Will advances in basic research be translated into effective disease-modifying therapies, and will personalized medicine finally become a reality? For this special Viewpoint article, we invited a panel of Advisory Board members and other journal contributors to outline their research priorities and predictions in neurology for the next 10 years. [ABSTRACT FROM AUTHOR]

Published

2015

4. Imaging selective vulnerability in the developing nervous system.

Author

Ferriero, Donna M. and Miller, Steven P.

Subjects

*NERVOUS system, *CELL populations, *NEURONS, *PREGNANCY, *OXIDATIVE stress

Abstract

Why do cells in the central nervous system respond differently to different stressors and why is this response so age-dependent? In the immature brain, there are regions of selective vulnerability that are predictable and depend on the age when the insult occurs and the severity of the insult. This damage is both region and cell population specific. Vulnerable cell populations include the subplate neurons and oligodendrocyte precursors early in development and the neurons closer to the end of human gestation. Mechanisms of injury include excitotoxicity, oxidative stress and inflammation as well as accelerated apoptosis. Advanced imaging techniques have shown us particular patterns of injury according to age at insult. These changes seen in the newborn at the time of injury on magnetic resonance imaging correlate well with the neurodevelopmental outcome. New questions about how the injury evolves and how the newborn brain adapts and repairs itself have emerged as we now know that injury in the newborn brain can evolve over days and weeks, rather than hours. The ability to follow these processes has allowed us to investigate the role of repair in attenuating the injury. Neurogenesis and angiogenesis exist in response to ischemic injury and can be enhanced by processes that are known to protect the brain. The injury response in the developing brain is a complex process that evolves over time and is amenable to repair. [ABSTRACT FROM AUTHOR]

Published

2010

5. From selective vulnerability to connectivity: insights from newborn brain imaging

Author

Miller, Steven P. and Ferriero, Donna M.

Subjects

*BRAIN imaging, *NEWBORN infant development, *MEDICAL informatics, *BRAIN injuries, *ANIMAL models in research, *BRAIN physiology

Abstract

The ability to image the newborn brain during development has provided new information regarding the effects of injury on brain development at different vulnerable time periods. Studies in animal models of brain injury correlate beautifully with what is now observed in the human newborn. We now know that injury at term primarily results in grey matter injury while injury in the premature brain predominantly results in a pattern of white matter injury, though recent evidence suggests a blurring of this distinction . These injuries affect how the brain matures subsequently and again, imaging has led to new insights that allow us to match function and structure. This review will focus on these patterns of injury that are so crucially determined by age at insult. In addition, this review will highlight how the brain responds to these insults with changes in connectivity that have profound functional consequences. [Copyright &y& Elsevier]

Published

2009

6. Therapeutics for neonatal brain injury

Author

Gonzalez, Fernando F. and Ferriero, Donna M.

Subjects

*HYPOXEMIA, *INFLUENCE of altitude, *ASPHYXIA, *HEMOGLOBINS

Abstract

Abstract: Neonatal brain injury is an important cause of death and neurodevelopmental delay. Multiple pathways of oxidant stress, inflammation, and excitotoxicity lead to both early and late phases of cell damage and death. Therapies targeting these different pathways have shown potential in protecting the brain from ongoing injury. More recent therapies, such as growth factors, have demonstrated an ability to increase cell proliferation and repair over longer periods of time. Even though hypothermia, which decreases cerebral metabolism and possibly affects other mechanisms, may show some benefit in particular cases, no widely effective therapeutic interventions for human neonates exist. In this review, we summarize recent findings in neuroprotection and neurogenesis for the immature brain, including combination therapy to optimize repair. [Copyright &y& Elsevier]

Published

2008

7. Models of Cerebral Palsy: Which Ones Are Best?

Author

Johnston, Michael V., Ferriero, Donna M., Vannucci, Susan J., and Hagberg, Henrik

Subjects

*CEREBRAL palsy, *ANIMAL models in research, *DEVELOPMENTAL disabilities, *BRAIN damage, *PARALYSIS, *THERAPEUTICS, *HYPOTHERMIA, *INFLAMMATION, *BODY temperature

Abstract

The article presents a summary of the strengths and weaknesses in experimental models of cerebral palsy, to determine which is more relevant in reducing the impact of the disorder in children. The rodent, ovine and piglet models of asphyxia validated the delayed cascade of injury after asphyxia. The hypothermia model may be a useful therapy in the reduction of death and disability. Inflammation is also important in understanding the initiation of premature labor.

Published

2005

8. Protecting Neurons.

Author

Ferriero, Donna M.

Subjects

*BRAIN injuries, *NEURONS, *OXIDATIVE stress, *CELL death, *CEREBRAL anoxia, *CEREBROVASCULAR disease

Abstract

Brain injury evolves over time, often taking days or even weeks to fully develop. It is a dynamic process that involves immediate oxidative stress and excitotoxicity followed by inflammation and preprogrammed cell death. This article presents a brief overview of mechanisms of neuroprotection in the developing brain. Although the focus is on ischemic injury, the conclusions drawn apply to any type of brain insult—epileptic seizures, trauma, or ischemia. Strategies of neuroprotection include salvaging neurons through the use of targeted pharmacotherapies, protecting neurons through preconditioning, and repairing neurons by enhancing neurogenesis. Drug therapies that dampen the impact of immediate and downstream postinjury events are only modestly effective in protecting the brain from ischemic injury. In experimental models, complete or true protection can be achieved only through preconditioning, a process during which an animal develops tolerance to an otherwise lethal stressor. Although of no clinical use, preconditioning models have provided valuable insight into how repair systems work in the brain. Cumulative evidence indicates that the same genes that are upregulated during preconditioning, those mediating true protection, are also upregulated during injury and repair. Specifically, hypoxic preconditioning and hypoxic-ischemic insult have been shown to induce hypoxia inducible factor-1 (HIF-1) and its target survival genes, vascular endothelial growth factor (VEGF), and erythropoietin (Epo) in rodents. Of particular interest is the upregulation of Epo, a growth factor that may have therapeutic potential in the treatment of ischemic stroke. At this time, however, the postinjury enhancement of neurogenesis appears to offer the best hope for long-lasting functional recovery following brain injury. [ABSTRACT FROM AUTHOR]

Published

2005

9. Selective vulnerability in the developing central nervous system

Author

McQuillen, Patrick S. and Ferriero, Donna M.

