Otologic safety of intratympanic N-acetylcysteine in an animal model.

OBJECTIVE: N-acetylcysteine (NAC) is an anti-oxidant and mucolytic effective against bacterial biofilms, making it useful in the treatment of chronically discharging ears that are unresponsive to traditional treatment methods. The objective of this study was to evaluate the otologic safety of intratympanic NAC combined with Ciprodex® in an animal model. METHODS: Baseline distortion product otoacoustic emissions (DPOAE) and auditory brainstem response (ABR) measurements were performed for both ears on thirteen guinea pigs from the animal care research facilities of the McGill University Health Center. This was followed by intratympanic administration of control solution (Ciprofloxacin 0.3%/Dexamethasone 0.1%) to the left ear and experimental solution (1.25% NAC/Ciprofloxacin 0.3%/Dexamethasone 0.1%) to the right ear. Three additional intratympanic injections were performed over the next fourteen days. DPOAE and ABR measurements were repeated 3-4 weeks after the initial procedure. Outcome measures included differences in DPOAE and ABR thresholds after intervention, clinical evidence of vestibular dysfunction and histological evidence of ototoxicity. RESULTS: There were no significant differences in the ABR thresholds and DPOAE results of the control and experimental ears at baseline and after intervention. There was neither clinical manifestation of vestibular dysfunction nor histological evidence of ototoxicity. CONCLUSION: Our study suggests that intratympanic 1.25% NAC with ciprofloxacin and dexamethasone is safe in guinea pigs and support its potential use in the treatment of chronically discharging ears. Further studies in humans are required to analyze its efficacy relative to conventional treatments. LEVEL OF EVIDENCE: Animal Research.

Simulation of laryngotracheal reconstruction with 3D-printed models and porcine cadaveric models.

Objectives: Laryngotracheal reconstruction (LTR) is a complex operation used to treat subglottic stenosis. The use of simulator models is a valuable tool in surgical trainee education, particularly for operations such as LTR that are less common outside high-volume centers. Three-dimensional (3D) printing of the human airway may provide an effective and more accessible alternative to porcine cadaveric models. The objective of this study is to compare the educational value of a 3D-printed model and a porcine cadaveric model as LTR simulation methods. Methods: Simulated LTR procedures were completed by 12 otolaryngology residents and a faculty physician on the cadaveric model and the 3D-printed simulator model. Both models were evaluated by fellowship-trained pediatric otolaryngologists to establish construct validity. Pre-procedure surveys of participants evaluated confidence and attitude toward models and post-procedure surveys evaluated confidence, overall impressions, relevance, content validity, and face validity. Results: Participants reported a similar mean increase in confidence after performing LTR on the 3D-printed model (14%) and cadaveric model (11%). Participants rated both models similarly for utility as an overall training tool and in teaching surgical planning and improving operative techniques. However, participants found the 3D-printed model more useful for teaching anatomy (p = .047). Conclusion: 3D-printed models have practical benefits over cadaveric models; they do not decompose and can be custom made to model a disease state such as subglottic stenosis. Participants reported a similar mean increase in confidence after using either simulation. The 3D-printed model is a promising simulation candidate as it compares well to an animal model and has the advantage of being more anatomically true to pediatric patients.Level of Evidence: Level 2.

Hybrid laryngotracheal reconstruction vs single and double stage: Indications and outcomes.

OBJECTIVES: To describe outcomes from laryngotracheal reconstruction and decannulation rates for patients undergoing single stage, double stage and hybrid staged procedures at a single tertiary care institution and evaluate if the 1.5LTR is a viable reconstructive option for patients with subglottic stenosis. STUDY DESIGN: Retrospective chart review. SETTING: Tertiary care otolaryngology specialty hospital and internationally. SUBJECTS: All patients who underwent LTR by a single pediatric otolaryngology surgeon from 2008 to 2018. METHODS: Charts were assessed for age, gender, etiology, type of reconstruction, comorbidities, length of stay, tracheostomy status and socioeconomic status. Analysis was performed using Microsoft Excel and multivariate logistic regression models. RESULTS: 96 patients underwent laryngotracheal reconstruction at MEEI. Internationally, 36 patients underwent laryngotracheal reconstruction with the primary surgeon. Overall decannulation rates for ssLTR, dsLTR, and 1.5LTR were 95.6%, 77.8%, and 91.2% respectively. Our Operation Specific Decannulation Rates (one open airway procedure only) for ssLTR, dsLTR, and 1.5LTR were 87.5%, 33%, and 88% respectively. Adjusted odds of decannulation were not significantly different between males and females, white and non-white patients, or socioeconomic status. Neurological comorbidity was statistically significant for a decreased rate of decannulation (p = 0.0216). CONCLUSION: The 1.5LTR is a viable option for airway reconstruction with strengths derived from both the ssLTR and dsLTR. At our institution we have seen decannulation rates and operation specific decannulation rates with the 1.5LTR approaching our ssLTR. It has replaced the bulk of our dsLTRs, which we reserve for patients that have significant neurological deficits and cannot tolerate extended sedation. LEVEL OF EVIDENCE: 4.

Carotid artery mobilization prior to pharyngeal flap inset for patients with 22q11.2 deletion syndrome.

The management of velopharyngeal insufficiency (VPI) in patients with 22q11.2 deletion syndrome (22q11DS) poses a significant clinical challenge due to presence of a large velopharyngeal gap and a relatively high rate of internal carotid artery (ICA) medialization. To our knowledge, we are the first group to have successfully managed VPI in a series of seven pediatric patients with 22q11DS with medialized ICAs via a novel surgical technique involving carotid artery mobilization followed by pharyngeal flap insertion. Thus far, we have found this technique to be reliably safe with no significant morbidity and caregivers have reported postoperative improvement in speech, swallowing and nasal regurgitation symptoms. Herein, we provide a detailed description of our novel surgical approach, including an instructional video, for correction of VPI in patients with medialized ICAs, who have previously had limited management options.