By means of sequential videotape recordings, the relevance of the quality of general movements for neurological outcome was determined in a group of 21 appropriate‐for‐gestational‐age preterm infants with transient periventricular echodensities of variable localization and duration and in 6 infants without echodensities. Echodensities, especially in the parieto‐occipital area, affected the quality of general movements. Echodensities persisting beyond 14 d were associated with abnormal general movements; infants with echodensities up to 14 d had either normal or abnormal general movements. The developmental course of movement quality was correlated to neurological outcome (p < 0:005): normal outcomes were found in 11/12 infants with normal general movements throughout and in 9/11 infants with transient abnormal general movements; all 4 infants with persistent abnormal general movements had impaired outcomes. In infants with transient echodensities, longitudinal assessment of the quality of general movements helps to determine if there is brain dysfunction, either transient or persistent, and identifies infants at risk for impaired neurological outcomes.
Our aim was to determine regional cerebral tissue oxygen saturation and fractional tissue oxygen extraction in preterm infants with transient periventricular echodensities. We hypothesized that as a result of reduced cerebral perfusion, regional cerebral tissue oxygen saturation will be lower and fractional tissue oxygen extraction will be higher during the first days after birth.This was a prospective, observational study of 49 preterm infants (gestational age median: 30.1 weeks [26.0-31.8 weeks]; birth weight median: 1220 g [615-2250 g]). We defined transient periventricular echodensities as echodensities that persisted for >7 days. Regional cerebral tissue oxygen saturation was measured on days 1-5, 8, and 15 after birth. Fractional tissue oxygen extraction was calculated as (transcutaneous arterial oxygen saturation--regional cerebral tissue oxygen saturation)/transcutaneous arterial oxygen saturation.Transient periventricular echodensities were found in 25 of 49 infants. During the first week we found no difference between the 2 groups for cerebral tissue oxygen saturation and fractional tissue oxygen extraction values. On day 15 after birth, cerebral tissue oxygen saturation was lower in preterm infants with transient periventricular echodensities (66%) compared with infants without echodensities (76%) (P = .003). Fractional tissue oxygen extraction in infants with transient periventricular echodensities (0.30) was higher than fractional tissue oxygen extraction in infants without transient periventricular echodensities (0.20) (P < .001). The differences could not be explained by confounding variables.Persistent transient periventricular echodensities may be associated with increased cerebral oxygen demand after the first week after birth, which is contrary to our hypothesis. Cerebral oxygenation may be involved in the recovery of perinatal white matter damage.
In dit proefschrift wordt retrospectief door middel van een drietal vraagstellingen de waarde onderzocht van de conventioneler rontgendiagnostiek bij patienten met een acuut wervelletsel op thoracaal en/of lumbaal niveau. De bevindingen van de conventionele tomografie gelden als bewijzend in deze studie. Zie: Samenvatting
OBJECTIVES. Our objective was to determine motor, cognitive, and behavioral outcome at school age in preterm children with periventricular hemorrhagic infarction and to identify cerebral risk factors for adverse outcome. METHODS. This was a prospective cohort study of all preterm infants who were <37 weeks' gestation, had periventricular hemorrhagic infarction, and were admitted between 1995 and 2003. Ultrasound scans were reviewed for characteristics of periventricular hemorrhagic infarction and other cerebral abnormalities. At 4 to 12 years of age, motor outcome was assessed by the Gross Motor Function Classification System and the Manual Ability Classification System, by a neurologic examination (Touwen), an intelligence test (Wechsler Intelligence Scale III/Wechsler Preschool and Primary Scale of Intelligence-Revised), and tests for visual-motor integration, visual perception, and verbal memory. Behavior was assessed by using the Child Behavior Checklist and the Behavior Rating Inventory of Executive Function. RESULTS. Of 38 infants, 15 (39%) died. Twenty-one of the 23 survivors were included in the follow-up. Four infants were neurologically normal, 1 had minor neurologic dysfunction, 13 had unilateral spastic cerebral palsy, and 3 had bilateral cerebral palsy. Coordination, associated movements, and fine manipulative abilities were affected most according to the neurologic examination. Gross Motor Function Classification System scores were level 1 (7 children), level 2 (7 children), level 3 (1 child), and level 4 (2 children). Manual Ability Classification System scores were normal (4 children), level 1 (8 children), level 2 (7 children), and level 3 (2 children). The mean and median total IQ was 83. Visual perception was normal in 88% of children, visuomotor integration was normal in 74%, and verbal memory was normal in 50%. Behavior was normal in 53% of children, and executive functions were normal in 65% and 29% of children (by parent and teacher report, respectively). Characteristics of the periventricular hemorrhagic infarction were not related to functional motor outcome and intelligence. Posthemorrhagic ventricular dilatation was a risk factor for poorer total and performance intelligence and abnormal fine manipulative abilities. CONCLUSIONS. The majority of surviving preterm children with periventricular hemorrhagic infarction had cerebral palsy with limited functional impairment at school age. Intelligence was within 1 SD of the norm of preterm children without lesions in 60% to 80% of the children. Verbal memory, in particular, was affected. Behavioral and executive function problems occurred slightly more than in preterm infants without lesions. The functional outcome at school age of preterm children with periventricular hemorrhagic infarction is better than previously thought.
In a retrospective study of 107 fractured vertebrae in the thoracic and lumbar spine, the interpediculate distance could be accurately assessed on plain roentgenograms in 96%. When these findings were compared with those of conventional tomography, there were no false-positive or false-negative results concerning normal or increased interpediculate distance. In 22 injured vertebrae the increased interpediculate distance was measured. In all these cases there was a fracture of the pedicle or lamina in addition to an injury of the vertebral body. We conclude that interpediculate distance can almost always be assessed and that an increased interpediculate distance on plain films is 100% reliable as an indicator of damage to the vertebral body, the pedicle, or lamina.