Subjects

*CENTRAL nervous system, *NEURONS, *THALAMUS, *NITRIC oxide

Abstract

Selective patterns of cerebral injury are observed after a variety of insults at different ages during development. Distinct populations of cells demonstrate selective vulnerability during these specific developmental stages, which may account for the observed patterns of injury. We review the evidence that injury to preoligodendrocytes and subplate neurons contributes to periventricular white matter injury in preterm infants, whereas thalamic neuronal cell vulnerability and neuronal nitric oxide synthase–expressing striatal interneurons resistance result in deep gray nuclei damage in the term infant. The unique roles of particular mechanisms including oxidative stress, glutamatergic neurotransmission, and programmed cell death are discussed in the context of this selective vulnerability. [Copyright &y& Elsevier]

Published

2004

10. Neonatal encephalopathy in the term infant: Neuroimaging and inflammatory cytokines.

Author

Foster-Barber, Andrey and Ferriero, Donna M.

Subjects

*CYTOKINES, *INFLAMMATION, *ISCHEMIA, *NERVOUS system, *INFECTION, *INFANTS

Abstract

The interrelationship between inflammation and ischemia is complex and poorly understood in the developing nervous system. In the preterm newborn, maternal infection may predispose to white matter injury and may be associated with cytokine elevation. In the term infant, few studies exist linking elevation of cytokines with encephalopathy and poor neurodevelopmental outcome. This review discusses the interplay among inflammatory cytokines, neonatal encephalopathy, and neuroimaging parameters. MRDD Research Reviews 2002;8:20–24. © 2002 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2002

11. Efferocytosis Mediated Modulation of Injury after Neonatal Brain Hypoxia-Ischemia.

Author

Mike, Jana Krystofova, Ferriero, Donna Marie, and Thornton, Claire

Subjects

*CHILDREN with disabilities, *NEURODEGENERATION, *WOUNDS & injuries, *NEURAL development

Abstract

Neonatal brain hypoxia-ischemia (HI) is a leading cause of morbidity and long-term disabilities in children. While we have made significant progress in describing HI mechanisms, the limited therapies currently offered for HI treatment in the clinical setting stress the importance of discovering new targetable pathways. Efferocytosis is an immunoregulatory and homeostatic process of clearance of apoptotic cells (AC) and cellular debris, best described in the brain during neurodevelopment. The therapeutic potential of stimulating defective efferocytosis has been recognized in neurodegenerative diseases. In this review, we will explore the involvement of efferocytosis after a stroke and HI as a promising target for new HI therapies. [ABSTRACT FROM AUTHOR]

Published

2021

12. Have the Annals editors added value?

Author

Johnston, S. Claiborne, Ferriero, Donna M., Josephson, S. Andrew, Lowenstein, Daniel H., Messing, Robert O., Oksenberg, Jorge, Stewart, Adam, and Hauser, Stephen L.

Published

2013

13. Paediatric neurology: improved care of the developing brain

Author

Miller, Steven P and Ferriero, Donna M

Published

2013

14. Progress report on the Annals.

Author

Stewart, Adam F., Ferriero, Donna M., Lowenstein, Daniel H., Messing, Robert O., Oksenberg, Jorge R., Johnston, S. Claiborne, and Hauser, Stephen L.

Published

2009

15. Off-Label Use of Antiepileptic Drugs for the Treatment of Neonatal Seizures

Author

Silverstein, Faye S. and Ferriero, Donna M.

Subjects

*PHYSICIANS, *CLINICAL drug trials, *PSYCHIATRISTS, *PEDIATRICS

Abstract

Medically refractory neonatal seizures represent a major therapeutic challenge in neonatal intensive care units. Conventional antiepileptic drugs demonstrate limited efficacy. Previous studies documented a high frequency of off-label drug therapy in neonates. We sought to determine if pediatric neurologists are recommending treatment of neonatal seizures with newer agents, despite a lack of information about their safety or efficacy in this population. Surveys were distributed at the 2007 Annual Meeting of the Child Neurology Society. Responses from 55 pediatric neurologists were analyzed. Seventy-three percent (40/55) recommended treatment of neonatal seizures with one or both of levetiracetam and topiramate; 47% (26/55) recommended levetiracetam; and 55% (30/55) recommended topiramate. Despite an absence of data on neonatal pharmacokinetics of either drug, neurologists made different dosing recommendations for these two drugs (P = 0.003, chi-square test). Respondents considered both agents to be efficacious in the majority of cases; adverse effects were recognized more frequently with topiramate. These results highlight the urgent need for rigorous clinical trials to understand the risks and benefits of new drug therapies for neonatal seizures. [Copyright &y& Elsevier]

Published

2008

16. In Memoriam: Bruce O. Berg, MD, 1931 to 2016.

Author

Swaiman, Kenneth F. and Ferriero, Donna M.

Subjects

*PEDIATRIC neurology

Published

2017

17. Correspondence on "Recognition and Management of Delirium in the Neonatal Intensive Care Unit: Case Series From a Single-Center Level IV Intensive Care Unit".

