About the paper
Title |
Software-hardware system for vertigo disorders |
Book |
ICIST 2016 Proceedings |
Pages |
97-101 |
Abstract: The (benign paroxysmal positional vertigo)
BPPV is the most common type of vertigo, influencing the
quality of life to considerable percentage of population after
the age of forty (25 out of 100 people are facing this problem
after 40). The semicircular canals which are filled with fluid
normally act to detect rotation via deflections of the sensory
membraneous cupula. We are modeling human semicircular
canals (SSC) which considers the morphology of the organs
and the composition of the biological tissues and their
viscoelastic and mechanical properties. For fluid-structure
interaction problem we use loose coupling methodology with
ALE (Arbitrary Lagrangian Eulerian) formulation. The
tissue of SSC has nonlinear constitutive laws, leading to
materially-nonlinear finite element formulation. Our
numerical results are compared with nystagmus from real
clinical patient. The initial results of 3D Tool software user
interface and fluid motion simulation and measurement of
the video head impulse test (vHIT) with the Oculus system
are presented. |
Full citation
Filipović, N.,
MiloÅ¡ević, Å.,
Nikolić, D.,
Saveljić, I.,
Kikidis, D.,
Bibas, A.
Software-hardware system for vertigo disorders. In:
Konjović, Z.,
Zdravković, M.,
Trajanović, M.
(Eds.)
ICIST 2016 Proceedings, pp.97-101, 2016
Keywords
Bioinformatics
Healthcare and medicine