Gene/Protein
Disease
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Query: EC:4.1.99.3 (
PRE
)
1,923
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Balance requires the centre of mass to be maintained within the base of support. This can be achieved by minimising position sway (stiffness control: SC) or minimising force error (force accuracy control:
FAC
). Minimising sway reduces exploration of system properties, whereas minimising force error maximizes accurate mapping of the force vs position. We hypothesise that (i)
FAC
is associated with faster learning and fewer falls whereas (ii) SC is not. Fifteen participants used myoelectric signals from their legs to maintain balance of an actuated, inverted pendulum, to which they were strapped. Using challenging perturbations, participants were trained to maintain balance without falling within five sessions and tested before (
PRE
) and after (POST) training. We quantified
FAC
as 'change (POST-
PRE
) in correlation of force with position' and SC as 'change in sway'.
PRE
training, five measures (sway, acceleration, co-contraction, effort, falls) showed no correlation with either
FAC
or SC. POST training, reduced fall rate, effort and acceleration correlated with
FAC
metric. SC correlated only with reduced sway. Unlike sway minimisation, development of force accuracy was associated with learning and reduced falls. These results support that accurate force estimation allowing movement is more relevant than stiffness to improve balance and prevent falls.
...
PMID:Force accuracy rather than high stiffness is associated with faster learning and reduced falls in human balance. 3218 36
