Human cochlear hydrodynamics: A high-resolution μCT-based finite element study

Paolis, Annalisa De; Watanabe, H.; Nelson, Jeremy T.; Bikson, Marom; Packer, Mark D.; Cardoso, Luís

doi:10.1016/j.jbiomech.2016.11.020

Cited by 17 publications

(10 citation statements)

References 25 publications

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“…In the present study, we did not model the movement of the inner ear fluids or blood perfusion within the cochlea. Several studies have confirmed the presence of local and temporal pressure gradients that may be important factors contributing to heat transfer (De Paolis et al 2017; Olson 1999; Salt et al 2001; Salt et al 1986). The present model also does not take into account differences in soft and hard tissues in the human ear and may benefit from higher resolution, micro-computer tomography (CT) geometric model (De Paolis et al 2017; Manoussaki and Chadwick 2000).…”

Section: Discussionmentioning

confidence: 93%

“…Several studies have confirmed the presence of local and temporal pressure gradients that may be important factors contributing to heat transfer (De Paolis et al 2017; Olson 1999; Salt et al 2001; Salt et al 1986). The present model also does not take into account differences in soft and hard tissues in the human ear and may benefit from higher resolution, micro-computer tomography (CT) geometric model (De Paolis et al 2017; Manoussaki and Chadwick 2000). Finally, based upon our previously published experiments in the rat model of cochlear implantation (Tamames et al 2016), we developed the hypothermia protocol to incorporate rewarming the cochleae to baseline temperature.…”

Section: Discussionmentioning

confidence: 93%

“…Following these studies, we utilized Pennes bio-heat equation and finite element analysis to simulate the temperature distribution in the cochlea during therapeutic hypothermia. Studies of heat distribution in the cochlea during infrared stimulation utilized simplified geometries to effectively identify an increase of the cochlear temperature (De Paolis et al 2017; Liljemalm et al 2013; Manoussaki et al 2000; Zhang et al 2015). The present study produced a novel numerical analysis model that instead used true 3D inner ear organ and temporal bone geometries derived from MRI and CT scans.…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Theoretical Evaluation and Experimental Validation of Localized Therapeutic Hypothermia Application to Preserve Residual Hearing After Cochlear Implantation

Tamames

King²,

Huang

et al. 2018

Ear &Amp; Hearing

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There was a close correlation between the results of the numerical simulations and experimental observations in this study. Our custom-designed system is capable of effectively providing mild therapeutic hypothermia locally to the human cochlea. When combined with results from in vivo animal experiments, the present study suggests that the application of localized therapeutic hypothermia may hold potential for patients with an aim to preserve residual hearing after cochlear implantation.

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Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Theoretical Evaluation and Experimental Validation of Localized Therapeutic Hypothermia Application to Preserve Residual Hearing After Cochlear Implantation

Tamames

King²,

Huang

et al. 2018

Ear &Amp; Hearing

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“…The risk of perilymph leakage can be mitigated by plugging fascia to RWM perforations, but the outcome is unpredictable. 104 , 105 Another unwanted effect observed in intra-cochlear administration is restricted viral distribution secondary to the low flow rate of cochlear fluid in adult mice. After RWM injection, a high local concentration of viral vectors was found with an efficiency gradient from base to apex due to slow distribution and subsequently, poor transduction leading to a high therapeutic concentration in the basal area but sub-therapeutic in the apical area.…”

Section: Delivery Routesmentioning

confidence: 99%

Advances and challenges in adeno-associated viral inner-ear gene therapy for sensorineural hearing loss

Bankoti

Generotti

Hwa

et al. 2021

Molecular Therapy - Methods & Clinical Development

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There is growing attention and effort focused on treating the root cause of sensorineural hearing loss rather than managing associated secondary characteristic features. With recent substantial advances in understanding sensorineural hearing-loss mechanisms, gene delivery has emerged as a promising strategy for the biological treatment of hearing loss associated with genetic dysfunction. There are several successful and promising proof-of-principle examples of transgene deliveries in animal models; however, there remains substantial further progress to be made in these avenues before realizing their clinical application in humans. Herein, we review different aspects of development, ongoing preclinical studies, and challenges to the clinical transition of transgene delivery of the inner ear toward the restoration of lost auditory and vestibular function.

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“…Optimal designed ossicular prosthesis and cochlear implant electrodes, as well as their precise insertion are possible thanks to the development of computer-aided engineering (CAE) and computer-aided surgery (CAS): design of the ossicular prosthesis and cochlear implant electrodes is greatly simplified by computer-aided design (CAD) [4,5]; afterwards verification and optimization of them are achieved by finite element method (FEM) [6,7,10]; due to the complexity and small scale of the structure of the middle and the inner ear, CAS is usually applied in preoperative surgery planning and navigation during the surgery [8,9].…”

Section: Introductionmentioning

confidence: 99%

Segmentation and reconstruction of the 3D geometry of the middle and inner ear

2017

ITM Web Conf.

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Abstract. The anatomical model of the ear is of great importance in the design of ossicular prosthesis, cochlear implant electrodes, as well as for the preoperative planning and navigation of surgery. By means of micro-computed tomography (micro-CT) and technology of 3D reconstruction, an anatomical model of the middle and inner ear was built. Region of interest includes the ossicular chain (malleus, incus, and stapes), cochlea (scala vestibule-ST, scala tympani-ST, basilar membrane-BM, spiral ligament-SL and osseous spiral lamina-OSL), tympanic membrane-TM, oval window membrane-OWM, round window membrane-OWM and stapedial annular ligament-SAL. The micro-CT images of a cadaver's temporal bone were acquired by "SkyScan 1076" (Kontich, Belgium, www.skyscan.be) and then reconstructed to cross-section images by SkyScan NRecon™ (v1.6.10.4). The image processing and 3D geometry reconstruction of temporal bone were performed by software Mimics® (v14.0, Materialise NV, Leuven, Belgium). The obtained structures are measured and validated against literature data and the results are in good agreement.

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Human cochlear hydrodynamics: A high-resolution μCT-based finite element study

Cited by 17 publications

References 25 publications

Theoretical Evaluation and Experimental Validation of Localized Therapeutic Hypothermia Application to Preserve Residual Hearing After Cochlear Implantation

Theoretical Evaluation and Experimental Validation of Localized Therapeutic Hypothermia Application to Preserve Residual Hearing After Cochlear Implantation

Advances and challenges in adeno-associated viral inner-ear gene therapy for sensorineural hearing loss

Segmentation and reconstruction of the 3D geometry of the middle and inner ear

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