Developmental neuropathology and impact of perinatal brain damage. III: gray matter lesions of the neocortex

J Neuropathol Exp Neurol. 1999 May;58(5):407-29. doi: 10.1097/00005072-199905000-00001.


The evolving neuropathology of primarily undamaged cortical regions adjacent to the injured site has been studied in 36 infants who survived a variety of perinatally acquired encephalopathies (microgyrias, ulegyrias, multicystic encephalopathies, porencephalies, and hydranencephalies) and later died of unrelated causes. Their survival times range from hours, days, weeks, or months, to several years. Ten of these children developed epilepsy, 2 developed cerebral palsy, and several were neurologically and mentally impaired. In all cases studied, the undamaged cortex adjacent to the injured site survives, retains its intrinsic vasculature, and is capable of continuing differentiation. However, its postinjury development is characterized by progressive alterations compatible with acquired cortical dysplasia that affects the structural and functional differentiation of its neurons, synaptic profiles, fiber distribution, glial elements, and vasculature. The synaptic profiles of many neurons are transformed by an increased number of intrinsic loci that replace extrinsic ones vacated by the destruction of afferent fibers. The intrinsic fibers of layer I and some Cajal-Retzius cells survive even in severe lesions and may be capable of interconnecting cortical regions that have lost other type of connections. Some intrinsic neurons undergo postinjury structural and functional hypertrophy, acquire new morphologic and functional features, and achieve a large size (meganeurons). Probably, these meganeurons acquire their structural and functional hypertrophy by partial endomitotic DNA and/or RNA reduplication (polyploidy). These postinjury alterations are not static but ongoing processes that continue to affect the structural and functional differentiation of the still developing cortex and may eventually influence the neurologic and cognitive maturation of affected children. This study proposes that, in acquired encephalopathies, the progressive postinjury reorganization of the undamaged cortex and its consequences (acquired cortical dysplasia), rather than the original lesion, represent the main underlying mechanism in the pathogenesis of ensuing neurological sequelae, such as, epilepsy, cerebral palsy, dyslexia, cognitive impairment, and/or poor school performance.

Publication types

  • Research Support, Non-U.S. Gov't
  • Research Support, U.S. Gov't, P.H.S.

MeSH terms

  • Acute Disease
  • Adolescent
  • Brain Ischemia / pathology*
  • Cell Size
  • Cerebral Palsy / pathology
  • Child
  • Child, Preschool
  • Chronic Disease
  • Cysts / pathology
  • Epilepsy / pathology
  • Follow-Up Studies
  • Gliosis / pathology
  • Humans
  • Hydrocephalus / pathology*
  • Infant
  • Infant, Newborn
  • Infant, Newborn, Diseases / pathology*
  • Neocortex / pathology*
  • Neurons / pathology