Scientific Reports (Apr 2021)

A novel cochlear measurement that predicts inner-ear malformation

  • Tawfiq Khurayzi,
  • Fida Almuhawas,
  • Abdulrahman Alsanosi,
  • Yassin Abdelsamad,
  • Úna Doyle,
  • Anandhan Dhanasingh

DOI
https://doi.org/10.1038/s41598-021-86741-x
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 9

Abstract

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Abstract The A-value used in cochlear duct length (CDL) estimation does not take malformed cochleae into consideration. The objective was to determine the A-value reported in the literature, to assess the accuracy of the A-value measurement and to evaluate a novel cochlear measurement in distinguishing malformed cochlea. High resolution Computer Tomography images in the oblique coronal plane/cochlear view of 74 human temporal bones were analyzed. The A-value and novel C-value measurement were evaluated as predictors of inner ear malformation type. The proximity of the facial nerve to the basal turn was evaluated subjectively. 26 publications report on the A-value; but they do not distinguish normal vs. malformed cochleae. The A-values of the normal cochleae compared to the cochleae with cochlear hypoplasia, incomplete partition (IP) type I, -type II, and -type III were significantly different. The A-value does not predict the C-value. The C-values of the normal cochleae compared to the cochleae with IP type I and IP type III were significantly different. The proximity of the facial nerve to the basal turn did not relate to the type of malformation. The A-value is different in normal vs. malformed cochleae. The novel C-value could be used to predict malformed anatomy, although it does not distinguish all malformation types.