Bruno Areias scite author profile

Bruno Areias

4Publications

45Citation Statements Received

101Citation Statements Given

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Affiliations

Institute of Mechanical Engineering and Industrial Mangement, University of Porto

Publications

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Finite element modelling of sound transmission from outer to inner ear

Areias

Santos

Jorge

et al. 2016

Proc Inst Mech Eng H

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The ear is one of the most complex organs in the human body. Sound is a sequence of pressure waves, which propagates through a compressible media such as air. The pinna concentrates the sound waves into the external auditory meatus. In this canal, the sound is conducted to the tympanic membrane. The tympanic membrane transforms the pressure variations into mechanical displacements, which are then transmitted to the ossicles. The vibration of the stapes footplate creates pressure waves in the fluid inside the cochlea; these pressure waves stimulate the hair cells, generating electrical signals which are sent to the brain through the cochlear nerve, where they are decoded. In this work, a three-dimensional finite element model of the human ear is developed. The model incorporates the tympanic membrane, ossicular bones, part of temporal bone (external auditory meatus and tympanic cavity), middle ear ligaments and tendons, cochlear fluid, skin, ear cartilage, jaw and the air in external auditory meatus and tympanic cavity. Using the finite element method, the magnitude and the phase angle of the umbo and stapes footplate displacement are calculated. Two slightly different models are used: one model takes into consideration the presence of air in the external auditory meatus while the other does not. The middle ear sound transfer function is determined for a stimulus of 60 dB SPL, applied to the outer surface of the air in the external auditory meatus. The obtained results are compared with previously published data in the literature. This study highlights the importance of external auditory meatus in the sound transmission. The pressure gain is calculated for the external auditory meatus.

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Biomechanical Study of the Vestibular System of the Inner Ear Using a Numerical Method

et al. 2017

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Effects of the fibers distribution in the human eardrum: A biomechanical study

Gentil

Parente

Martins

et al. 2016

Journal of Biomechanics

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a b s t r a c tThe eardrum separates the external ear from the middle ear and it is responsible to convert the acoustical energy into mechanical energy. It is divided by pars tensa and pars flaccida. The aim of this work is to analyze the susceptibility of the four quadrants of the pars tensa under negative pressure, to different lamina propria fibers distribution. The development of associated ear pathology, in particular the formation of retraction pockets, is also evaluated. To analyze these effects, a computational biomechanical model of the tympano-ossicular chain was constructed using computerized tomography images and based on the finite element method. Three fibers distributions in the eardrum middle layer were compared: case 1 (eardrum with a circular band of fibers surrounding all quadrants equally), case 2 (eardrum with a circular band of fibers that decreases in thickness in posterior quadrants), case 3 (eardrum without circular fibers in the posterior/superior quadrant).A static analysis was performed by applying approximately 3000 Pa in the eardrum. The pars tensa of the eardrum was divided in four quadrants and the displacement of a central point of each quadrant analyzed. The largest displacements of the eardrum were obtained for the eardrum without circular fibers in the posterior/superior quadrant.

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Facial nerve—a clinical and anatomical review

Gentil¹,

Campos²,

Parente³

et al. 2019

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Bruno Areias

Finite element modelling of sound transmission from outer to inner ear

Biomechanical Study of the Vestibular System of the Inner Ear Using a Numerical Method

Effects of the fibers distribution in the human eardrum: A biomechanical study

Facial nerve—a clinical and anatomical review

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