Qualitative dynamics of disordered human locomotion: a preliminary investigation.

A qualitative approach to the evaluation of disordered locomotion is introduced within the framework of dynamical systems theory. Exemplar phase plane and angle-angle plots of knee and ankle movements were constructed from limb trajectories of neurologically impaired individuals and qualitatively compared with similar plots, reflecting normal locomotion. In phase plane trajectories of normal locomotion, characteristics of spring-like dynamics dominated the loading and unloading phases whereas those of ballistic pendular dynamics were seen during swing. The overall squareness of the normal phase plane trajectories suggested precisely timed and narrowly focused controls. in contrast, phase plane records from hemiparetic subjects had markedly reduced segmental velocities, pronounced velocity reversals in both stance and swing, and a loss of overall squareness. Knee-ankle plots of normal locomotion revealed important features of intersegmental coordination such as coupled out-of-phase coordination in loading and unloading, a decoupled phase offset in early swing, and a kind of active partitioning in late swing in which one segment moved while the other remained constant. These intersegmental relations were absent or distorted in the hemiparetic angle-angle plots. It is suggested that this qualitative approach, together with electromyography and force dynamics, may allow the characterization of the movement disorders associated with given neuropathologies.

[1]  D. Sutherland,et al.  An electromyographic study of the plantar flexors of the ankle in normal walking on the level. , 1966, The Journal of bone and joint surgery. American volume.

[2]  D. Grieve,et al.  The relationships between length of stride, step frequency, time of swing and speed of walking for children and adults. , 1966, Ergonomics.

[3]  N. A. Bernshteĭn The co-ordination and regulation of movements , 1967 .

[4]  D W Grieve,et al.  The assessment of gait. , 1969, Physiotherapy.

[5]  Lamoreux Lw Kinematic measurements in the study of human walking. , 1971 .

[6]  C Hershler,et al.  Angle diagrams in the assessment of locomotor function. Studies on normal subjects for various speeds and some preliminary work on patients requiring total hip reconstruction (Charnley low-friction arthroplasty). , 1973, South African medical journal = Suid-Afrikaanse tydskrif vir geneeskunde.

[7]  D A Winter,et al.  Electromyographic temporal analysis of gait: hemiplegic locomotion. , 1976, Archives of physical medicine and rehabilitation.

[8]  J V Basmajian,et al.  Gait analysis in stroke patients to assess treatments of foot-drop. , 1976, Archives of physical medicine and rehabilitation.

[9]  D A Winter,et al.  Electromyographic temporal analysis of gait: normal human locomotion. , 1976, Archives of physical medicine and rehabilitation.

[10]  J. D. Cooke,et al.  Dependence of human arm movements on limb mechanical properties , 1979, Brain Research.

[11]  E Knutsson,et al.  Different types of disturbed motor control in gait of hemiparetic patients. , 1979, Brain : a journal of neurology.

[12]  C Hershler,et al.  Angle--angle diagrams in the assessment of locomotion. , 1980, American journal of physical medicine.

[13]  D. Winter,et al.  Mechanical energy generation, absorption and transfer amongst segments during walking. , 1980, Journal of biomechanics.

[14]  J. F. Soechting,et al.  Invariant characteristics of a pointing movement in man , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[15]  S R Simon,et al.  Analysis and synthesis of human swing leg motion during gait and its clinical applications. , 1981, Journal of biomechanics.

[16]  M. Hoy,et al.  Locomotion in exercised and nonexercised cats cordotomized at two or twelve weeks of age , 1982, Experimental Neurology.

[17]  J. Charteris,et al.  Human gait cyclograms: Conventions, speed relationships and clinical applications , 1982, International journal of rehabilitation research. Internationale Zeitschrift fur Rehabilitationsforschung. Revue internationale de recherches de readaptation.

[18]  K. Newell,et al.  Topological dynamics: A framework for describing movement and its constraints , 1982 .

[19]  W C Whiting,et al.  Correlation of movement patterns via pattern recognition. , 1982, Journal of motor behavior.

[20]  A. Garfinkel A mathematics for physiology. , 1983, The American journal of physiology.

[21]  R. Abraham,et al.  Dynamics--the geometry of behavior , 1983 .

[22]  Response to sudden torques about ankle in man: V effects of peripheral ischemia. , 1983, Journal of neurophysiology.

[23]  J Perry,et al.  Gait analysis techniques. Rancho Los Amigos Hospital gait laboratory. , 1984, Physical therapy.

[24]  Alan Garfinkel,et al.  Phase Plane Analysis of Limb Trajectories in Nonhandicapped and Cerebral Palsied Subjects , 1985 .

[25]  D. Corcos,et al.  Movement deficits caused by hyperexcitable stretch reflexes in spastic humans. , 1986, Brain : a journal of neurology.

[26]  Elliot Saltzman,et al.  Skilled actions: a task-dynamic approach. , 1987, Psychological review.

[27]  C. Heriza,et al.  Comparison of leg movements in preterm infants at term with healthy full-term infants. , 1988, Physical therapy.

[28]  A Beuter,et al.  The effect of arousal on joint kinematics and kinetics in children. , 1989, Research quarterly for exercise and sport.