Fully Automated Measurement of Cochlear Duct Length From Clinical Temporal Bone Computed Tomography.

OBJECTIVES/HYPOTHESIS: To present and validate a novel fully automated method to measure cochlear dimensions, including cochlear duct length (CDL). STUDY DESIGN: Cross-sectional study. METHODS: The computational method combined 1) a deep learning (DL) algorithm to segment the cochlea and otic capsule and 2) geometric analysis to measure anti-modiolar distances from the round window to the apex. The algorithm was trained using 165 manually segmented clinical computed tomography (CT). A Testing group of 159 CTs were then measured for cochlear diameter and width (A- and B-values) and CDL using the automated system and compared against manual measurements. The results were also compared with existing approaches and historical data. In addition, pre- and post-implantation scans from 27 cochlear implant recipients were studied to compare predicted versus actual array insertion depth. RESULTS: Measurements were successfully obtained in 98.1% of scans. The mean CDL to 900° was 35.52 mm (SD, 2.06; range, [30.91-40.50]), the mean A-value was 8.88 mm (0.47; [7.67-10.49]), and mean B-value was 6.38 mm (0.42; [5.16-7.38]). The R2 fit of the automated to manual measurements was 0.87 for A-value, 0.70 for B-value, and 0.71 for CDL. For anti-modiolar arrays, the distance between the imaged and predicted array tip location was 0.57 mm (1.25; [0.13-5.28]). CONCLUSION: Our method provides a fully automated means of cochlear analysis from clinical CTs. The distribution of CDL, dimensions, and cochlear quadrant lengths is similar to those from historical data. This approach requires no radiographic experience and is free from user-related variation. LEVEL OF EVIDENCE: 3 Laryngoscope, 132:449-458, 2022.

Variations in cochlear size of cochlear implant candidates

Introduction: The cochlear anatomy varies in each individual, and that has an impact on decisions regarding the insertion of electrodes. The measurement of the cochlear size is the routine examination required to choose the proper cochlear implant (CI) electrodes. Objective: To acquire normative data on the size of the cochlea (length, width, height, scala timpani [ST] height, cochlear duct length [CDL]) of CI candidates in Medan, Indonesia. Methods: This descriptive study was conducted based on high-resolution computed tomography (HRCT) temporal bone data and on HRCT temporal data manipulated to reconstruct three-dimensional (3D) multiplanar images with OsiriX MD DICOM Viewer version 9.5.1 (Pixmeo SARL, Bernex, Geneva, Switzerland) viewer of 18 patients (36 ears) who were CI candidates in Medan, Indonesia, in order to determine cochlear length (A), cochlear width, cochlear height, ST height and CDL, calculated through a simple mathematical function. Results: The average cochlear length (A) was 8.75 mm (standard deviation [SD] = 0.31 mm); the average cochlear width was 6.53 mm (SD = 0.35 mm); the average cochlear height was 3.26 mm (SD = 0.24 mm) and the average ST height at the basal cochlea was 1.00 mm (SD = 0.1mm); and 0.71 mm (SD = 0.1 mm) at the half turn of cochlea. The average total CDL was 32.45 mm (SD = 1.31 mm; range: 30.01-34.83 mm). Conclusion: The cochlear size varies in each individual; therefore, the temporal bone measurement of CI candidates using HRCT is essential: for the selection of suitable implant electrodes; to minimize cochlear damages at the insertion of the electrode arrays; and to maximize the hearing improvements (AU)

Imágenes en anatomía coclear TC y RM / Cochlear anatomy CT and MR imaging

Los autores ofrecen un breve repaso de anatomía normal de la cóclea con imágenes de TC y RM a fin de posibilitar una más acabada identificación de hallazgos patológicos en pacientes con hipoacusia perceptiva (AU)

El órgano auditivo de la lagartija Sceloporus torcuatus: estudio anatómico y funcional / The hearing organ of lizard Sceloporus torcuatus: an anatomical and physiological study

Se hace una breve descripción de la anatomía del oído externo y de la fisiología auditiva de Sceloporus torcuatus. Se señala que la depresión formada por el conducto auditivo externo esta parcialmente cubierta por escamas de mayor tamaño que las normales, las que además tienen forma diferente al resto de las escamas de la región, por lo que se les dio un nombre especial, denominándolas escamas frontales del oído externo. Se describe detalladamente el conducto coclear, poniendo énfasis en la histología del mismo. También se describen algunos epitelios, tales como los de la papila basilar (órgano de la audición), las manchas de la lagena y la pared vestibular del conducto coclear, esta última se ha considerado en otros reptiles como tejido secreto. La similitud morfológica entre la pared vestibular del conducto coclear de esta especie, la estría vascular de los mamíferos y el tegumento vasculoso de las aves, sugiere semejanzas funcionales de estas estructuras. Se usaron potenciales evocados auditivos del tallo cerebral para estudiar esta especie reptiliana. Se encontró (con clics) el umbral de potenciales de estímulos auditivos a 40 dB