Otolaryngology Applicant Perspectives on In-person and Virtual Residency Interviews.

OBJECTIVE: The objective of this study was to understand applicant perspectives on in-person and virtual otolaryngology residency interviews. STUDY DESIGN: Survey study. SETTING: Otolaryngology residency applicants who were interviewed during 2022-2023. METHODS: Survey sent to all otolaryngology residency applicants who interviewed during the 2022-2023 interview season. RESULTS: A total of 499 applicants were surveyed with 150 responses (30%). Approximately 48.3% of respondents were offered an in-person interview with 78.9% accepting the offer. Of those who did not accept, reasons included not wanting to travel (21.1%) and time conflicts (15.5%). When comparing virtual versus in-person interviews, those who attended virtual interviews were more likely to disagree that they connected with residents (P = .02) and that they had an improved perspective of the program (P = .002). The majority of applicants agreed that virtual interviews are more inclusive and equitable than in-person interviews (70.4%). When asked which interview style applicants would prefer, 63.1% of applicants preferred an in-person interview when compared to virtual with a second look option (29.5%) and virtual (7.4%). Respondents who self-identified as being underrepresented in medicine were less likely to choose in-person as their preferred interview format (P = .01) and were more likely to decline an in-person interview offer due to monetary limitations (P = .04). CONCLUSIONS: Applicants indicated dissatisfaction with connecting with residents and improving their perspective of the program when in a virtual setting. Applicants felt that virtual interviews were more equitable, but that if the barriers to equity were lessened then they would prefer in-person interviews.

A Simple and Reproducible In Vivo Rabbit Phonation Model for Glottic Insufficiency.

OBJECTIVE: The objective of this study is to describe an in vivo rabbit phonation model for glottic insufficiency that is simple and reproducible by means of unilateral transcricothyroid laryngeal muscle stimulation and high-speed video recordings of evoked phonation. STUDY DESIGN: Nonrandomized controlled animal trial. SETTING: Academic medical center. METHODS: A single operation including evoked phonation with bilateral and unilateral transcricothyroid laryngeal muscle stimulation conditions was modeled using 6 New Zealand white rabbits. The effect of stimulation method on glottic cycle, pitch, and loudness was compared. Endoscopic recordings using 5000 frames-per-second image capture technology and audiologic recordings were obtained for all phonation conditions. Primary outcome measures included means of maximum glottal area (MGA)/length pixel ratio, right and left amplitude/length pixel ratios, calculated cycle frequency, auditory recorded frequency, and maximum auditory intensity. Measurements were obtained via pixel counts using ImageJ. RESULTS: Mean MGA/length was significantly greater with unilateral, 20.30, vs bilateral, 9.62, stimulation (P = .043). Mean frequency of 479.92 Hz vs 683.46 Hz (P = .027) and mean maximum intensity of 76.3 dB vs 83.5 dB (P = .013) were significantly increased from unilateral to bilateral stimulation. There was no significant difference in mean right amplitude/length between unilateral and bilateral. CONCLUSION: The described model demonstrates a simple and reproducible means of producing glottic insufficiency due to unilateral vocal fold bowing and represents a pathway for better understanding the biomechanics and pathophysiology of glottic insufficiency due to superior laryngeal nerve injury and vocal fold immobility and offers the potential to compare treatment modalities through in vivo study.

Development of a microporous annealed particle hydrogel for long-term vocal fold augmentation.

