Prevailing head position to one side in early infancy - a population-based study

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Predictive value of general movements in asphyxiated fullterm infants

The developmental course of spontaneous motility was investigated in a group of 26 fullterm infants, affected by mild to severe hypoxic-ischaemic encephalopathy. Serial 1-h videorecordings were carried out from birth to 15-22 weeks and a quality assessment of general movements (GMs) was made from a replay of the videos. Neurological follow-up of the infants were continued until at least Is months of age; neonatal EEG and neuro-imaging techniques (US-scan, CT or MRI) were also carried out in all cases. The results indicate that perinatal asphyxia has important effects on the spontaneous motility of fullterm infants. Hypokinesis occurred very frequently during the first days of life, followed by a transient or prolonged (lasting longer than 15-22 weeks) abnormal quality of GMs. In the first 2 weeks the results of GM assessment did not correlate with the simultaneous findings of neurological examination, neuro-imaging and EEG, whereas they did when the results at 15-22 weeks were considered. The changes in spontaneous motility and especially GM developmental trajectories were good predictors of the neurological outcome. The predictive value of GM assessment was found to be similar to that of EEG and neuro-imaging, and better than neurological examination

Role of vision on early motor development: lessons from the blind

For a better understanding of the contribution vision makes to the development of other sensory systems and to movement and posture, we studied effects of early blindness by examining video recordings of 14 totally blind infants. Infants were born at term or preterm and showed no evidence of brain damage. During preterm and term periods no noticeable changes in motor activity were observed. Around 2 months postterm all infants showed clear delay in head control and abnormal, exaggerated type of 'fidgety movements'. Later, postural control was characterized by a prolonged period of ataxic features. Results indicate a lack of normal calibration exerted by vision on proprioceptive and vestibular systems. Early visuomotor coordination such as coordinated eye-head scanning and head orientating were present but disappeared after several weeks

Cramped synchronised general movements in preterm infants as an early marker for later cerebral palsy

Objective: To ascertain whether specific abnormalities (ie, cramped synchronized general movements [GMs]) can predict cerebral palsy and the severity of later motor impairment in preterm infants affected by brain lesions. Design: Traditional neurological examination was performed, and GMs were serially videotaped and blindly observed for 84 preterm infants with ultrasound abnormalities from birth until 56 to 60 weeks' postmenstrual age, The developmental course of GM abnormalities was compared with brain ultrasound findings alone and with findings from neurological examination, in relation to the patient's outcome at age 2 to 3 years. Results: Infants with consistent or predominant (33 cases) cramped synchronized GMs developed cerebral palsy. The earlier cramped synchronized GMs were observed, the worse was the neurological outcome. Transient cramped synchronized character GMs (8 cases) were followed by mild cerebral palsy (fidgety movements were absent) or normal development (fidgety movements were present). Consistently normal GMs (13 cases) and poor repertoire GMs (30 cases) either lead to normal outcomes (84%) or cerebral palsy with mild motor impairment (16%). Observation of GMs was 100% Sensitive, and the specificity of the cramped synchronized GMs was 92.5% to 100% throughout the age range, which is much higher than the specificity of neurological examination. Conclusions: Consistent and predominant cramped synchronized GMs specifically predict cerebral palsy. The earlier this characteristic appears, the worse is the later impairment