Abstract:Objective To investigate the incidence of different types of brain injury in preterm infants and their influencing factors. Methods The clinical data and head magnetic resonance imaging (MRI) findings of 239 preterm infants were collected, and the influence of antepartum, intrapartum, and postpartum factors on brain injury in preterm infants was analyzed. Results The incidence rate of brain injury in preterm infants was 25.5%; among these infants, 10.5% had hemorrhagic brain injury, 10.5% had ischemic brain injury, and 4.6% and hemorrhagic and ischemic brain injury. The infants with a lower gestational age had higher incidence rates of hemorrhagic brain injury and overall brain injury (P < 0.01). The incidence rates of ischemic brain injury and hemorrhagic and ischemic brain injury were not correlated with gestational age (P > 0.05). The incidence rates of hemorrhagic, ischemic, and overall brain injury were not correlated with birth weight (P > 0.05). Multiparity (OR = 0.292, 95%CI 0.088-0.972) and cesarean section (OR = 0.075, 95%CI 0.015-0.368) were protective factors against brain injury in infants with a gestational age of <34 weeks; cesarean section (OR = 0.296, 95%CI 0.131-0.672) was the protective factor against brain injury in infants with a gestational age of ≥34 weeks, and severe infection (OR = 8.176, 95%CI 1.202-55.617) was the risk factor. Conclusions In order to prevent or reduce the occurrence of brain injury in preterm infants. the gestational age of preterm infants should be prolonged as much as possible and the indications for cesarean section should be grasped. Infections should be prevented and if occurring should be treated actively and effectively.
Back SA. Brain Injury in the Preterm Infant: New Horizons for Pathogenesis and Prevention[J]. Pediatr Neurol, 2015, 53(3): 185-192.
[3]
Schonhaut L, Perez M, Munoz S. Association between neontal morbidity, gestational age and developmental delays in moderate to late preterm children[J]. Rev Chil Pediatr, 2015, 86(6): 415-425.
[4]
Korzeniewski SJ, Romero R, Cortez J, et al. A "multi-hit" model of neonatal white matter injury: cumulative contributions of chronic placental inflammation, acute fetal inflammation and postnatal inflammatory events[J]. J Perinat Med, 2014, 42(6): 731-743.
[5]
Steggerda SJ, De Bruïne FT, van den Berg-Huysmans AA, et al. Small cerebellar hemorrhage in preterm: perinatal and postnatal factors and outcome[J]. Cerebellum, 2013, 12(6): 794-801.
Kidokoro H, Anderson PJ, Doyle LW, et al. Brain Injury and Altered Brain Growth in Preterm Infants: Predictors and Prognosis[J]. Pediatrics, 2014, 134(2): e444-e453.
[16]
Kinney HC. The near-term(late preterm)human brain and risk for periventricular leukomalacia:a review[J]. Semin Perinatol, 2006, 30(2): 81-88.
[17]
Selway LD. State of the science: hypoxic ischemic encephalopathy and hypothermic intervention for neonates[J]. Adv Neonatal Care, 2010, 10(2): 60-66.
Oztürk A, Demirci F, Yavuz T, et al. Antenatal and delivery risk factors and prevalence of cerebral palsy in Duzce (Turkey)[J]. Brain Dev, 2007, 29(1): 39-42.
[21]
Khalessi N, Farahani Z, Shariat M, et al. Risk Factors of Intracranial Hemorrhage in Premature Neonates[J]. Acta Medica Iranica, 2014, 52(9): 687-689.
[22]
Wilson-Costello D, Friedman H, Minich N, et al. Improved neurodevelopmental outcomesfor extremely low birth weight infants in 2000-2002[J]. Pediatrics, 2007, 119(1): 37-45.
[23]
Shankaran S, Lin A, Maller-Kesselman J, et al. Maternal race, demography, and health care disparities impact risk for intraventricular hemorrhage in preterm neonates[J]. J Pediatr, 2014, 164(5): 1005-1011.
[24]
Lee I, Neil JJ, Huettner PC, et al. The impact of prenatal and neonatal infection on neurodevelopmental outcomes in very preterm infants[J]. J Perinatol, 2014, 34(10): 741-747.
[25]
Chang E. Preterm birth and the role of neuroprotection[J]. BMJ, 2015, 350: g6661.