Author

Chavez-Valdez, Raul, Northington, Frances J., Sharp, April, Burton, Vera J., Lammert, Dawn B., Jantzie, Lauren L., Robinson, Shenandoah, Stafstrom, Carl E., Ferriero, Donna, Gano, Dawn, Numis, Adam, Gerner, Gwendolyn, Scafidi, Joseph, Gilmore, Maureen, Allen, Marilee C., Hilberg, Michelle, and Parkinson, Charlamaine

Subjects

*NEONATAL intensive care units, *PREMATURE infants, *BIOCHEMICAL substrates, *SECOND messengers (Biochemistry), *PEDIATRIC intensive care, *INTRAVENTRICULAR hemorrhage, *ENTEROCOLITIS

Abstract

This document is a letter written by a group of medical professionals expressing their concerns about an article titled "Recognition and Management of Delirium in the Neonatal Intensive Care Unit: Case Series From a Single-Center Level IV Intensive Care Unit." The authors of the letter raise concerns about the scientific premise, neurobiological assumptions, robustness of methods, and validity of the conclusions presented in the article. They argue that the diagnostic tools for delirium used in the article have not been adequately validated in the neonatal or infant population, and they caution against the use of antipsychotic medications in neonates and premature infants without robust preclinical and clinical data supporting their use. [Extracted from the article]

Published

2024

18. The Evolution of Child Neurology Training.

Author

Ferriero, Donna M. and Pomeroy, Scott L.

Subjects

*PEDIATRIC neurology, *HEALTH programs, *NEUROLOGISTS, *NEUROLOGICAL disorders, *THERAPEUTICS, *TRAINING

Published

2017

19. 21st Century Research in Child Neurology.

Author

Gressens, Pierre and Ferriero, Donna M.

Subjects

*PEDIATRIC neurology research, *DEVELOPMENTAL neurobiology, *COGNITIVE neuroscience, *SOCIAL sciences, *CHILD psychiatry

Published

2016

20. 781: ARGINASE EXPRESSION CHANGES AS A RESPONSE TO NEONATAL HYPOXIC-ISCHEMIC BRAIN INJURY.

Author

Krystofova, Jana, Ferriero, Donna, and Sheldon, Ann

Subjects

*BRAIN injuries, *ARGINASE, *ISOFLURANE, *EXPRESSIVE behavior

Abstract

B Learning Objectives: b A critical determinant of neuronal survival after hypoxic-ischemic brain injury (HI) is the degree of secondary injury, induced by inflammation and oxidative stress. Given that arginases are among the fastest responders to hypoxia-ischemia and key regulatory enzymes of many inflammatory states, understanding the arginase pathway provides an attractive opportunity to develop novel therapies and improve outcome. [Extracted from the article]

Published

2019

21. Obituary: Bruce O. Berg, MD, January 2, 1931-October 5, 2016.

Author

Ferriero, Donna

Published

2017

22. Hypoxia-inducible factor: role in cell survival in superoxide dismutase overexpressing mice after neonatal hypoxia-ischemia.

Author

Ga Won Jeon, Sheldon, R. Ann, and Ferriero, Donna M.

Subjects

*HYPOXIA-inducible factors, *SUPEROXIDE dismutase, *CELL death, *SPECTRIN, *THERAPEUTIC hypothermia

Abstract

Background: Sixty percent of infants with severe neonatal hypoxic-ischemic encephalopathy die, while most survivors have permanent disabilities. Treatment for neonatal hypoxic-ischemic encephalopathy is limited to therapeutic hypothermia, but it does not offer complete protection. Here, we investigated whether hypoxia-inducible factor (HIF) promotes cell survival and suggested neuroprotective strategies. Purpose: HIF-1α-deficient mice have increased brain injury after neonatal hypoxia-ischemia (HI), and the role of HIF-2α in HI is not well characterized. Copper-zinc superoxide dismutase (SOD)1 overexpression is not beneficial in neonatal HI. The expression of HIF-1α and HIF-2α was measured in SOD1 overexpressing mice and compared to wild-type littermates to see if alteration in expression explains this lack of benefit. Methods: On postnatal day 9, C57Bl/6 mice were subjected to HI, and protein expression was measured by western blotting in the ipsilateral cortex of wild-type and SOD1 overexpressing mice to quantify HIF-1α and HIF-2α. Spectrin expression was also measured to characterize the mechanism of cell death. Results: HIF-1α protein expression did not significantly change after HI injury in the SOD1-overexpressing or wild-type mouse cortex. However, HIF-2α protein expression increased 30 minutes after HI injury in the wild-type and SOD1-overexpressing mouse cortex and decreased to baseline value at 24 hours after HI injury. Spectrin 145/150 expression did not significantly change after HI injury in the SOD1- overexpressing or wild-type mouse cortex. However, spectrin 120 expression increased in both wild-type and SOD1-overexpressing mouse at 4 hours after HI, which decreased by 24 hours, indicating a greater role of apoptotic cell death. Conclusion: HIF-1α and HIF-2α may promote cell survival in neonatal HI in a cell-specific and regional fashion. Our findings suggest that early HIF-2α upregulation precedes apoptotic cell death and limits necrotic cell death. However, the influence of SOD was not clarified; it remains an intriguing factor in neonatal HI. [ABSTRACT FROM AUTHOR]

Published

2019

23. Training the next generation of child neurologists - A Neuroscience based approach.

Author

Ferriero, Donna M. and Pomeroy, Scott

Published

2011

24. Supply does not satisfy demand in child neurology.

Author

Ferriero, Donna M. and Stephen L. Hauser

Published

2010

25. Controversies and Advances in Neonatal Neurology: Introduction

Author

Ferriero, Donna M.

Published

2009

26. Controversies and advances in neonatal neurology: introduction. Introduction.

Author

Ferriero, Donna M

Subjects

*NEONATOLOGY, *NEUROLOGY

Published

2009

27. Response

Author

Tsuchida, Tammy N. and Ferriero, Donna M.

Published

2007

28. Hemolytic Uremic Syndrome Associated with Kawasaki Disease.

Author

Ferriero, Donna M. and Wolfsdorf, Joseph I.

Subjects

*KIDNEY diseases, *MUCOCUTANEOUS lymph node syndrome, *JUVENILE diseases

Abstract

Abstract. Renal failure has not previously been described as a manifestation of Kawasaki disease. We report a 2 10/12-year-old girl with Kawasaki disease in whom the clinical picture of hemolytic uremic syndrome occurred during the acute phase of her illness. Pediatrics 68:405406, 1981; kidney, hemolytic uremic syndrome, Kawasaki disease, vasculitis. [ABSTRACT FROM AUTHOR]

Published

1981

29. Using Neonatal Magnetic Resonance Imaging to Predict Gross Motor Disability at Four Years in Term-Born Children With Neonatal Encephalopathy.

