This special topic issue of 'Developmental Neuroscience' contains contributions discussing the subject in-depth. 'Developmental Neuroscience' is a well-respected, international peer-reviewed journal in Neurobiology. Special topic issues are included in the subscription.
Special Topic Developmental Neuroscience 2002, Vol. 24, No. 5 The immature brain is vulnerable to a number of prenatal and early postnatal stresses, such as maternal infection and birth asphyxia, which may produce permanent brain damage leading to neurological dysfunction in the survivors. The dysfunction depends on the developmental stage, as well as the type, severity and duration of the insult. Information obtained from human infants combined with data from several experimental animal models highlight the interaction of hypoxia-ischemia, excitotoxicity, oxidative stress, seizures, and inflammation on the pathophysiology of developmental brain injury and ultimate neurologic outcome. This special issue presents new insights from clinical and basic science research into the pathophysiology of these injuries and reports pre-clinical tests of new therapies to prevent them. Thus, it provides valuable information for developmental neuroscientists, both clinical and basic, who are involved in the study of the immature nervous system, its vulnerability and the consequences for neurologic development.
Special Topic Developmental Neuroscience 2001, Vol. 23, No. 3 The immature brain is vulnerable to a number of prenatal and early postnatal stresses, such as maternal infection and birth asphyxia, which produce permanent damage and serious neurologic dysfunction in the survivors. The papers in this special issue of Developmental Neuroscience represent current clinical and basic science research into the pathophysiology of perinatal brain injury. The neurologic dysfunction that results from perinatal injury depends on developmental stage, as well as the type, severity, and duration of the insult. Basic mechanisms of normal cerebral development thus form the background for the interpretation of subsequent injury. Information obtained from human infants, combined with that from several experimental animal models, highlight the interaction of hypoxia-ischemia, excitotoxicity, oxidative stress, seizures, and inflammation, on the pathophysiology of perinatal brain injury and ultimate neurologic outcome. This special issue will be of interest to all developmental neuroscientists, both clinical and basic, who are involved in the study of the immature nervous system, its vulnerability in hypoxic-ischemic, inflammatory, or excitotoxic injury, and the consequences for neurologic development. As the studies reported will impact obstetrical and neonatal care, this issue will also be of interest to obstetricians and neonatologists.