2010
DOI: 10.1016/j.gaitpost.2010.04.017
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Effect of walking velocity on segment coordination during pre-planned turns in healthy older adults

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Cited by 31 publications
(30 citation statements)
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“…It can be suggested that the delay in these timing variables throughout the turn may be a result of the bradykinesia experienced by people with PD [2]; however, the findings that those with relatively un-affected walking strategies still present with a delayed ''enbloc'' turn, often similar to those with more advanced symptoms [17,22], and walking velocity to be un-related to segment-co-ordination in the healthy elderly [47], suggests the perpendicular deficit of bradykinetic gait is unlikely to be the driver of timing and axial co-ordination deficits in people with PD.…”
Section: Turning In Pd 1385mentioning
confidence: 99%
“…It can be suggested that the delay in these timing variables throughout the turn may be a result of the bradykinesia experienced by people with PD [2]; however, the findings that those with relatively un-affected walking strategies still present with a delayed ''enbloc'' turn, often similar to those with more advanced symptoms [17,22], and walking velocity to be un-related to segment-co-ordination in the healthy elderly [47], suggests the perpendicular deficit of bradykinetic gait is unlikely to be the driver of timing and axial co-ordination deficits in people with PD.…”
Section: Turning In Pd 1385mentioning
confidence: 99%
“…Information is also limited on how the lower limb inter-joint coordination is modulated with aging. Age-related differences in inter-joint coordination during obstacle crossing (Yen et al, 2009), segmental coordination during turning (Akram et al, 2010), and lower trunk coordination during walking (McGibbon and Krebs, 2001) have been investigated. Only one study reported that young and elderly adults accommodated lower limb inter-segmental coordination differently when walking on the ground with and without an asymmetrical leg loading (Byrne et al, 2002).…”
Section: Introductionmentioning
confidence: 99%
“…Namely, at the initiation of the turning motion there is a change in the heading direction during the first two steps which reaches a steady state after the third step[30]. Others have established that there is a top-down sequence in the initiation of the segments of orientation during turning, starting at the head and continuing through the torso to the pelvis[31], and that the sequence is independent of the walking speed and the magnitude of the turn[32]. This is consistent with the pelvis and torso rotation patterns in the transversal plane as recorded in our study: in all experimental conditions associated with turning, the pelvis almost completely stops with respect to the ground in the middle of gait cycle, and starts to lag behind the torso, that on the other hand more closely follows the direction of turning.…”
Section: Discussionmentioning
confidence: 99%