Author

Lambing, Hannah, Gano, Dawn, Li, Yi, Bach, Ashley M., Girvan, Olivia, Rogers, Elizabeth E., Ferriero, Donna M., Barkovich, A. James, Xu, Duan, McCulloch, Charles E., and Glass, Hannah C.

Subjects

*MAGNETIC resonance imaging, *RECEIVER operating characteristic curves, *DISABILITIES, *BRAIN diseases, *BRAIN injuries

Abstract

Children with neonatal encephalopathy (NE) are at risk for basal ganglia/thalamus (BG/T) and watershed patterns of brain injury. Children with BG/T injury are at high risk for motor impairment in infancy, but the predictive validity of a published rating scale for outcome at age four years is not known. We examined a cohort of children with NE and magnetic resonance imaging (MRI) to examine the relationship between BG/T injury and severity of cerebral palsy (CP) in childhood. Term-born neonates at risk for brain injury due to NE were enrolled from 1993 to 2014 and received MRI within two weeks of birth. Brain injury was scored by a pediatric neuroradiologist. The Gross Motor Function Classification System (GMFCS) level was determined at four years. The relationship between BG/T injury and dichotomized GMFCS (no CP or GMFCS I to II = none/mild versus III to V = moderate/severe CP) was evaluated with logistic regression, and predictive performance was assessed by cross-validated area under the receiver operating characteristic curve (AUROC). Among 174 children, higher BG/T scores were associated with more severe GMFCS level. Clinical predictors had a low AUROC (0.599), compared with that of MRI (0.895). Risk of moderate to severe CP was low (<20%) in all patterns of brain injury except BG/T = 4, which carried a 67% probability (95% confidence interval 36% to 98%) of moderate to severe CP. The BG/T injury score can be used to predict the risk and severity of CP at age four years and thereby inform early developmental interventions. [ABSTRACT FROM AUTHOR]

Published

2023

30. Fighting decision fatigue.

Author

Stewart, Adam F., Ferriero, Donna M., Josephson, S. Andrew, Lowenstein, Daniel H., Messing, Robert O., Oksenberg, Jorge R., Johnston, S. Claiborne, and Hauser, Stephen L.

Published

2012

31. Correspondence on ‘‘Clinical Seizures in Neonatal Hypoxic-Ischemic Encephalopathy Have No Independent Impact on Neurodevelopmental Outcome: Secondary Analyses of Data From the Neonatal Research Network Hypothermia Trial’’.

Author

Glass, Hannah C., Ferriero, Donna M., and Miller, Steven P.

Subjects

*LETTERS to the editor, *INFANTILE spasms

Abstract

A letter to the editor is presented in response to the article "Clinical Seizures in neonatal hypoxic-ischemic encephalopathy have no independent impact on neurodevelopmental outcome: secondary analyses of data from the Neonatal Research Network Hypothermia Trial," by J. M. Kwon and colleagues in the 2011 issue.

Published

2011

32. Neonatal Brain Injury.

Author

Ferriero, Donna M.

Subjects

*BRAIN injuries, *NEWBORN infants' injuries, *TECHNOLOGICAL innovations, *CEREBROVASCULAR disease, *BRAIN damage, *BIOLOGY, *THERAPEUTICS, *RESEARCH

Abstract

Focuses on the clinical investigation of neonatal brain injury and examines technological innovations in imaging and biology that may affect therapeutic interventions. Rate of mortality in infants under the age of one who suffer status epilepticus and stroke; Diseases that affect childhood victims of stroke in adult life; View that a greater understanding of childhood brain injury may provide opportunities to intervene therapeutically.

Published

2004

33. Recognizing and Responding to the Needs of Future Child and Adult Neurology Care Through the Evolution of Residency Training.

Author

McArthur, Justin Charles, Augustine, Erika F., Carmichael, S. Thomas, Ferriero, Donna M., Jensen, Frances E., Jeste, Shafali S., Jordan, Lori C., Llinas, Rafael H., Schlaggar, Bradley L., Sun, Lisa R., and Pomeroy, Scott L.

Subjects

*TRAINING of medical residents, *NEUROLOGICAL disorders, *NEUROLOGY, *NEUROLOGISTS, *TRAINING needs

Abstract

Recent insights into the frequency of occurrence and the genetic and mechanistic basis of nervous system disease have demonstrated that neurologic disorders occur as a spectrum across all ages. To meet future needs of patients with neurologic disease of all ages and prepare for increasing implementaton of precision therapies, greater integration of child and adult neurology residency training is needed. ANN NEUROL 2023;94:1005–1007 [ABSTRACT FROM AUTHOR]

Published

2023

34. Delayed erythropoietin therapy improves histological and behavioral outcomes after transient neonatal stroke.

Author

Larpthaveesarp, Amara, Georgevits, Margaret, Ferriero, Donna M., and Gonzalez, Fernando F.

