Anatomical Variations of Modiolus in Relation with Vestibular and Cranial Morphology on CT Scans

Guigou, Caroline; Hussain, Raabid; Lalande, Alain; Grayeli, Alexis Bozorg

doi:10.3390/anatomia2010009

Anatomia

2023

DOI: 10.3390/anatomia2010009

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Anatomical Variations of Modiolus in Relation with Vestibular and Cranial Morphology on CT Scans

Caroline Guigou

Raabid Hussain²,

Alain Lalande

et al.

Abstract: Background: Fundamental knowledge of the anatomy and physiology of the inner ear is necessary to understand otologic diseases and therapeutic strategies. Aim: Evaluate the inter- and intraindividual variability of the modiolar position in relation to vestibular landmarks and cranial morphology on computed tomography scans (CT scan). Methods: Thirty CT scans of normal temporal bones (25 adults, 5 children) were analyzed after multiplanar reconstruction (MPR). The measurements for each ear included the angle of … Show more

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2024

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Cochlear Apex Triangulation Utilizing Ct Measures And Middle Ear Landmarks

Cottrell,

Landsberger,

Breen

et al. 2024

Otology &Amp; Neurotology Open

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Objective: To better characterize the cochlear apex in relation to surgically relevant landmarks to guide surgeons and improve procedural success of apical electrode placement. Study Design: Retrospective image analysis. Setting: Tertiary referral center. Patients: Cochlear implant recipients with available preoperative computed tomography (CT) imaging. Intervention: None. Main Outcome Measure: Cochlear dimensions and cochlear apex distance measures to surgically relevant middle ear landmarks and critical structures. Results: Eighty-two temporal bone CT scans were analyzed utilizing multiplanar reformats. The average lateral width of promontory bone over the cochlear apex was 1.2 mm (standard deviation [SD], 0.3). The anteroposterior distance from the round window (avg, 4.2 mm; SD, 0.5), oval window (avg, 3.3 mm; SD, 0.3), cochleariform process (avg, 2.3; SD, 0.5), and superior-inferior distance from the cochleariform process (avg, −0.9; SD, 0.8) to the cochlear apex were measured. The relationship of the cochlear apex to critical structures was highly variable. A newly developed stapes vector was created and found to mark the posterior/superior boundary of the apex in 94% of patients. When a vector parallel to the stapes vector was drawn through the round window, it marked the anterior/inferior boundary of the cochlear apex in 89% of patients. Conclusions: This study assists in characterizing cochlear apex anatomy and its relation to surrounding structures as a means of improving procedural accuracy and reducing trauma during apical cochleostomy. Understanding both distance relationships and expected boundaries of the apex could help to inform future surgical approaches.

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Cochlear Apex Triangulation Utilizing Ct Measures And Middle Ear Landmarks

Cottrell,

Landsberger,

Breen

et al. 2024

Otology &Amp; Neurotology Open

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show abstract

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Anatomical Variations of Modiolus in Relation with Vestibular and Cranial Morphology on CT Scans

Cited by 1 publication

References 19 publications

Cochlear Apex Triangulation Utilizing Ct Measures And Middle Ear Landmarks

Cochlear Apex Triangulation Utilizing Ct Measures And Middle Ear Landmarks

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