Explore the vast range of titles available.

Scalar translocation is a severe form of intra-cochlear trauma during cochlear implant (CI) electrode insertion. This study explored the hypothesis that the dimensions of the cochlear basal turn and orientation of its inferior segment relative to surgically relevant anatomical structures influence the scalar translocation rates of a pre-curved CI electrode. In a cohort of 40 patients implanted with the Advanced Bionics Mid-Scala electrode array, the scalar translocation group (40%) had a significantly smaller mean distance A of the cochlear basal turn ( p  < 0.001) and wider horizontal angle between the inferior segment of the cochlear basal turn and the mastoid facial nerve ( p  = 0.040). A logistic regression model incorporating distance A ( p  = 0.003) and horizontal facial nerve angle ( p  = 0.017) explained 44.0–59.9% of the variance in scalar translocation and correctly classified 82.5% of cases. Every 1mm decrease in distance A was associated with a 99.2% increase in odds of translocation [95% confidence interval 80.3%, 100%], whilst every 1-degree increase in the horizontal facial nerve angle was associated with an 18.1% increase in odds of translocation [95% CI 3.0%, 35.5%]. The study findings provide an evidence-based argument for the development of a navigation system for optimal angulation of electrode insertion during CI surgery to reduce intra-cochlear trauma.

Purpose The association of internal auditory canal (IAC) fundal diverticula with otospongiosis (OS) and their clinical significance remain unclear. We explored whether isolated IAC diverticula were morphologically different from those with additional CT features of OS, and whether IAC diverticula morphology influenced patterns of hearing loss. Methods Consecutive temporal bone CT studies with ( n  = 978) and without ( n  = 306) features of OS were retrospectively assessed. Two independent observers evaluated the presence of IAC diverticula morphological features (depth, neck:depth ratio, definition of contour and angulation of shape), and these were correlated with the presence of fenestral and pericochlear OS. Audiometric profiles were analysed for the isolated IAC diverticula and those with fenestral OS alone. Continuous data was compared using Wilcoxon rank sum tests and categorical data with chi-squared and Fisher’s exact tests. Results Ninety-five isolated IAC diverticula were demonstrated in 54/978 patients (5.5%) without CT evidence of OS (31M, 23F, mean age 46), and 119 IAC diverticula were demonstrated in 71/306 patients (23%) with CT evidence of OS (23M, 48F, mean age 55). Reduced neck:depth ratio, ill definition and angulation were all significantly associated with the presence of pericochlear OS ( p  < 0.001), whilst only ill definition was associated with the presence of fenestral OS alone ( p  < 0.05). No morphological feature was associated with conductive hearing loss in isolated diverticula or with sensorineural hearing loss in diverticula with fenestral OS alone. Conclusion IAC diverticula associated with pericochlear OS demonstrate different morphological features from isolated IAC diverticula. There are no clear audiometric implications of these morphological features.

Background Whilst delayed post-gadolinium MRI has led to a shift in the diagnostic paradigm of Meniere’s Disease (MD), there remains a strong desire to develop a non-contrast enhanced MRI technique to detect and monitor MD. The endolymphatic space (ES) undergoes hydropic expansion in Ménière’s Disease (MD) and the concentration of sodium ions in the endolymph is at least 10 times lower than that in the perilymph. It was hypothesised that the lower sodium ( 23 Na) concentration in the endolymph relative to the surrounding perilymph would result in a differential reduction in 23 Na-MRI signal in inner ears with endolymphatic hydrops (EH). This proof of principle study explored the feasibility of 7-Tesla (7T) 23 Na-MRI to lateralise EH ears in unilateral MD. Methods In this prospective study, 7T 23 Na-MRI was performed in participants with both unilateral definite MD and severe vestibulo-cochlear EH on a delayed post-gadolinium real inversion recovery sequence. Two blinded independent observers qualitatively graded the visibility and anatomical compatibility of inner ear 23 Na MRI signal intensity (NaSI), before and after registering to 3D T2-weighted (T2w) MRI and determined the certainty of EH laterality. The internal auditory meatus (IAM), cochlea and vestibule were segmented using 3D Slicer and NaSI was quantified. Inner ear median NaSI were scaled to the adjacent IAM median NaSI and compared between the two ears. Results In 4 unilateral MD participants (mean age 60.3 years, 2 men), both observers correctly predicted EH laterality in 1/4 before and 3/4 participants after fusion to 3D T2w MRI. There was no incorrect lateralisation of EH by either observer, either before or after registration and fusion. In the 3 participants correctly lateralised, quantitative analysis revealed the median inner ear NaSI scaled to the ipsilateral IAM was 1.2–2.8 times higher in the normal cochlea and 1.9–2.9 times higher in the vestibule, compared to the EH ear. Intraclass correlation coefficient for inner ear median NaSI was 0.70. Conclusion This exploratory study revealed the potential for severe EH to be qualitatively and quantitatively lateralised with 7T 23 Na MRI in patients with unilateral definite MD. Trial registration NCT04370366; registered 29/4/20.