Subjects

*ERYTHROPOIETIN, *STROKE diagnosis, *WESTERN immunoblotting, *BRAIN injury treatment, *CELL death, *LABORATORY rats

Abstract

Background and purpose Stroke is a major cause of neonatal morbidity, often with delayed diagnosis and with no accepted therapeutic options. The purpose of this study is to investigate the efficacy of delayed initiation of multiple dose erythropoietin (EPO) therapy in improving histological and behavioral outcomes after early transient ischemic stroke. Methods 32 postnatal day 10 (P10) Sprague-Dawley rats underwent sham surgery or transient middle cerebral artery occlusion (tMCAO) for 3 h, resulting in injury involving the striatum and parieto-temporal cortex. EPO (1000 U/kg per dose × 3 doses) or vehicle was administered intraperitoneally starting one week after tMCAO (at P17, P20, and P23). At four weeks after tMCAO, sensorimotor function was assessed in these four groups (6 vehicle-sham, 6 EPO-sham, 10 vehicle-tMCAO and 10 EPO-tMCAO) with forepaw preference in cylinder rearing trials. Brains were then harvested for hemispheric volume and Western blot analysis. Results EPO-tMCAO animals had significant improvement in forepaw symmetry in cylinder rearing trials compared to vehicle-tMCAO animals, and did not differ from sham animals. There was also significant preservation of hemispheric brain volume in EPO-tMCAO compared to vehicle-tMCAO animals. No differences in ongoing cell death at P17 or P24 were noted by spectrin cleavage in either EPO-tMCAO or vehicle-tMCAO groups. Conclusions These results suggest that delayed EPO therapy improves both behavioral and histological outcomes at one month following transient neonatal stroke, and may provide a late treatment alternative for early brain injury. [ABSTRACT FROM AUTHOR]

Published

2016

35. Microstructural maturation of white matter tracts in encephalopathic neonates.

Author

Kansagra, Akash P., Mabray, Marc C., Ferriero, Donna M., Barkovich, A. James, Xu, Duan, and Hess, Christopher P.

Subjects

*HYPERTENSIVE encephalopathy, *WHITE matter (Nerve tissue), *MICROSTRUCTURE, *NEONATAL diseases, *ANISOTROPY, *MAGNETIC resonance imaging of the brain, *DIAGNOSIS

Abstract

Purpose This study aims to apply neurite orientation dispersion and density imaging (NODDI) to measure white matter microstructural features during early development. Methods NODDI parameters were measured in twelve newborns and thirteen 6-month infants, all with perinatal clinical encephalopathy. Results Between 0 and 6 months, there were significant differences in fractional anisotropy (FA) for all tracts; in neurite density for internal capsules, optic radiations, and splenium; and in orientation dispersion for anterior limb of internal capsule and optic radiations. There were no appreciable differences in NODDI parameters related to outcome. Conclusion NODDI may allow more detailed characterization of microstructural maturation than FA. [ABSTRACT FROM AUTHOR]

Published

2016

36. Growth Factors for the Treatment of Ischemic Brain Injury (Growth Factor Treatment).

Author

Larpthaveesarp, Amara, Gonzalez, Fernando F., and Ferriero, Donna M.

Subjects

*BRAIN injury treatment, *CEREBRAL ischemia, *ERYTHROPOIETIN, *VASCULAR endothelial growth factors, *BRAIN-derived neurotrophic factor

Abstract

In recent years, growth factor therapy has emerged as a potential treatment for ischemic brain injury. The efficacy of therapies that either directly introduce or stimulate local production of growth factors and their receptors in damaged brain tissue has been tested in a multitude of models for different Central Nervous System (CNS) diseases. These growth factors include erythropoietin (EPO), vascular endothelial growth factor (VEGF), brain-derived neurotrophic factor (BDNF), and insulin-like growth factor (IGF-1), among others. Despite the promise shown in animal models, the particular growth factors that should be used to maximize both brain protection and repair, and the therapeutic critical period, are not well defined. We will review current pre-clinical and clinical evidence for growth factor therapies in treating different causes of brain injury, as well as issues to be addressed prior to application in humans. [ABSTRACT FROM AUTHOR]

Published

2015

37. The role of inflammation in perinatal brain injury.

Author

Hagberg, Henrik, Mallard, Carina, Ferriero, Donna M., Vannucci, Susan J., Levison, Steven W., Vexler, Zinaida S., and Gressens, Pierre

Subjects

*INFLAMMATION, *FETAL brain, *IMMUNITY, *PATHOLOGY, *WOUNDS & injuries

Abstract

Inflammation is increasingly recognized as being a critical contributor to both normal development and injury outcome in the immature brain. The focus of this Review is to highlight important differences in innate and adaptive immunity in immature versus adult brain, which support the notion that the consequences of inflammation will be entirely different depending on context and stage of CNS development. Perinatal brain injury can result from neonatal encephalopathy and perinatal arterial ischaemic stroke, usually at term, but also in preterm infants. Inflammation occurs before, during and after brain injury at term, and modulates vulnerability to and development of brain injury. Preterm birth, on the other hand, is often a result of exposure to inflammation at a very early developmental phase, which affects the brain not only during fetal life, but also over a protracted period of postnatal life in a neonatal intensive care setting, influencing critical phases of myelination and cortical plasticity. Neuroinflammation during the perinatal period can increase the risk of neurological and neuropsychiatric disease throughout childhood and adulthood, and is, therefore, of concern to the broader group of physicians who care for these individuals. [ABSTRACT FROM AUTHOR]

Published

2015

38. A Machine Learning Approach to Automated Structural Network Analysis: Application to Neonatal Encephalopathy.

Author

Ziv, Etay, Tymofiyeva, Olga, Ferriero, Donna M., Barkovich, A. James, Hess, Chris P., and Xu, Duan

Subjects

*MACHINE learning, *BRAIN diseases, *NEONATAL diseases, *DEVELOPMENTAL disabilities, *NEUROLOGICAL disorders, *BRAIN imaging, *HEALTH outcome assessment

Abstract

Neonatal encephalopathy represents a heterogeneous group of conditions associated with life-long developmental disabilities and neurological deficits. Clinical measures and current anatomic brain imaging remain inadequate predictors of outcome in children with neonatal encephalopathy. Some studies have suggested that brain development and, therefore, brain connectivity may be altered in the subgroup of patients who subsequently go on to develop clinically significant neurological abnormalities. Large-scale structural brain connectivity networks constructed using diffusion tractography have been posited to reflect organizational differences in white matter architecture at the mesoscale, and thus offer a unique tool for characterizing brain development in patients with neonatal encephalopathy. In this manuscript we use diffusion tractography to construct structural networks for a cohort of patients with neonatal encephalopathy. We systematically map these networks to a high-dimensional space and then apply standard machine learning algorithms to predict neurological outcome in the cohort. Using nested cross-validation we demonstrate high prediction accuracy that is both statistically significant and robust over a broad range of thresholds. Our algorithm offers a novel tool to evaluate neonates at risk for developing neurological deficit. The described approach can be applied to any brain pathology that affects structural connectivity. [ABSTRACT FROM AUTHOR]

Published

2013

39. Perinatal Cerebellar Injury in Human and Animal Models.

Author

Biran, Valerie, Verney, Catherine, and Ferriero, Donna M.

