G. Barbieri
Centre national de la recherche scientifique
13 Papers
91 Citations
G. Barbieri is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: CMOS sensor & Signal. The author has an hindex of 8, co-authored 13 publications. Previous affiliations of G. Barbieri include University of Grenoble & University of Burgundy.
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Papers
Does proprioception contribute to the sense of verticality
G. Barbieri,G. Barbieri,Anne-Sophie Gissot,Florent Fouque,Florent Fouque,Jean-Marie Casillas,Jean-Marie Casillas,Thierry Pozzo,Thierry Pozzo,Dominic Pérennou,Dominic Pérennou +10 more
TL;DR: New insights to the understanding of the sense of verticality are brought and muscular proprioception contributes to the interpretation of backward falls induced by vibration.
108
Measuring verticality perception after stroke: Why and how?
TL;DR: The reasons and findings that explain why measuring verticality perception after stroke is interesting are reviewed, and evolutions of concepts and measurement standards of verticality representation should guide the emergence of rehabilitation programs specifically dedicated to the sense of Verticality after stroke.
106
The assessment and treatment of postural disorders in cerebellar ataxia: A systematic review
TL;DR: A systematic review on the treatment of postural disorders in cerebellar ataxia is presented in this article, where 19 articles were selected, of which three were randomized, controlled trials.
62
Achilles tendon vibration shifts the center of pressure backward in standing and forward in sitting in young subjects.
TL;DR: The present study invalidates the idea to extend in sitting the VIF paradigm but the unexpected results open a new window about the basic mechanisms underlying muscle vibration effects.
15
Measuring trunk orientation with a CMOS camera: feasibility and accuracy.
TL;DR: The CMOS camera, a simple, portable, compact, low-cost, commercially available apparatus is the first tool to objectively quantify lateropulsion at the bedside, and could also support the development of a rehabilitation program for trunk orientation based on biofeedback using the real-time signal provided by the device.
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