Experimental study on the influence of model variations on the airway occlusion of an obstructive sleep apnea patient

Experimental study on the influence of model variations on the airway occlusion of an obstructive sleep apnea patient

This study deals with the analysis of model parameters to mimic the airway collapse of an obstructive sleep apnea patient during nasal breathing. Different material properties and geometry variations of a patient-specific airway model are analyzed in detail. The patient-specific airway geometry is o...

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Bibliographic Details
Published in:Journal of biomechanics Vol. 123; p. 110529
Main Authors: Arnold, M., Burgmann, S., Bonitz, L., Pugachev, A., Janoske, U.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 23-06-2021
Elsevier Limited
Subjects:
Air flow
Apnea
Approximation
Cardiovascular disease
Cavities
Collapsible airway
Experimental study
Geometry
Impact analysis
Magnetic resonance imaging
Mandible
Material properties
Medical research
Mouth
Obstructive sleep apnea
Occlusion
Pathophysiology
Pressure
Pressure curve
Pressure distribution
Pressure drop
Respiratory tract
Silicone models
Silicones
Sleep
Sleep apnea
Sleep disorders
Soft tissue elasticity
Soft tissues
Substance abuse treatment
Three dimensional models
Three dimensional printing
Turbulence models
Variation
Soft tissue elasticity
Experimental study
Obstructive sleep apnea
Silicone models
Collapsible airway
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Summary:This study deals with the analysis of model parameters to mimic the airway collapse of an obstructive sleep apnea patient during nasal breathing. Different material properties and geometry variations of a patient-specific airway model are analyzed in detail. The patient-specific airway geometry is obtained from MRI data. A completely rigid model is compared to two partly elastic variations with different elasticities. Furthermore, the influence of the nasal cavities and the treatment effect of a mandibular protrusion are studied. Rigid model parts are 3D-printed and elastic parts cast from silicone. The models are analyzed under the impact of a transient airflow which is realized through a computer controlled piston pump. The results suggest, that, for moderate deformations, the elasticity of the soft tissue replicate influences rather the level of the pressure drop inside the airway than the shape of the pressure curve. The same suggestion can be made for the influence of the nasal cavities. Often, the spatial location of the minimum pressure is taken as the collapse site of the airway geometry. This study demonstrates, that the spatial locations of the minimum pressure and the maximum deformation do not match. This reveals the importance of a coupled approach of soft tissue and airflow analysis in the search of the collapse site and therefore the best treatment option. A treatment effect of the mandibular protrusion can be anticipated with an accurate patient-specific airway model.
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content type line 23
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2021.110529