Subjects

*BRAIN injuries, *PATIENTS, *FETAL brain, *ANIMAL models in research, *BRAIN imaging, *PREMATURE infant diseases, *NEUROLOGICAL disorders, *MOVEMENT disorders in infants, *MARASMUS, *WOUNDS & injuries

Abstract

Cerebellar injury is increasingly recognized through advanced neonatal brain imaging as a complication of premature birth. Survivors of preterm birth demonstrate a constellation of long-term neurodevelopmental deficits, many of which are potentially referable to cerebellar injury, including impaired motor functions such as fine motor incoordination, impaired motor sequencing and also cognitive, behavioral dysfunction among older patients. This paper reviews the morphogenesis and histogenesis of the human and rodent developing cerebellum, and its more frequent injuries in preterm. Most cerebellar lesions are cerebellar hemorrhage and infarction usually leading to cerebellar abnormalities and/or atrophy, but the exact pathogenesis of lesions of the cerebellum is unknown. The different mechanisms involved have been investigated with animal models and are primarily hypoxia, ischemia, infection, and inflammation Exposure to drugs and undernutrition can also induce cerebellar abnormalities. Different models are detailed to analyze these various disturbances of cerebellar development around birth. [ABSTRACT FROM AUTHOR]

Published

2012

40. Cerebrovascular Disease in Children: Recent Advances in Diagnosis and Management.

Author

Bowers, Karen J., deVeber, Gabrielle A., Ferriero, Donna M., Roach, E. Steve, Vexler, Zinaida S., and Maria, Bernard L.

Subjects

*CEREBROVASCULAR disease in children, *DIAGNOSTIC imaging, *CEREBROVASCULAR disease diagnosis, *THERAPEUTIC hypothermia, *THERAPEUTICS

Abstract

The article focuses on the recent advances in the diagnosis and management of cerebrovascular disease (CVD) in children. It says that new diagnostic imaging techniques help practitioners do an accurate and quick identification of CVD in children. It presents insights from doctor Gabrielle deVeber on the initial treatment and diagnosis of pediatric stroke and how it differs with adult stroke. Furthermore, the role of hypothermia as a treatment method for pediatric stroke is discussed.

Published

2011

41. Status report: The Annals in 2010.

Author

Hauser, Stephen L., Johnston, S. Claiborne, Ferriero, Donna M., Lowenstein, Daniel H., Josephson, S. Andrew, Messing, Robert O., Oksenberg, Jorge R., and Stewart, Adam F.

Published

2010

42. Injury to the Preterm Brain and Cerebral Palsy: Clinical Aspects, Molecular Mechanisms, Unanswered Questions, and Future Research Directions.

Author

Babcock, Michael A., Kostova, Felina V., Ferriero, Donna M., Johnston, Michael V., Brunstrom, Jan E., Hagberg, Henrik, and Maria, Bernard L.

Subjects

*BRAIN damage, *CEREBRAL palsy, *NEWBORN infants, *NERVOUS system abnormalities, *HISTOLOGY, *CHILD care, *THERAPEUTICS, *AMERICAN children

Abstract

Cerebral palsy will affect nearly 10% of the 60 000 very low-birth-weight infants born in the United States in the next year, and an even greater percentage will display some form of permanent neurological impairment resulting from injury to the preterm brain. The 2008 Neurobiology of Disease in Children Symposium, held in conjunction with the 37th annual meeting of the Child Neurology Society, aimed to define current knowledge and to develop specific aims for future clinical, translational, and fundamental science. A complex interplay of both destructive and developmental forces is responsible for injury to the preterm brain. Advances in imaging and histology have implicated a variety of cell types, though preoligodendrocyte injury remains the focus. Research into different mechanisms of injury is facilitating new neuroprotective and rehabilitative interventions. A cooperative effort is necessary to translate basic research findings into clinically effective therapies and better care for these children. [ABSTRACT FROM AUTHOR]

Published

2009

43. Genetic and pharmacologic manipulation of oxidative stress after neonatal hypoxia-ischemia

Author

Sheldon, R. Ann, Christen, Stephan, and Ferriero, Donna M.

Subjects

*ISCHEMIA, *REACTIVE oxygen species, *NITRIC oxide, *BLOOD circulation disorders

Abstract

Abstract: Oxidative stress is a critical component of the injury response to hypoxia-ischemia (HI) in the neonatal brain, and this response is unique and at times paradoxical to that seen in the mature brain. Previously, we showed that copper-zinc superoxide-dismutase (SOD1) over-expression is not beneficial to the neonatal mouse brain with HI injury, unlike the adult brain with ischemic injury. However, glutathione peroxidase 1 (GPx1) over-expression is protective to the neonatal mouse brain with HI injury. To further test the hypothesis that an adequate supply of GPx is critical to protection from HI injury, we crossed SOD1 over-expressing mice (hSOD-tg) with GPx1 over-expressing mice (hGPx-tg). Resulting litters contained wild-type (wt), hGPx-tg, hSOD-tg and hybrid hGPx-tg/hSOD-tg pups, which were subjected to HI at P7. Confirming previous results, the hGPx-tg mice had reduced injury compared to both Wt and hSOD-tg littermates. Neonatal mice over-expressing both GPx1 and SOD1 also had less injury compared to wt or hSOD-tg alone. A result of oxidative stress after neonatal HI is a decrease in the concentration of reduced (i.e. antioxidant-active) glutathione (GSH). In this study, we tested the effect of systemic administration of α-lipoic acid on levels of GSH in the cortex after HI. Although GSH levels were restored by 24h after HI, injury was not reduced compared to vehicle-treated mice. We also tested two other pharmacological approaches to reducing oxidative stress in hSOD-tg and wild-type littermates. Both the specific inhibitor of neuronal nitric oxide synthase, 7-nitroindazole (7NI), and the spin-trapping agent alpha-phenyl-tert-butyl-nitrone (PBN) did not reduce HI injury, however. Taken together, these results imply that H2O2 is a critical component of neonatal HI injury, and GPx1 plays an important role in the defense against this H2O2 and is thereby neuroprotective. [Copyright &y& Elsevier]

Published

2008

44. Ischemic Perinatal Stroke: Summary of a Workshop Sponsored by the National Institute of Child Health and Human Development and the National Institute of Neurological Disorders and Stroke.

