Purpose: Investigate if otolaryngology residency home programs (HP) are associated with advantages in National Resident Matching Program match compared to applicants without HPs. Methods: Surveys were distributed to fourth-year medical students applying to otolaryngology residency (2015-2016 cycle) via OHNS (2015-2016) Applicants Closed Facebook Page and Otomatch. Applicant data analyzed included HP, United States Medical Licensing Examination (USMLE) scores, number of away rotations, and matching at top choice. Results: Applicants were grouped: (1) HP, (2) no HP but have ENT staff (staff), and (3) no HP or staff (none). Ninety-five percent of survey participants matched into otolaryngology (n = 62). A sub-analysis of match preference among matching applicants revealed 63% of participants with HP matched to their first choice compared to 56% (staff) and 14% (none) ( P = .058). Match rate between those with any staff (HP or staff) versus those without was statistically significant ( P = .037). Applicants without HPs went on more away rotations than students with HPs (mean: 2.5 ± 0.5 vs 1.7 ± 0.07, P = .0002). No statistical significance was seen between applicants with/without HP in regards to USMLE scores, publications, or number of interviews. Conclusion: Applicants applying to otolaryngology residency without HPs are as competitive as those who have HPs. However, without HPs, applicants tend to participate in more away rotations and are less likely to match at their top choice.
Objectives Laryngeal function requires neuromuscular activation of the intrinsic laryngeal muscles (ILMs). Rapid activation of the ILMs occurs in cough, laughter, and voice-unvoiced-voiced segments in speech and singing. Abnormal activation is observed in hyperfunctional disorders such as vocal tremor and dystonia. In this study we evaluate the dynamics of ILM contraction. Study/Design Basic science study in an in vivo canine model. Methods The following ILMs were stimulated: thyroarytenoid (TA), lateral cricoarytenoid/interarytenoid (LCA/IA), cricothyroid (CT), all laryngeal adductors (LCA/IA/TA), and the posterior cricoarytenoid (PCA). Neuromuscular stimulation was performed via the respective nerves at current levels needed to achieve maximum vocal fold posture change. Muscle contraction and posture changes were recorded with high speed video (HSV). HSV frames were then analyzed to measure response times required from the onset of muscle contraction to the time the vocal folds achieved maximum posture change. Results In all muscles the onset of posture change occurred within 10–12 milliseconds after neuromuscular stimulation. The average times (± standard deviation) to achieve final posture were as follows: TA 34.5 ± 6 ms (N = 15), LCA/IA 55 ± 12 ms (N =14), RLN 43 ± 8 ms (N = 18), CT 100.8 ± 17 ms (N = 26), PCA 91.2 ± 8 ms (N =3). Data distribution appeared normal. Conclusions Results showed a difference in muscle activation time between different ILMs consistent with reported differences in muscle fiber composition. These data also provide an estimate of the limits of laryngeal contraction frequency in physiologic and pathologic laryngeal states.
Introduction: Vibratory asymmetry and neuromuscular compensation are often seen in laryngeal neuromuscular pathology. However, the ramifications of these findings on voice quality are unclear. This study investigated the effects of varying levels of vibratory asymmetry and neuromuscular compensation on cepstral peak prominence (CPP), an analog of voice quality.Study Design: In vivo canine phonation model. Methods: Varying degrees of vocal fold vibratory asymmetry were achieved by stimulating one recurrent laryngeal nerve (RLN) over 11 levels from threshold to maximal muscle activation. For each of these levels, phonation was induced at systematically varied combinations of neuromuscular compensation: three levels each of contralateral RLN stimulation (80%, 90%, and 100% of maximal), superior laryngeal nerve (SLN) activation (0%, 50%, and 100% of maximal), and airflow levels (500, 700, and 900 mL/s). Vocal fold symmetry was determined by assessing the opening phase of the vibratory cycle in highspeed video recordings. Voice quality was estimated acoustically by calculating CPP for each voice sample.Results: Eight hundred twenty-two phonatory conditions with varying degrees of vibratory asymmetry were evaluated. CPP was highest at vibratory symmetry. Increasing levels of asymmetry resulted in significant decreases in CPP. CPP increased significantly with increasing contralateral RLN activation. CPP was significantly higher at 50% SLN activation than 0% or 100% SLN activation.Conclusion: Voice quality, as approximated by CPP, is best at vibratory symmetry and deteriorates with increasing degrees of asymmetry. Voice quality may be improved with neuromuscular compensation by increased adduction of the contralateral vocal fold or increased vocal fold tension at mid-levels of SLN activation.
Objectives: Laryngeal vibratory asymmetry occurring with paresis may result in a perceptually normal or abnormal voice. The present study aims to determine the relationships between the degree of vibratory asymmetry, acoustic measures, and perception of sound stimuli.Study Design: Animal Model of Voice Production, Perceptual Analysis of Voice. Methods: In an in vivo canine model of phonation, symmetric and asymmetric laryngeal vibration were obtained via graded unilateral recurrent laryngeal nerve (RLN) stimulation simulating near paralysis to full activation. Phonation was performed at various contralateral RLN and bilateral superior laryngeal nerve stimulation levels. Naïve listeners rated the perceptual quality of 182 unique phonatory samples using a visual sort-and-rate task. Cepstral peak prominence (CPP) was calculated for each phonatory condition. The relationships among vibratory symmetry, CPP, and perceptual ratings were evaluated.Results: A significant relationship emerged between RLN stimulation and perceptual rating, such that sound samples from low RLN levels were preferred to those from high RLN levels. When symmetric vibration was achieved at mid-RLN stimulation, listeners preferred samples from symmetric vibration over those from asymmetric vibration. However, when symmetry was achieved at high RLN levels, a strained voice quality resulted that listeners dispreferred over asymmetric conditions at lower RLN levels. CPP did not have a linear relationship with perceptual ratings.Conclusions: Laryngeal vibratory asymmetry produces variable perceptual differences in phonatory sound quality. Though CPP has been correlated with dysphonia in previous research, its complex relationship with quality limits its usefulness as clinical marker of voice quality perception.
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