BACKGROUND: Since its introduction by Wullstein, the binocular surgical microscope has remained the gold standard of visualization in the field of otology. However, in the last decade, new technology became available in the form of the three-dimensional (3D) exoscope. In this article, we describe our experience thus far in pediatric cochlear implantation with the 3D exoscope. METHODS: This article is about prospective descriptive study of all exoscopic cochlear implant (CI) cases in a quaternary pediatric CI center performed with the Vitom[R] 3D system. All pediatric patients (age <18) were included without exclusion criteria, and our experience and conversion to microscope rates are reported. RESULTS: Since the introduction of the exoscope to our unit, we have successfully performed 68 cases, of which 53 were bilateral cochlear implantations. The age of the patient varied between 10 months and 209 months (average: 64 months; median 46.5 months). There were a total of 121 implantations (96 primary implantations, 24 revision implantations). There were 2 conversions to the traditional microscopic technique. CONCLUSION: The exoscope provides a 3D high-definition (4K) images in CI surgery. There is limited data regarding its use, and we identified a number of advantages including efficiency, occupational health, theater utilization, surgical training, and safety. Although there are areas still for improvement, such as loss of signal-to-noise ratio at higher magnification, manual focus, and lack of electromagnetic articulation in the holding arm, we have found it to be a useful addition to the surgical armamentarium within pediatric cochlear implantation. KEYWORDS: Children with cochlear implants, cochlear implantation, ear surgery

We prospectively evaluated the surgical, audiologic, and quality-of-life outcomes in 5 patients—2 men and 3 women, aged 22 to 64 years (mean: 41.8)—who were implanted with the Sophono Alpha 2 MPO Processor. The indications for implantation of this bone-conduction device included recurrent ear canal infections with hearing aids (n = 3), single-sided deafness (n = 1), and patient preference in view of difficulty using a conventional hearing aid (n = 1). In addition to the patient with single-sided deafness, 3 patients had a bilateral mixed hearing loss and 1 had a bilateral conductive hearing loss. Outcomes measures included surgical complications, functional gain (FG), speech discrimination in quiet and noise, and patient satisfaction as determined by the Glasgow Benefit Inventory (GBI) and the Entific Medical Systems bone-anchored hearing aid questionnaire (BAQ). The only postsurgical complication noted was a minor skin reaction and pain in 1 patient that resolved with conservative management. In the 3 patients with the mixed hearing loss, the mean FG was 13.3, 20.0, 11.7, and 11.7 dB at 0.5, 1, 2, and 4 kHz, respectively; in the patient with the bilateral conductive hearing loss, the FG was 10, 25, 10, and 15 dB at the same frequencies. Speech discrimination scores with the Sophono device were comparable to those seen with conventional hearing aids. After implantation, all 5 patients experienced a positive quality-of-life outcome according to the GBI, although 1 of them had only a marginal improvement. On follow-up, all patients reported that they remained satisfied with their implant and that they used their device all day long. We conclude that the Sophono bone-conduction system is a safe and effective option that should be considered for patients with a mixed or conductive hearing loss who are unable to use a conventional hearing aid, as well as for those with single-sided deafness.

Objectives The primary objective was to determine whether the narrowest dimensions of the labyrinthine facial nerve (LFN) canal on the symptomatic side in patients with unilateral recurrent Bell's palsy (BP) differ from those on the contralateral side or in asymptomatic, age‐ and gender‐matched controls on computed tomography (CT). The secondary objectives were to assess the extent of bony covering at the geniculate ganglion and to record inter‐observer reliability of the CT measurements. Methods The dimensions of the LFN canal at its narrowest point perpendicular to the long axis and the extent of bony covering at the geniculate ganglion were assessed by two radiologists. Statistical analysis was performed using the Wilcoxon signed‐rank and Mann‐Whitney U tests (LFN canal dimensions) and the Chi‐squared test (bony covering at the geniculate ganglion). Inter‐observer reliability was evaluated using Intra‐Class Correlation (ICC) and Cohen's kappa. Results The study included 21 patients with unilateral recurrent BP and 21 asymptomatic controls. There was no significant difference in the narrowest dimensions of the ipsilateral LFN canal when compared to the contralateral side or controls (P = .43‐.94). Similarly, there was no significant difference in the extent of bony covering at the geniculate ganglion when compared to either group (P = .19‐.8). Good inter‐observer reliability was observed for LFN measurements (ICC = 0.75‐0.88) but not for the bony covering at the geniculate ganglion (Cohen's kappa = 0.53). Conclusion The narrowest dimensions of the LFN canal and the extent of bony covering at the geniculate ganglion do not differ in unilateral recurrent BP, casting doubt over their etiological significance. Level of Evidence Level IV. Two observers evaluated the narrowest dimensions of the labyrinthine facial nerve canal and the extent of bony covering at the geniculate ganglion on computed tomography (CT), in 21 patients with unilateral recurrent Bell's Palsy and 21 matched asymptomatic controls. There was no significant difference in the dimensions of the ipsilateral (symptomatic) labyrinthine facial nerve canal or the geniculate ganglion bony covering in patients with unilateral recurrent Bell's Palsy, either when comparing to the contralateral side or to asymptomatic controls. This casts doubt over their aetiological significance of these CT findings in cases of recurrent BP.