2013
DOI: 10.1016/j.gaitpost.2013.01.024
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Frontal plane dynamic margins of stability in individuals with and without transtibial amputation walking on a loose rock surface

Abstract: Uneven walking surfaces pose challenges to balance, especially in individuals with lower extremity amputation. The purpose of this study was to determine if lateral stability of persons with unilateral transtibial amputation (TTA) is compromised when walking on a loose rock surface. Thirteen TTA and 15 healthy controls walked over level ground and over a loose rock surface at four controlled speeds. Dependent measures, including medial-lateral center of mass (COM) motion, step width variability, lateral arm sw… Show more

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Cited by 76 publications
(92 citation statements)
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References 25 publications
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“…This measure is based on foot placement while accounting for body CoM position and velocity and has been used to assess dynamic balance in young healthy individuals in destabilizing environments (e.g., McAndrew Young et al, 2012), older adults while stepping to targets (Hurt and Grabiner, 2015), amputees (e.g., Bolger et al, 2014; Gates et al, 2013; Hof et al, 2007) and post-stroke individuals (e.g., Hak et al, 2013; Kao et al, 2014). Similarly, whole-body angular-momentum has been used to assess dynamic balance in a number of patient populations including post-stroke hemiparetic individuals (Nott et al, 2014), amputees (e.g., Pickle et al, 2014; Sheehan et al, 2015; Silverman and Neptune, 2011) and older adults (e.g., Pijnappels et al, 2005b).…”
Section: Introductionmentioning
confidence: 99%
“…This measure is based on foot placement while accounting for body CoM position and velocity and has been used to assess dynamic balance in young healthy individuals in destabilizing environments (e.g., McAndrew Young et al, 2012), older adults while stepping to targets (Hurt and Grabiner, 2015), amputees (e.g., Bolger et al, 2014; Gates et al, 2013; Hof et al, 2007) and post-stroke individuals (e.g., Hak et al, 2013; Kao et al, 2014). Similarly, whole-body angular-momentum has been used to assess dynamic balance in a number of patient populations including post-stroke hemiparetic individuals (Nott et al, 2014), amputees (e.g., Pickle et al, 2014; Sheehan et al, 2015; Silverman and Neptune, 2011) and older adults (e.g., Pijnappels et al, 2005b).…”
Section: Introductionmentioning
confidence: 99%
“…Joint kinematics at instance of minimum toe clearance, in degrees, presented as average ± standard deviation for level-only condition at selfselected velocity and as estimated marginal means ± standard error across both level and incline condition (at self-selected velocity). In general, the evidence supporting the use of microprocessor-controlled prosthetic feet for improving balance, function, and/or mobility of people with amputation is limited and has only recently begun to appear in the literature (e.g., references [25][26][27][28][29][30]). At present, there are few English-written studies of the ProprioFoot, and those that exist have focused on socket pressures [31], hip and knee kinematics and kinetics [32][33], gait economy [34][35], and related aspects of gait [36][37] but not on MTC.…”
Section: Discussionmentioning
confidence: 99%
“…Determining how persons with amputation respond to destabilizing situations is critical to better understand why they fall and to develop effective interventions. Previous studies report mixed results when comparing various measures of stability in patients with amputation to unimpaired controls during unperturbed walking (Lamoth et al, 2010; Wurdeman et al, 2013), when walking over irregular terrain (Lamoth et al, 2010; Curtze et al, 2011; Gates et al, 2013), or when explicitly perturbed (Hak et al, 2013). This study determined how patients with transtibial amputation responded to perturbations known to substantially destabilize walking humans (McAndrew et al, 2010; 2011).…”
Section: Discussionmentioning
confidence: 99%
“…On irregular surfaces, patients with amputation walk with wider steps, but have exhibited inconsistent results for various measures of “stability” (Lamoth et al, 2010; Curtze et al, 2011; Gates et al, 2012; 2013). Perhaps either the stability measures used in those studies did not adequately capture the effects of the perturbations, or the perturbation paradigms imposed were not sufficiently challenging to elicit appropriate responses.…”
Section: Introductionmentioning
confidence: 99%