Prechtl's assessment of general movements: a diagnostic tool for the functional assessment of the young nervous system.

General movements (GMs) are part of the spontaneous movement repertoire and are present from early fetal life onwards until the end of the first half a year of life. GMs are complex, occur frequently, and last long enough to be observed properly. They involve the whole body in a variable sequence of arm, leg, neck, and trunk movements. They wax and wane in intensity, force and speed, and they have a gradual beginning and end. Rotations along the axis of the limbs and slight changes in the direction of movements make them fluent and elegant and create the impression of complexity and variability. If the nervous system is impaired, GMs loose their complex and variable character and become monotonous and poor. Two specific abnormal GM patterns reliably predict later cerebral palsy: 1) a persistent pattern of cramped-synchronized GMs. The movements appear rigid and lack the normal smooth and fluent character. Limb and trunk muscles contract and relax almost simultaneously. 2) The absence of GMs of fidgety character. So-called fidgety movements are small movements of moderate speed with variable acceleration of neck, trunk, and limbs in all directions. Normally, they are the predominant movement pattern in an awake infant at 3 to 5 months. Beside a sensitivity and specificity of 95% each, the assessment of GMs is quick, noninvasive, even nonintrusive, and cost-effective compared with other techniques, e.g., magnetic resonance imaging, brain ultrasound, and traditional neurological examination.

[1]  H. Prechtl,et al.  The influence of septicaemia on spontaneous motility in preterm infants. , 1997, Early human development.

[2]  H. Prechtl,et al.  Spontaneous motility in preterm, small-for-gestational age infants. II. Qualitative aspects. , 1997, Early human development.

[3]  M. Mirmiran,et al.  Effects of Skin-to-Skin Holding on General Movements of Preterm Infants , 1999, Clinical pediatrics.

[4]  H. Prechtl,et al.  Developmental course of general movements in early infancy. I. Descriptive analysis of change in form. , 1992, Early human development.

[5]  H. Forssberg Neural control of human motor development , 1999, Current Opinion in Neurobiology.

[6]  M. Hadders‐Algra,et al.  Assessment of general movements: towards a better understanding of a sensitive method to evaluate brain function in young infants , 1997, Developmental medicine and child neurology.

[7]  G. Cioni,et al.  Kinematic and qualitative analysis of lower-extremity movements in preterm infants with brain lesions. , 1999, Physical therapy.

[8]  H. Prechtl Qualitative changes of spontaneous movements in fetus and preterm infant are a marker of neurological dysfunction. , 1990, Early human development.

[9]  G Cioni,et al.  General movements detect early signs of hemiplegia in term infants with neonatal cerebral infarction. , 2003, Neuropediatrics.

[10]  H. Prechtl,et al.  Observation of movements during sleep in ALTE (apparent life threatening event) and apnoeic infants--a pilot study. , 1994, Early human development.

[11]  J. Perlman,et al.  White matter injury in the preterm infant: an important determination of abnormal neurodevelopment outcome. , 1998, Early human development.

[12]  H. Prechtl,et al.  State of the art of a new functional assessment of the young nervous system. An early predictor of cerebral palsy. , 1997, Early human development.

[13]  Arie Bos,et al.  Differential effects of brain lesions and systemic disease on the quality of general movements: A preliminary report , 1993, Early human development.

[14]  B. Hopkins,et al.  Developmental transformations of spontaneous movements in early infancy. , 1986, Early human development.

[15]  H. Prechtl,et al.  General movement assessment as a method of developmental neurology: new paradigms and their consequences. The 1999 Ronnie MacKeith lecture. , 2001 .

[16]  G Cioni,et al.  The qualitative assessment of general movements in preterm, term and young infants--review of the methodology. , 1997, Early human development.

[17]  H. Prechtl,et al.  Is neurological assessment of the fetus possible? , 1997, European journal of obstetrics, gynecology, and reproductive biology.

[18]  G Cioni,et al.  Early neurological signs in preterm infants with unilateral intraparenchymal echodensity. , 2000, Neuropediatrics.

[19]  G. Cioni,et al.  Predictive value of general movements in asphyxiated fullterm infants. , 1993, Early human development.

[20]  R. V. Oostenbrugge,et al.  Inter- and intra-observer agreement in the assessment of the quality of spontaneous movements in the newborn , 1992, Brain & development (Tokyo. 1979).

[21]  A. Bos,et al.  Quality of general movements in preterm infants with transient periventricular echodensities , 1998, Acta paediatrica.

[22]  C. Einspieler,et al.  Load perturbation does not influence spontaneous movements in 3-month-old infants. , 2004, Early Human Development.

[23]  C. Einspieler,et al.  Can spontaneous movements be modulated by visual and acoustic stimulation in 3-month-old infants? , 2002, Early human development.

[24]  G. Cioni,et al.  The early markers for later dyskinetic cerebral palsy are different from those for spastic cerebral palsy. , 2002, Neuropediatrics.

[25]  C. Einspieler Abnormal spontaneous movements in infants with repeated sleep apnoeas. , 1994, Early human development.

[26]  G. Jorch,et al.  Prognostic significance of spontaneous motility in very immature preterm infants under intensive care treatment. , 1994, Biology of the neonate.

[27]  G. Cioni,et al.  Which better predicts later outcome in full-term infants: quality of general movements or neurological examination? , 1997, Early human development.

[28]  B. Hopkins,et al.  Qualitative changes in general movements and their prognostic value in preterm infants , 1993, European Journal of Pediatrics.

[29]  Giovanni Cioni,et al.  An early marker for neurological deficits after perinatal brain lesions , 1997, The Lancet.

[30]  M. Hadders‐Algra,et al.  Quality of general movements in infancy is related to neurological dysfunction, ADHD, and aggressive behaviour , 1999, Developmental medicine and child neurology.

[31]  Giovanni Cioni,et al.  Cramped synchronized general movements in preterm infants as an early marker for cerebral palsy. , 2002, Archives of pediatrics & adolescent medicine.

[32]  G Cioni,et al.  Qualitative changes of general movements in preterm infants with brain lesions. , 1990, Early human development.

[33]  G. Cioni,et al.  Posture, spontaneous movements, and behavioural state organisation in infants affected by brain malformations. , 1997, Early human development.

[34]  G. Cioni,et al.  Preterm and early postterm motor behaviour in low-risk premature infants. , 1990, Early human development.

[35]  M. Hadders‐Algra,et al.  Developmental course of general movements in early infancy. II. EMG correlates. , 1992, Early human development.

[36]  G. Cioni,et al.  Posture and spontaneous motility in fullterm infants. , 1989, Early human development.

[37]  L. V. van Eykern,et al.  Spontaneous Motility in Preterm Infants Treated with Indomethacin , 2000, Neonatology.

[38]  Jacob Cohen A Coefficient of Agreement for Nominal Scales , 1960 .

[39]  S. Grillner Bridging the gap — from ion channels to networks and behaviour , 1999, Current Opinion in Neurobiology.