Ultra-High-Field Magnetic Resonance Imaging of the Human Inner Ear at 11.7 Tesla

Thylur, David S.; Jacobs, Russell E.; Go, John L.; Toga, Arthur W.; Niparko, John K.

doi:10.1097/mao.0000000000001242

Cited by 26 publications

(21 citation statements)

References 19 publications

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“…The methods, including details about the scanning parameters, have been described in detail in earlier publications 2 , 3 . Data analysis was conducted with VGStudio Max CT software, versions 1 and 2.…”

Section: Methodsmentioning

confidence: 99%

“…The anatomy of the membranous labyrinth and its effect on disease processes is extremely difficult to study given the limited access to the otic capsule. Advances in imaging tools, such as micro computed tomography (CT) technology 1 , 2 and high-resolution magnetic resonance imaging, 3 , 4 allow new perspectives of this anatomy, with relevance to current and future interventions.…”

Section: Introductionmentioning

confidence: 99%

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Three-dimensional study of vestibular anatomy as it relates to the stapes footplate and its clinical implications: an augmented reality development

2019

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BackgroundThe anatomy of the membranous labyrinth within the vestibule has direct implications for surgical intervention. The anatomy of the otoliths has been studied, but there is limited information regarding their supporting connective tissue structures such as the membrana limitans in humans.MethodsOne guinea pig and 17 cadaveric human temporal bones were scanned using micro computed tomography, after staining with 2 per cent osmium tetroxide and preservation with Karnovsky's solution, with a resolution from 1 µm to 55 µm. The data were analysed using VGStudio Max software, rendered in three-dimensions and published in augmented reality.ResultsIn 50 per cent of ears, the membrana limitans attached directly to the postero-superior part of the stapes footplate. If attachments were present in one ear, they were present bilaterally in 100 per cent of cases.ConclusionMicro computed tomography imaging allowed three-dimensional assessment of the inner ear. Such assessments are important as they influence the surgical intervention and the evolution of future innovations.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Three-dimensional study of vestibular anatomy as it relates to the stapes footplate and its clinical implications: an augmented reality development

2019

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“…Aktuelle Studien beziehen sich bspw. auf die Anwendungsmöglichkeiten zur Darstellung des menschlichen Innenohrs [6] oder des Okzipitallappens [7]. Die UHF-MRT eignet sich ebenfalls sehr gut für die Bildgebung am Auge.…”

Section: Ultrahochfeld-mrt Am Hühnerembryo In Ovoein Modell Für Die Eunclassified

Ultrahochfeld-MRT am Hühnerembryo in ovo – ein Modell für die experimentelle Ophthalmologie

Klose

Streckenbach

Hadlich

et al. 2017

Klin Monatsbl Augenheilkd

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Ultra-high-field MRI (UHF-MRI) is an outstanding technique for non-invasive and non-destructive imaging of soft tissues and can provide versatile contrasts and high resolution in the µm range. In vivo imaging of the embryonal chick eye with its filigree anatomical structures imposes these requirements. However, due to the short embryonal development cycle, chicken are a favourite animal model for embryonal research studies. Ultra-high-field MRI allows repeated and longitudinal in ovo investigations on the same embryo. In the present study, the limitations and opportunities of in ovo MR-imaging at 7 T were evaluated and the process of eye growth was described in detail.

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“…The same limitation applies to two other imaging methods that provide images of in vitro inner ear specimens, namely, orthogonal plane fluorescence optical sectioning microscopy (Hofman, Segenhout, & Wit, ; Santi, Rapson, & Voie, ; Voie, ; Voie, Burns, & Spelman, ; Voie & Spelman, ) and thin‐sheet laser imaging microscopy (Buytaert et al, ; Kopecky, Duncan, et al, ; Kopecky, Johnson, Schmitz, Santi, & Fritzsch, ; Lo et al, ). For in vivo imaging of the inner ear, high‐field MRI (Counter et al, ; Thylur, Jacobs, Go, Toga, & Niparko, ; van Egmond, Visser, Pameijer, & Grolman, ; van Egmond, Visser, Pameijer, & Grolman, ; Zou et al, ) and optical coherence tomography (Cho, Jang, Jung, & Kim, ; Subhash et al, ) have been attempted, but their resolution was limited for some inner ear micro‐structures, such as the SM and the UM.…”

Section: Introductionmentioning

confidence: 99%

Investigation of inner ear anatomy in mouse using X‐ray phase contrast tomography

Yin

Zhang

Wang

et al. 2019

Microscopy Res & Technique

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A thorough understanding of inner ear anatomy is important for investigators. However, investigation of the mouse inner ear is difficult due to the limitations of imaging techniques. X-ray phase contrast tomography increases contrast 100-1,000 times compared with conventional X-ray imaging. This study aimed to investigate inner ear anatomy in a fresh post-mortem mouse using X-ray phase contrast tomography and to provide a comprehensive atlas of microstructures with less tissue deformation. All experiments were performed in accordance with our institution's guidelines on the care and use of laboratory animals. A fresh mouse cadaver was scanned immediately after sacrifice using an inline phase contrast tomography system. Slice images were reconstructed using a filtered back-projection (FBP) algorithm. Standardized axial and coronal planes were adjusted with a multi-planar reconstruction method. Some three-dimensional (3D) objects were reconstructed by surface rendering. The characteristic features of microstructures, including otoconia masses of the saccular and utricular maculae, superior and inferior macula cribrosae, single canal, modiolus, and osseous spiral lamina, were described in detail. Spatial positions and relationships of the vestibular structures were exhibited in 3D views. This study investigated mouse inner ear anatomy and provided a standardized presentation of microstructures. In particular, otoconia masses were visualized in their natural status without contrast for the first time. The comprehensive anatomy atlas presented in this study provides an excellent reference for morphology studies of the inner ear. K E Y W O R D S inner ear, otoconia, phase contrast imaging, saccular macula, utricular macula

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Ultra-High-Field Magnetic Resonance Imaging of the Human Inner Ear at 11.7 Tesla

Cited by 26 publications

References 19 publications

Three-dimensional study of vestibular anatomy as it relates to the stapes footplate and its clinical implications: an augmented reality development

Three-dimensional study of vestibular anatomy as it relates to the stapes footplate and its clinical implications: an augmented reality development

Ultrahochfeld-MRT am Hühnerembryo in ovo – ein Modell für die experimentelle Ophthalmologie

Investigation of inner ear anatomy in mouse using X‐ray phase contrast tomography

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