Author

Raju, Tonse N. K., Nelson, Karin B., Ferriero, Donna, and Lynch, John Kylan

Subjects

*CHILD development, *PREGNANCY complications, *ISCHEMIA, *NEWBORN infants, *MENTAL illness, *BRAIN diseases

Abstract

Ischemic perinatal stroke is a disorder associated with significant long-term neurologic morbidity. With an estimated incidence of 1 in 2300 to 5000 births, stroke is more likely to occur in the perinatal period than at any time in childhood. The incidence of ischemic perinatal stroke ranks second only to that of strokes in the elderly population. Although ischemic perinatal stroke is a well-recognized disorder, many aspects remain to be studied. There is no consensus on its terminology, definition, or classification. Several risk factors have been identified, but their precise roles in causing stroke are not well understood. There are no reliable predictors of ischemic perinatal stroke on which to base prevention or treatment strategies. To review these important issues and propose a research agenda, the National Institute of Child Health and Human Development and the National Institute of Neurological Disorders and Stroke convened a workshop in August 2006. This article provides a summary of the workshop. [ABSTRACT FROM AUTHOR]

Published

2007

45. Induction of haem oxygenase-1 causes cortical non-haem iron increase in experimental pneumococcal meningitis: evidence that concomitant ferritin up-regulation prevents iron-induced oxidative damage.

Author

Ren, Hao, Leib, Stephen L., Ferriero, Donna M., Täuber, Martin G., and Christen, Stephan

Subjects

*DEFEROXAMINE, *NECROSIS, *MENINGITIS, *OXYGENASES, *HEME oxygenase, *CARRIER proteins, *FERRITIN, *BILIRUBIN

Abstract

Desferrioxamine inhibits cortical necrosis in neonatal rats with experimental pneumococcal meningitis, suggesting that iron-induced oxidative damage might be responsible for neuronal damage. We therefore examined the spatial and temporal profile of changes in cortical iron and iron homeostatic proteins during pneumococcal meningitis. Infection was associated with a steady and global increase of non-haem iron in the cortex, particularly in neuronal cell bodies of layer II and V, and in capillary endothelial cells. The non-haem iron increase was associated with induction of haem oxygenase (HO)-1 in neurones, microglia and capillary endothelial cells, whereas HO-2 levels remained unchanged, suggesting that the non-haem iron increase might be the result of HO-1-mediated haem degradation. Indeed, treatment with the haem oxygenase inhibitor tin protoporphyrin (which completely blocked the accumulation of bilirubin detected in HO-1-positive cells) completely prevented the infection-associated non-haem iron increase. The same cells also displayed markedly increased ferritin staining, the increase of which occurred independently of HO activity. At the same time, no increase in DNA/RNA oxidation was observed in infected animals (as assessed by in situ detection of 8-hydroxy[deoxy]guanosine), strongly suggesting that ferritin up-regulation protected the brain from iron-induced oxidative damage. Thus, although pneumococcal meningitis leads to an increase of cortical non-haem iron, protective mechanisms up-regulated in parallel prevent iron-induced oxidative damage. Cortical damage does not appear to be a direct consequence of increased iron, therefore. [ABSTRACT FROM AUTHOR]

Published

2007

46. Encephalopathy as a predictor of magnetic resonance imaging abnormalities in asphyxiated newborns

Author

Kaufman, Seth A., Miller, Steven P., Ferriero, Donna M., Glidden, David H., Barkovich, A. James, and Partridge, J. Colin

Subjects

*ASPHYXIA, *MAGNETIC resonance imaging

Abstract

Basal ganglia abnormalities on magnetic resonance imaging predict neurodevelopmental impairment in newborns with perinatal depression. We determined the value of a clinical encephalopathy score as a predictor of abnormal magnetic resonance imaging results in newborns with perinatal depression.We assigned a neonatal encephalopathy score to 101 newborns. The encephalopathy score, based on alertness, feeding, tone, respiratory status, reflexes, and seizure activity, was assigned once daily. The maximum score from the first 3 days of life was compared with abnormal magnetic resonance imaging results present globally or solely in the basal ganglia.Eighty-one percent of patients manifested abnormalities on any magnetic resonance imaging sequence, and 37% manifested abnormalities in the basal ganglia alone. The encephalopathy score correlated well with magnetic resonance imaging abnormalities in the basal ganglia (Spearman Rho = 0.335, P < 0.0001). Newborns with mild and severe encephalopathy had likelihood ratios of 0.41 and 7.4, respectively, for abnormal basal ganglia magnetic resonance imaging results. Newborns with moderate encephalopathy (composing 47% of the cohort) manifested basal ganglia abnormalities with a likelihood ratio of 0.785.Severe clinical encephalopathy correlates with abnormal basal ganglia magnetic resonance imaging results, and mild encephalopathy correlates with a normal magnetic resonance imaging result. However, standard clinical criteria do not alter the prior risk of abnormal basal ganglia magnetic resonance imaging results for newborns with moderate encephalopathy. [Copyright &y& Elsevier]

Published

2003

47. Traumatic Brain Injury in the Immature Mouse Brain: Characterization of Regional Vulnerability

Author

Tong, Winnie, Igarashi, Takuji, Ferriero, Donna M., and Noble, Linda J.

