Hypothesis Cochlear trauma due to electrode insertion can be detected in acoustic responses to low frequencies in an animal model with a hearing condition similar to patients using electroacoustic stimulation. Background Clinical evidence suggests that intracochlear damage during cochlear implantation negatively affects residual hearing. Recently, we demonstrated the utility of acoustically evoked potentials to detect cochlear trauma in normal hearing gerbils. Here, gerbils with noise-induced hearing loss were used to investigate the effects of remote trauma on residual hearing. Methods Gerbils underwent high-pass (4 kHz cutoff) noise exposure to produce sloping hearing loss. After one-month recovery, each animal’s hearing loss was determined from ABRs and baseline intracochlear recording of the cochlear microphonic (CM) and compound action potential (CAP) obtained at the round window. Subsequently, electrode insertions were performed to produce basal trauma while the acoustically generated potentials to a 1 kHz tone burst were recorded after each step of electrode advancement. Hair cell counts were made to characterize the noise damage and cochlear whole mounts were used to identify cochlear trauma due to the electrode. Results The noise exposure paradigm produced a pattern of hair cell, ABR and intracochlear potential losses that closely mimicked that of EAS patients. Trauma in the basal turn, in the 15 – 30 kHz portion of the deafened region, remote from preserved hair cells, induced a decline in intracochlear acoustic responses to the hearing preserved frequency of 1 kHz. Conclusions The results indicate that a recording algorithm based on physiological markers to low frequency acoustic stimuli can identify cochlear trauma during implantation. Future work will focus on translating these results for use with current cochlear implant technology in humans.
Objectives Cochlear implants (CI) perform especially well if residual acoustic hearing is retained and combined with the CI in the same ear (also termed hybrid or electric-acoustic stimulation). However, in most CI patients, residual hearing is at least partially compromised during surgery, and in some it is lost completely. At present, clinicians have no feedback on the functional status of the cochlea during electrode insertion. Development of an intraoperative physiological recording algorithm during electrode insertion could serve to detect reversible cochlear trauma and optimal placement relative to surviving hair cells. In this report, an animal model was used to assist in determining physiological markers for these conditions using a flexible electrode similar to human surgery. Design The animal model was the normal-hearing gerbil. The flexible electrodes had 1 to 2 platinum-iridium contacts embedded in a 200 µm diameter silastic carrier. As control experiments some insertions were also made with much smaller (50 µm diameter) rigid electrodes. In either case, the electrode was positioned at or just inside the round window membrane and subsequently advanced into the scala tympani longitudinally in 50 to 100 µm increments. After each advancement, acoustic stimulation was used to elicit a cochlear microphonic (CM) and compound action potential (CAP). Stimuli were suprathreshold tone bursts of 1 to 16 kHz in octave steps with 2 msec rise and fall times and a 10 msec plateau. Anatomical integrity of the cochlea was subsequently assessed using a whole-mount preparation. Results In contrast with the CAP, which was relatively stable during insertion, the CM showed a variety of changes related to electrode movement. To tone bursts of 1 to 8 kHz the CM typically remained stable or increased during the insertion before contact with cochlear structures. After contact, the potentials often dropped dramatically. The CM to 16 kHz was the most variable; in some cases it increased but in other cases it decreased early in the insertion and later showed large and abrupt increases. In some instances, this pattern was seen to progressively lower frequencies as well. Histological analysis and the gerbil frequency map indicate that electrode travel was limited to the basal turn (~4 mm from the hook) and did not intrude into the characteristic frequency regions of most frequencies used. Conclusions First, the CM provides a more sensitive indication of cochlear trauma than does the CAP. Second, stable or steady increases in the CM are a physiological marker for unimpeded travel through the scala tympani as the electrode approaches responding hair cells. Third, abrupt reductions in the CM across frequency are a physiological marker of contact with cochlear structures. Fourth, abrupt increases after a decline, which occurred primarily to 16 kHz but to a lesser degree to other frequencies as well, are a physiological marker for a release from contact. The interpretation is that as the tip of the electrode bends the shaft can ...
The microbiome of MEEs from children with chronic otitis media differs according to specific clinical features, such as mucin content, age and presence of hearing loss. These associations provide novel pathophysiologic insights across the spectrum of otitis media progression.
Objectives To examine applicant characteristics and behaviors associated with a successful match into otolaryngology residency. Methods Self‐reported survey data from applicants to otolaryngology residency between 2018 and 2020 were obtained from the Texas STAR database. Characteristics and predictors associated with a successful match were examined using Chi‐square tests, two‐sided t‐tests, and logistic regression models. Results A total of 315 otolaryngology residency applicants responded to the survey of whom 274 matched (87%) and 41 did not match (13%). Matched applicants had a significantly higher mean USMLE Step 1 score (P = .016) and Step 2 CK score (P = .007). There were no significant differences in AOA status (45% vs 36%; P = .207), mean number of applications submitted (70 vs 69; P = .544), and mean number of away rotations (2.1 vs 2.0; P = .687) between matched and unmatched applicants. Significant predictors of a successful match included receiving honors in 5 or more clerkships (OR 2.0, 95% CI 1.0‐4.0; P = .040), receiving honors in an ENT clerkship (OR 3.7, 95% CI 1.0‐12.9; P = .044), and having 3 or more peer‐reviewed publications (OR 2.3, 95% CI 1.1‐4.5; P = .020). The majority of applicants (79.9%) matched at a program where they either did an away rotation, had a personal geographic connection, or attended medical school in the same geographic region. Conclusions Board scores, excelling on clinical rotations, and having productive research experience appear to be strong predictors of a successful match in otolaryngology. The majority of applicants report a personal or geographic connection to the program at which they match. Level of evidence 4.
