Gait initiation is dependent on the function of the paretic trailing limb in individuals with stroke.

The purposes of this study were to compare the gait initiation task between individuals with chronic stroke and age-matched healthy controls, to determine whether the observed differences between groups could be attributed to the presence of a stroke or to differences in gait initiation speed, and to establish the gait initiation variables that relate with a faster gait initiation speed. All subjects initiated gait at their preferred speed, while control subjects were also asked to initiate gait at a speed that was comparable to the stroke group. It was found that while many temporal and kinetic differences were observed between the two groups, most were simply due to differences in gait initiation speed. Two variables that remained different when speed was controlled were the magnitude of the antero-posterior impulse generated by the paretic limb when it was used as either the leading or trailing limb. Kinetic parameters of the trailing limb (i.e. peak antero-posterior force and impulse) were also found to correlate with the gait initiation speed for the non-paretic lead limb condition. The results suggest that the propulsive function of the paretic limb when used as the trailing limb is a key area to address in the rehabilitation of gait initiation for individuals with stroke.

[1]  Titianova Eb,et al.  Asymmetry in walking performance and postural sway in patients with chronic unilateral cerebral infarction. , 1995 .

[2]  M. Whittle,et al.  Initiation of gait in normal subjects: a preliminary study. , 1990, Journal of biomedical engineering.

[3]  J. Eng,et al.  Reliability and comparison of weight-bearing ability during standing tasks for individuals with chronic stroke. , 2002, Archives of physical medicine and rehabilitation.

[4]  D Brunt,et al.  The relation between limb loading and control parameters of gait initiation in persons with stroke. , 1995, Archives of physical medicine and rehabilitation.

[5]  R. Dickstein,et al.  Weight-bearing shifts of hemiparetic and healthy adults upon stepping on stairs of various heights , 2000, Clinical rehabilitation.

[6]  Yves Gahéry,et al.  Effect of asymmetrical limb loading on early postural adjustments associated with gait initiation in young healthy adults. , 2003, Gait & posture.

[7]  P A Wolf,et al.  Residual disability in survivors of stroke--the Framingham study. , 1975, The New England journal of medicine.

[8]  P. Stratford,et al.  Measuring Physical Impairment and Disability With the Chedoke‐McMaster Stroke Assessment , 1993, Stroke.

[9]  D. Ma,et al.  Relationships among walking performance, postural stability, and functional assessments of the hemiplegic patient. , 1987 .

[10]  Richard W. Bohannon,et al.  Distribution of muscle strength impairments following stroke , 2000, Clinical rehabilitation.

[11]  A. Kuo,et al.  Comparison of kinematic and kinetic methods for computing the vertical motion of the body center of mass during walking. , 2004, Human movement science.

[12]  Y Brenière,et al.  Are dynamic phenomena prior to stepping essential to walking? , 1987, Journal of motor behavior.

[13]  R. Elble,et al.  The initiation of normal walking , 2004, Movement disorders : official journal of the Movement Disorder Society.

[14]  J C Wall,et al.  Gait asymmetries in residual hemiplegia. , 1986, Archives of physical medicine and rehabilitation.

[15]  K H Mauritz,et al.  Asymmetry of gait initiation in hemiparetic stroke subjects. , 1997, Archives of physical medicine and rehabilitation.

[16]  Barry Goode,et al.  INVARIANT CHARACTERISTICS OF GAIT INITIATION , 1991, American journal of physical medicine & rehabilitation.

[17]  S. Cummings,et al.  A hypothesis: the causes of hip fractures. , 1989, Journal of gerontology.

[18]  B. E. Maki,et al.  The role of limb movements in maintaining upright stance: the "change-in-support" strategy. , 1997, Physical therapy.

[19]  S. Nadeau,et al.  Analysis of the clinical factors determining natural and maximal gait speeds in adults with a stroke. , 1999, American journal of physical medicine & rehabilitation.

[20]  Relation between gait speed, knee muscle torque and motor scores in post-stroke patients. , 1995, Scandinavian journal of caring sciences.