0000011: A geometric model for voice production simulation, including the vocal folds and vocal tract

ABSTRACT:This report contains a geometric model that could be used in voice production simulation, including the vocal folds and the vocal tract. These can be imported into Tecplot or other…

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0000010: 3D Modeling of Laryngeal Structure via High-Resolution MRI Segmentation and Histological Analysis

ABSTRACT:To better understand both the 3D geometric structure of human laryngeal anatomy and the structural attributes of its many tissue components we have acquired high-resolution magnetic resonance (MRI) spatially calibrated…

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0000009: Extracting Geometrical Information from Histological and MRI Images using Image2 3D, a MATLAB Application

ABSTRACT:Quantification of vocal fold geometry is necessary for the development of anatomically realistic and consistently defined experimental/computational models of the glottic and subglottic regions. This technical memo primarily provides the…

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0000008: Detailed three-dimensional anatomic characterization of the canine posterior cricoarytenoid, lateral cricoarytenoid, interarytenoid, thyroarytenoid

ABSTRACT:Detailed muscle information is valuable for developing increasingly complex bio-mechanical models of the larynx (e.g., size, direction, structure, shape at origin and insertion). This report contains data of four male…

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0000005: Detailed Three-dimensional Anatomic Characterization of the Human and Canine Thyroarytenoid and Cricothyroid Muscles

ABSTRACT:Detailed muscle information has become increasingly valuable as biomechanical models of the larynx have grown in complexity. For example, it has become progressively important to have more details of laryngeal…

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0000004: Creating Virtual 3-D Laryngeal Models from CT and Histological Data in MATLAB

ABSTRACT:Physiologic movement of the vocal fold/arytenoid complex occurs in three dimensions. However, most current modalities of clinical and imaging assessment of laryngeal function rely on two-dimensional information. This memo describes…

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0000003: Removing Patient Information from MRI and CT Images Using MATLAB

ABSTRACT:Magnetic resonance images (MRIs) X-ray computed tomography (CT) scans have become essential tools in both the clinical and research environment for obtaining anatomical information in both patients and tissue samples.…

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0000002: Building Vocal Fold Solid Models from MRI/CAD Models Created from CT and Histological Data

ABSTRACT:Quantification of vocal fold geometry is necessary for the development of anatomical realistic and consistently defined experimental/computational models of the glottic and subglottic regions. Such models will facilitate the study…

Continue Reading0000002: Building Vocal Fold Solid Models from MRI/CAD Models Created from CT and Histological Data