Synthetic magnetic resonance-based relaxometry and brain volume: cutoff values for predicting neurocognitive outcomes in very preterm infants

The performance of a diagnostic test in the case of a binary predictor can be evaluated using the measures of sensitivity and specificity. However, in many instances, we encounter predictors that are measured on a continuous or ordinal scale. In such cases, it is desirable to assess performance of a diagnostic test over the range of possible cutpoints for the predictor variable. This is achieved by a receiver operating characteristic (ROC) curve that includes all the possible decision thresholds from a diagnostic test result. In this brief report, we discuss the salient features of the ROC curve, as well as discuss and interpret the area under the ROC curve, and its utility in comparing two different tests or predictor variables of interest.

Brain injury in premature infants is of enormous public health importance because of the large number of such infants who survive with serious neurodevelopmental disability, including major cognitive deficits and motor disability. This type of brain injury is generally thought to consist primarily of periventricular leukomalacia (PVL), a distinctive form of cerebral white matter injury. Important new work shows that PVL is frequently accompanied by neuronal/axonal disease, affecting the cerebral white matter, thalamus, basal ganglia, cerebral cortex, brain stem, and cerebellum. This constellation of PVL and neuronal/axonal disease is sufficiently distinctive to be termed "encephalopathy of prematurity". The thesis of this Review is that the encephalopathy of prematurity is a complex amalgam of primary destructive disease and secondary maturational and trophic disturbances. This Review integrates the fascinating confluence of new insights into both brain injury and brain development during the human premature period.

The increasing survival rates of children who are born very preterm raise issues about the risks of neurological disabilities and cognitive dysfunction. We aimed to investigate neurodevelopmental outcome and use of special health care at 5 years of age in a population-based cohort of very preterm children. We included all 2901 livebirths between 22 and 32 completed weeks of gestation from nine regions in France in Jan 1-Dec 31, 1997, and a reference group of 667 children from the same regions born at 39-40 weeks of gestation. At 5 years of age, children had a medical examination and a cognitive assessment with the Kaufman assessment battery for children (K-ABC), with scores on the mental processing composite (MPC) scale recorded. Data for health-care use were collected from parents. Severe disability was defined as non-ambulatory cerebral palsy, MPC score less than 55, or severe visual or hearing deficiency; moderate deficiency as cerebral palsy walking with aid or MPC score of 55-69; and minor disability as cerebral palsy walking without aid, MPC score of 70-84, or visual deficit (<3/10 for one eye). In total, 1817 (77%) of the 2357 surviving children born very preterm had a medical assessment at 5 years and 396 (60%) of 664 in the reference group. Cerebral palsy was diagnosed in 159 (9%) of children born very preterm. Scores for MPC were available for 1534 children born very preterm: 503 (32%) had an MPC score less than 85 and 182 (12%) had an MPC score less than 70. Of the 320 children in the reference group, the corresponding values were 37 (12%) and 11 (3%), respectively. In the very preterm group, 83 (5%) had severe disability, 155 (9%) moderate disability, and 398 (25%) minor disability. Disability was highest in children born at 24-28 completed weeks of gestation (195 children [49%]), but the absolute number of children with disabilities was higher for children born at 29-32 weeks (441 children [36%]). Special health-care resources were used by 188 (42%) of children born at 24-28 weeks and 424 (31%) born at 29-32 weeks, compared with only 63 (16%) of those born at 39-40 weeks. In children who are born very preterm, cognitive and neuromotor impairments at 5 years of age increase with decreasing gestational age. Many of these children need a high level of specialised care. Prevention of the learning disabilities associated with cognitive deficiencies in this group is an important goal for modern perinatal care for children who are born very preterm and for their families.