OBJECTIVES/HYPOTHESIS: The purpose of this study was to develop and provide evidence of a novel permanent injectable biomaterial for vocal fold augmentation with the potential to treat glottic incompetence by evaluating its performance in two animal models. STUDY DESIGN: Animal model. METHODS: Microporous annealed particle (MAP) hydrogel was fabricated using a water-in-oil emulsion method and synthetically tuned to match the stiffness modulus of native vocalis muscle. Thirty-two New Zealand White rabbits were administered unilateral injections of MAP (n = 16), saline (n = 8), and the clinical standard hyaluronic acid (Restylane-L) (n = 8), and evaluated at day 0, and 6-week, 4-month, and 6-month endpoints. Induced vocal fold vibration was recorded with a high-speed camera prior to euthanization, with glottic closure and mucosal wave characteristics assessed both quantitatively and qualitatively by an experienced voice clinician. Histologic analysis was performed to assess scaffold permanence, immunogenicity, and vascularization within the scaffold. RESULTS: Histologic analysis confirmed the MAP gel treatment group maintained its volume without migration for 6 months postimplantation. Immune staining showed minimal to nonexistent immunogenicity over the course of the implant lifetime. Extensive tissue integration and vascularization was observed histologically within the MAP gel group by immunofluorescence staining. Mucosal wave was not impaired by any of the injected materials, including the MAP gel augmentation. CONCLUSIONS: MAP gel is a nonresorbable biostimulatory injectable implant that provides superior tissue integration, stiffness matching, and permanence compared to current injectable implants, with retained biomechanical function, suggesting its potential as a new therapeutic for glottic incompetence. LEVEL OF EVIDENCE: NA Laryngoscope, 130:2432-2441, 2020.

Preoperative management of spontaneous cerebrospinal fluid rhinorrhea with acetazolamide.

BACKGROUND: Spontaneous cerebrospinal fluid (CSF) rhinorrhea has been associated with elevated intracranial pressure (ICP). As such, ICP reducing measures are commonly employed to optimize repair. Although postoperative acetazolamide use has been described, no data currently exists on the potential for preoperative use. METHODS: A retrospective review was performed including patients treated for anterior spontaneous CSF leaks by a single surgeon over a 6-year period during which acetazolamide therapy (250 mg twice daily) was employed before considering surgical repair. The primary endpoint was whether the patient went on to require surgical repair. RESULTS: A total of 16 patients were identified who were pretreated with acetazolamide. Leak sites were noted as cribriform (5/16), sphenoid (8/16), ethmoid (1/16), multiple (1/16), and indeterminate (1/16). Five patients had resolution of their rhinorrhea without surgery (31.3%). Mean follow-up for these nonsurgical patients was 470 days (range, 64 to 857 days). There were no differences in the patients' age or site of leak between surgical and nonsurgical patients (p = 0.65, p = 0.52, respectively). Nonsurgical patients had a lower body mass index (BMI) than surgical patients (p = 0.04). CONCLUSION: This is the first study to report the use of acetazolamide therapy as a primary treatment option for spontaneous CSF rhinorrhea. This therapy enabled surgery to be avoided in 31.3% of patients. This would indicate that in the absence of other contraindications for delaying repair, a trial of acetazolamide therapy could be considered as an initial option in the management of isolated spontaneous CSF rhinorrhea.

Distinguishing hair cell from neural potentials recorded at the round window.

Almost all patients who receive cochlear implants have some acoustic hearing prior to surgery. Electrocochleography (ECoG), or electrophysiological measures of cochlear response to sound, can identify remaining auditory nerve activity that is the basis for this residual hearing and can record potentials from hair cells that are no longer functionally connected to nerve fibers. The ECoG signal is therefore complex, being composed of both hair cell and neural signals. To identify signatures of different sources in the recorded potentials, we collected ECoG data across frequency and intensity from the round window of gerbils before and after treatment with kainic acid, a neurotoxin. Distortions in the recorded waveforms were produced by different sources over different ranges of frequency and intensity. In response to tones at low frequencies and low-to-moderate intensities, the major source of distortion was from neural phase-locking that was sensitive to kainic acid. At high intensities at all frequencies, the distortion was not sensitive to kainic acid and was consistent with asymmetric saturation of the hair cell transducer current. In addition to loss of phase-locking, changes in the envelope after kainic acid treatment indicate that sustained neural firing combines with receptor potentials from hair cells to produce the envelope of the response to tones. These results provide baseline data to interpret comparable recordings from human cochlear implant recipients.