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Query: UMLS:C0025362 (mental retardation)
 15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many newborns who appear normal at birth later manifest substantial neurologic and other disease. Pathologists are able to explain some of that sad enigma. Placental pathology frequently reveals the pathogenesis of cerebral palsy, mental retardation, and other neurodevelopmental disorders. This requires recognition of gross placental abnormalities and insightful light microscopic examination. Chorioamnionitis is now proven to be the major cause of premature onset of labor and prematurity. There is important need for investigation of pathogenetic processes associated with ascending intrauterine infection. Major complications therein include bacterially mediated fetal hypoperfusion resulting from placental and umbilical vasocontraction. Placentas of 10% of newborns have villitis of unknown etiology. The importance of villitis is incompletely known. The fetus may discharge meconium on more than one occasion, particularly so when the fetus is postmature. Clinicians may not recognize that fetal discharge has occurred if the event occurred 4 days or more prior to delivery. Intra-amniotic meconium associated with oligohydramnios probably causes placental and umbilical vasocontraction. Meconium probably thus contributes to the pathogenesis of pulmonary vasoconstriction, persistent fetal circulation, necrotizing enterocolitis, and damage of the fetal brain, liver, and kidneys. Fetal hypoxia and asphyxia may be acutely or chronically acquired. Major placental lesions associated with neonatal asphyxia include chronic ischemic change, nucleated red blood cells, intravillous hemorrhages, intimal vascular fibrin cushions, meconium staining, and intervillous fibrin.
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PMID:Some placental considerations related to neurodevelopmental and other disorders. 844 76

Deficient information regarding placental pathology has compromised epidemiological investigations of cerebral palsy, mental retardation, and other diseases. This article reviews light microscopic signs of low placental blood flow, fetal nucleated red blood cells, villitis (villous inflammatory lesions), chorangiosis (placental villous capillary hypervascularity), meconium staining, and chorioamnionitis. These findings can be used with data of birth weight, head circumference, and length to document the duration of fetal disease. The article includes pathophysiological considerations; for example, chorioamnionitis and fetal meconium discharge may cause autacoids to produce fetal hypoperfusion of the fetal brain and other vital organs.
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PMID:Placental insights into neurodevelopmental and other childhood diseases. 942 36

Neonatal hypoglycemia (HG) can cause neurologic damage, epilepsy, mental retardation, behavioral and personality disorders and death. The longest the HG lasts and the greatest the glucose nadir the consequences are more pronounced. Comorbidities are rather important in development of neurological damage. Hypoxemia and ischemia can cause permanent brain damage. Small for gestational age (SGA), large for gestational age (LGA), intrauterine growth restriction, gestational age bellow the 37th week, low Apgar score, sepsis, children whose mothers have toxemia, diabetes or chorioamnionitis are all newborns with increased HG risk. Comparing 34 patients with NH and 34 children without NH with similar GA, BW, BL, the Apgar score, we found statistically significant differences in motor and mental development using the Griffith scale. Children with neonatal HG fared significantly worse than those without neonatal HG. Therefore, CBG measurements and early recognition of neonatal HG is of significant importance in preventing motor and mental damage in children. A larger and well-balanced cohort of patients followed for a longer period is also necessary to clarify and discern in detail the importance of neonatal HG and other perinatal factors in neurodevelopmental damage.
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PMID:Neuro Developmental Consequences of Neonatal Hypoglycemia. 3301 93