General movements in infants with autism spectrum disorders.

General movements (GMs) are a distinct movement pattern carried out spontaneously without external stimulation and seen in fetuses of 9 weeks gestational age till 21 weeks postterm. GMs are helpful in the early diagnosis of an impaired central nervous system and the specific prediction of later neurological deficits. Autism spectrum disorder (ASD) is a neurodevelopmental disorder involving a life-long deficit in several aspects of the social and communicative behavior. Recently there appeared studies proving that children with ASD demonstrate disorders of motor development. To detect whether abnormalities in spontaneous motor activity can be observed already in the first months of life in infants with ASD. A retrospective study was performed by analyzing the family videos provided by parents of 20 children (male 17, female 3) later diagnosed as ASD. Home videos provided by parents of a control group of healthy children (n=20; male 10, female 10) matched for age with the ASD subjects and recorded in similar conditions were also analysed. In total 70 sequences were studied. Two independent observers, blind of the infants' outcome (ASD or normal), assessed the cases applying a global and a more detailed assessment of GMs. Hence, the age-specific GM pattern (normal or abnormal) as well as motor optimality scores were determined for each video sequence. Cohen kappa was 0.614. During the writhing movement period 70.0% sequences of infants with ASD showed poor repertoire GMs. In the control group, poor repertoire GMs were only seen in 12.5% of the sequences. In the fidgety movement period 20.8% of sequences were assessed as absent fidgety movements, 29.2% as abnormal fidgety movements. The large majority of the videos for the control cases were scored as normal (88.9%), 11.1% had no fidgety movements. According to the Mann-Whitney U test there were significant differences between the ASD and the control groups' optimality scores. The optimality scores were lower in the ASD group. The reduced optimality scores were mainly due to a lack of variable sequences, amplitude and speed of writhing GMs and an altered quality of fidgety and other spontaneous movements in the ASD group. Infants with ASD had more often poor repertoire writhing GMs as well as abnormal or absent fidgety movements than control infants. These data encourage further studies involving a larger number of family videos.

General movements detect early signs of hemiplegia in term infants with neonatal cerebral infarction.

Background. Studies have reported that infants with hemiplegia of congenital origin may have a period between birth and up to 12 months when clinical signs of hemiplegia are not evident. The aim of this study was to establish whether the assessment of general movements (GMs) may help in the earlier detection of signs of hemiplegia. Subjects and Methods. Eleven infants with cerebral infarction on brain MRI, and eleven normal controls were enrolled in the study. Quality of GMs was assessed from videotapes between 3 and 6 weeks and between 9 and 16 weeks. Neurological outcome was evaluated at least at two years. Results. Seven of the 11 infants had an assessment performed between 3 and 6 weeks: abnormal GMs were observed in all the infants who developed hemiplegia, but one child had abnormal GMs and a normal outcome. All 11 infants had a scorable assessment between 9 and 16 weeks. In all a specific type of GMs, fidgety movements (FMs), were predictive of neurological outcome. The presence of early asymmetries at both 3 - 6 and 9 - 16 weeks was also significantly associated with later signs of hemiplegia. Conclusions. The assessment of GMs after the neonatal period appears to be very useful in the early identification of hemiplegia in infants with cerebral infarction. Whilst the prediction of hemiplegia should be possible from early neonatal MRI brain scans, this facility is not always available. Observation of GMs is a bedside clinical approach that allows confirmation of early prediction from MRI, early rehabilitation if needed and reassurance that neurological outcome will be good where that is appropriate.

The early markers for later dyskinetic cerebral palsy are different from those for spastic cerebral palsy.

Qualitative abnormalities of spontaneous motor activity in newborns and young infants are early predictive markers for later spastic cerebral palsy. Aim of this research was to identify which motor patterns may be specific for later dyskinetic cerebral palsy. In a large, prospectively performed longitudinal study involving four European hospitals we identified twelve cases with the relatively rare condition of dyskinetic cerebral palsy and compared their early motor development with twelve spastic cerebral palsy cases and twelve controls. From birth to the fifth month post-term, all infants were repeatedly videoed and their spontaneous motor patterns, including general movements, were assessed. Until the second month post-term, the infants that later became dyskinetic displayed a poor repertoire of general movements, "arm movements in circles" and finger spreading. Abnormal arm and finger movements remained until at least five months and were then concurrent with a lack of arm and leg movements towards the midline. Later dyskinetic infants share with later spastic infants the absence of fidgety movements, a spontaneous movement pattern that is normally present from three to five months. Qualitative assessment of spontaneous motor patterns enabled us to identify infants at high risk for dyskinetic cerebral palsy early in life. Additionally, we were able to discriminate them from those infants at high risk for later spastic cerebral palsy. This is a matter of significant clinical relevance because the two types of cerebral palsy ask for different management and early intervention.