Objectives Simulation‐based boot camps have gained popularity over the past few years, with some surgical specialties implementing mandatory national boot camps. However, there is no consensus in otolaryngology on boot camp timing, learner level, or curriculum. The purpose of this study is to examine the current landscape and gather opinions regarding future curriculum and standardization of boot camps in otolaryngology. Methods A survey was developed to examine current resident participation and boot camp content while also seeking opinions regarding improving boot camp enrollment and standardizing curriculum. A cross‐sectional survey of all otolaryngology residency program directors in the United States and Puerto Rico was performed via SurveyMonkey. Responses were collected anonymously, and results were analyzed by descriptive statistical analysis. Results Of the 45% (48 of 106) who responded, 76.6% reported their residents participate in boot camps. The most common skills taught were basic suturing and airway management skills. The majority (95%) was likely to send residents to a local boot camp, with 56% favoring early postgraduate year (PGY)‐1 participation and 42% favoring a 1‐day boot camp. Subsidized expenses, improved regional access, and supplementary boot camp information would help the program director in their decision to send residents to boot camp. Only 32% felt boot camps should be standardized, and 27% felt they should be mandatory. Conclusion Many otolaryngology residency programs participate in boot camps. Additional data on the benefits of boot camps, improved access, and reduced financial burden may improve participation. Further discussion of ideal timing, PGY level, and standardized curriculum should occur in conjunction with the otolaryngology academic societies and oversight from accreditation and certifying bodies. Level of Evidence NA Laryngoscope, 129:2707–2712, 2019
Children with well-developed language abilities before CI showed substantial (and statistically significant) early improvements in open-set speech perception abilities following implantation that continued beyond 2 years of follow-up. These results suggest that postlingual children are excellent candidates for CI.
Objective As of January 2022, USMLE Step 1 scores are reported as pass/fail. Historically, Step 1 scores have been a critical component of residency applications, representing one of the few metrics standardized across all applicants independent of the school they attended. In competitive specialties, such as otolaryngology, programs routinely get 100+ applicants for each residency spot and use Step 1 as a screening tool. This study seeks to assess quantifiable metrics in the application that highly competitive residency programs could use for screening in place of Step 1 scores. Methods Otolaryngology applications to an academic medical center for the 2019–20 and 2020–21 ERAS cycles were reviewed. Board scores and quantitative research data were extracted. The relationships between Step 1 score and the other metrics were examined by computing Pearson's correlation coefficients and building regression models. Similar analyses were done separately for three different score tiers defined by Step 1 cutoffs at 220 points and 250 points. Results Step 2 score was the only variable that had meaningful correlation with Step 1 score (R = .67, p < 2.2e−16). No other objective metric such as journal articles, posters, or oral presentations correlated with Step 1 scores. Conclusion Step 1 scores were moderately correlated with Step 2 scores; however, using a Step 2 cutoff instead of a Step 1 cutoff would identify a different cohort of applicants for interview. No other quantifiable application metric had a positive correlation. In future match cycles, highly competitive residency programs will need to adopt new methods to screen candidates. Level of Evidence: Level 3.
Sex bias in letters of recommendation and personal statements for otolaryngology residency
Objective: Application for otolaryngology residency is highly competitive, with letters of recommendation (LORs) and applicant personal statements (PSs) representing important components of the application process. However, their inherently subjective nature predisposes them to potential implicit bias. Otolaryngology has historically been predominated by male physicians and while implicit sex bias has been demonstrated in LORs for application to residency of multiple specialties, data is limited for otolaryngology.Methods: LORs and PSs for all otolaryngology applicants to an academic medical center during the 2019-20 and 2020-21 cycles were abstracted. Quantitative analysis was performed using Linguistic Inquiry and Word Count 2015 (LIWC2015), a validated software application designed to analyze various emotional, cognitive, and structural components of written text.Results: LORs written for females were found to be written from a perspective of higher expertise and confidence while LORs written for males were associated with a more honest, personal, and disclosing tone. Moreover, LORs written for female applicants were found to reference achievement and "grindstone" terminology more than those written for men. No differences were observed in any word category between PSs written by male and female applicants. Conclusion:Minor linguistic differences exist in multiple domains between LORs written for male and female applicants for otolaryngology residency. These tended to favor female applicants, with their letters demonstrating higher clout, achievement, and grindstone scores. This trend was unexpected in this historically predominantly male specialty. While differences were statistically significant, the overall difference in an entire letter of recommendation is likely subtle.
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