Subjects

*BRAIN degeneration, *MICE

Abstract

We characterized the regional and temporal patterns of neuronal injury and axonal degeneration after controlled cortical impact of moderate severity in mice at postnatal day 21. Animals were euthanized at 1, 3, or 7 days after injury or sham operation. The brains were removed and prepared for immunolocalization of neurons and microglia/macrophages or subjected to Fluoro-Jade and silver stains, indicators of irreversible neuronal cell injury and axonal degeneration. There was significant neuronal loss in both the ipsi- and the contralateral cortices, ipsilateral hippocampus, and ipsilateral thalamus by 7 days post injury compared to sham-operated animals. Activated microglia/macrophages were most prominent in regions of neuronal loss including the ipsilateral cortex, hippocampus, and thalamus. Neuronal injury, as evidenced by Fluoro-Jade labeling, was not apparent in sham-operated animals. In injured animals, labeling was identified in the ipsilateral cortex and hippocampus at 1 and 3 days post injury. Silver- and Fluoro-Jade-labeled degenerating axons were observed in the ipsilateral subcortical white matter by 1 day post injury, in the ipsilateral external capsule, caudate putamen, and contralateral subcortical white matter by 3 days post injury, and in the internal capsule, pyramidal tracts, and cerebellar peduncles by 7 days post injury. Our findings demonstrate that controlled cortical impact in the developing brain generates neuronal loss in both the ipsilateral and the contralateral cortex, a temporally distinct pattern of subcortical neuronal injury/death, and widespread white matter damage. These observations serve as an important baseline for studying human brain injury and optimizing therapies for the brain-injured child. [Copyright &y& Elsevier]

Published

2002

48. Neonatal presentation of genetic epilepsies: Early differentiation from acute provoked seizures.

Author

Cornet, Marie‐Coralie, Morabito, Valeria, Lederer, Damien, Glass, Hannah C., Ferrao Santos, Susana, Numis, Adam L., Ferriero, Donna M., Sands, Tristan T., and Cilio, Maria Roberta

Subjects

*EPILEPSY, *SEIZURES (Medicine), *INTENSIVE care units, *NEONATAL intensive care, *NEWBORN infants, *DIAGNOSIS

Abstract

Objective: Although most seizures in neonates are due to acute brain injury, some represent the first sign of neonatal onset genetic epilepsies. Delay in recognition and lack of expert assessment of neonates with epilepsy may result in worse developmental outcomes. As in older children and adults, seizure semiology in neonates is an essential determinant in diagnosis. We aimed to establish whether seizure type at presentation in neonates can suggest a genetic etiology. Methods: We retrospectively analyzed the clinical and electroencephalographic (EEG) characteristics of seizures in neonates admitted in two Level IV neonatal intensive care units, diagnosed with genetic epilepsy, for whom a video‐EEG recording at presentation was available for review, and compared them on a 1:2 ratio with neonates with seizures due to stroke or hypoxic–ischemic encephalopathy. Results: Twenty neonates with genetic epilepsy were identified and compared to 40 neonates with acute provoked seizures. Genetic epilepsies were associated with pathogenic variants in KCNQ2 (n = 12), KCNQ3 (n = 2), SCN2A (n = 2), KCNT1 (n = 1), PRRT2 (n = 1), and BRAT1 (n = 2). All neonates with genetic epilepsy had seizures with clinical correlates that were either tonic (18/20) or myoclonic (2/20). In contrast, 17 of 40 (42%) neonates with acute provoked seizures had electrographic only seizures, and the majority of the remainder had clonic seizures. Time to first seizure was longer in neonates with genetic epilepsies (median = 60 h of life) compared to neonates with acute provoked seizures (median = 15 h of life, p <.001). Sodium channel‐blocking antiseizure medications were effective in 13 of 14 (92%) neonates with tonic seizures who were trialed at onset or during the course of the epilepsy. Significance: Seizure semiology is an easily accessible sign of genetic epilepsies in neonates. Early identification of the seizure type can prompt appropriate workup and treatment. Tonic seizures are associated with channelopathies and are often controlled by sodium channel‐blocking antiseizure medications. [ABSTRACT FROM AUTHOR]

Published

2021

49. Serum 24S-hydroxycholesterol predicts long-term brain structural and functional outcomes after hypoxia-ischemia in neonatal mice.

Author

Lu, Fuxin, Fan, Shujuan, Romo, Andrea R, Xu, Duan, Ferriero, Donna M, and Jiang, Xiangning

Abstract

The major pathway of brain cholesterol turnover relies on its hydroxylation into 24S-hydroxycholesterol (24S-HC) using brain-specific cytochrome P450 46A1 (CYP46A1). 24S-HC produced exclusively in the brain normally traverses the blood-brain barrier to enter the circulation to the liver for excretion; therefore, the serum 24S-HC level is an indication of cholesterol metabolism in the brain. We recently reported an upregulation of CYP46A1 following hypoxia-ischemia (HI) in the neonatal mouse brain and a correlation between serum 24S-HC levels and acute brain damage. Here, we performed a longitudinal study to investigate whether the serum 24S-HC concentrations predict long-term brain structural and functional outcomes. In postnatal day 9 mice subjected to HI, the serum 24S-HC levels increased at 6 h and 24 h after HI and correlated with the infarct volumes measured histologically or by T2-weighted MRI. The 24 h levels were associated with white matter volume loss quantified by MBP immunostaining and luxol fast blue staining. The animals with higher serum 24S-HC at 6 h and 24 h corresponded to those with more severe motor and cognitive deficits at 35-40 days after HI. These data suggest that 24S-HC could be a novel and early blood biomarker for severity of neonatal HI brain damage and associated functional impairments. [ABSTRACT FROM AUTHOR]

Published

2021

50. Quo vadis? - peering into the future.

Author

Hauser, Stephen L., Johnston, S. Claiborne, Ferriero, Donna M., Josephson, S. Andrew, Lowenstein, Daniel H., Messing, Robert O., and Oksenberg, Jorge R.

Published

2013