Jasmin Dibiasi1, Christa Einspieler. 1. Section Developmental Physiology and Developmental Neurology, Institute of Systems Physiology, Center of Physiological Medicine, Medical University of Graz, Harrachgasse 21/5, A-8010 Graz, Austria.
Abstract
BACKGROUND: The assessment of the quality of general movements (GMs) in young infants is a reliable and valid diagnostic tool for detecting brain dysfunction early in life. Of special interest is a type of GMs called fidgety movements (FMs) characteristic for 3- to 5-month-old infants. GMs are part of an infant's spontaneous motor repertoire and as such endogenously generated by the nervous system. Visual, acoustic and social stimuli hardly had any influence on FMs. AIM: Our main purpose was to find out whether FMs are sensitive to load perturbation. STUDY DESIGN: Spontaneous motility in supine position, with and without weighting was recorded on video and the data were semiquantitatively analysed. Weights were attached to the ankles and wrists of all four limbs; on one side of the body only; or without visual feedback of the weighted arm. SUBJECTS: We studied 29 healthy infants with normal FMs at the age of 12 weeks. RESULTS: Spontaneous motility remained symmetrical during all the experimental trails. Weighting had no influence on the quality or temporal organisation of FMs. CONCLUSION: This study demonstrated that the mechanisms responsible for FMs in 3-month-old infants are all but impervious to weight perturbation, at least not with the loads studied. FMs is the stable and predominant motor pattern of this age.
BACKGROUND: The assessment of the quality of general movements (GMs) in young infants is a reliable and valid diagnostic tool for detecting brain dysfunction early in life. Of special interest is a type of GMs called fidgety movements (FMs) characteristic for 3- to 5-month-old infants. GMs are part of an infant's spontaneous motor repertoire and as such endogenously generated by the nervous system. Visual, acoustic and social stimuli hardly had any influence on FMs. AIM: Our main purpose was to find out whether FMs are sensitive to load perturbation. STUDY DESIGN: Spontaneous motility in supine position, with and without weighting was recorded on video and the data were semiquantitatively analysed. Weights were attached to the ankles and wrists of all four limbs; on one side of the body only; or without visual feedback of the weighted arm. SUBJECTS: We studied 29 healthy infants with normal FMs at the age of 12 weeks. RESULTS: Spontaneous motility remained symmetrical during all the experimental trails. Weighting had no influence on the quality or temporal organisation of FMs. CONCLUSION: This study demonstrated that the mechanisms responsible for FMs in 3-month-old infants are all but impervious to weight perturbation, at least not with the loads studied. FMs is the stable and predominant motor pattern of this age.
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