Human Inner-ear Malformation Types Captured in 3D | Zendy

Anandhan Dhanasingh | Zendy; Aarno Dietz | Zendy; Claude Jolly | Zendy; Peter S. Roland | Zendy

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Human Inner-ear Malformation Types Captured in 3D

Author(s) -

Anandhan Dhanasingh,

Aarno Dietz,

Claude Jolly,

Peter S. Roland

Publication year - 2019

Publication title -

the journal of international advanced otology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.518

H-Index - 13

eISSN - 2148-3817

pISSN - 1308-7649

DOI - 10.5152/iao.2019.6246

Subject(s) - inner ear , 3d printed , vestibular aqueduct , cochlea , anatomy , magnetic resonance imaging , volume (thermodynamics) , 3d model , computer science , biomedical engineering , medicine , artificial intelligence , radiology , physics , quantum mechanics

Capture the human inner-ear malformation types in 3D by segmenting the inner-ear structures from clinical CT (computed tomography) and MR (magnetic resonance) image datasets. Volumetric analysis was done to find the variations in the volume of cochlear part alone from complete inner-ear followed by 3D printing from the 3D segmented models.

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