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Objective: Tracheostomy tube change is a multistep skill that must be performed rapidly and precisely. Despite the critical importance of this skill, there is wide variation in teaching protocols. Methods: An innovative operant conditioning teaching methodology was employed and compared to traditional educational techniques. Medical student volunteers at a tertiary care academic institution (Albert Einstein College of Medicine) were recruited and randomly distributed into 2 groups: operant vs traditional (control). Following the educational session, each group was provided with practice time and then asked to perform 10 tracheostomy tube changes. Performance was recorded and scored by blinded raters using deidentified video recordings. Results: The operant learning group (OLG) demonstrated greater accuracy in performing a tracheostomy tube change than the traditional demonstration group. Twelve of 13 operant learners performed the skill accurately each time compared to 3 of 13 in the traditional group (P = 0.002). The median lesson time was longer for the OLG (535 seconds) than for the traditional group, (200 seconds P < 0.001). The average time per tracheostomy change was not significantly different between the 2 groups (operant learners mean 7.1 seconds, traditional learners mean 7.5 seconds, P = 0.427). Discussion: Although the operant conditioning methodology necessarily requires a greater time to teach, the results support this methodology over traditional learning modalities as it enhances accuracy in the acquired skill. Operant learning methodology is under consideration for other skills and education sessions in our program. Future steps include the application and adaptation of this education model to students and residents in other settings and fields. Implications for Practice: Operant learning is effective for teaching multistep skills such as tracheostomy tube changes with decreased error rates.
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Seasonal patterns in flu transmission have observational validity in temperate climates. However, there is no consensus mechanism explaining the increased incidence of flu during the winter. The physiologic effects of cold weather and dry air on the upper respiratory system may contribute to immune dysfunction and increased susceptibly to flu-causing pathogens. Low temperature limits the absolute humidity of air. Persistent exposure to dry air leads to airway desiccation and failure of the mucociliary system. The resultant physiologic and histopathologic changes that occur in the airway increase susceptibility to flu-causing pathogens. Laryngoscope, 130:309-313, 2020.
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Gripe Humana/transmisión , Humanos , Gripe Humana/epidemiología , Modelos Biológicos , Sistema Respiratorio/fisiopatología , Estaciones del AñoRESUMEN
IMPORTANCE: Delay in time to treatment initiation (TTI) can alter survival and oncologic outcomes. There is a need to characterize these consequences and identify risk factors and reasons for treatment delay, particularly in underserved urban populations. OBJECTIVES: To investigate the association of delayed treatment initiation with outcomes of overall survival and recurrence among patients with head and neck squamous cell carcinoma (HNSCC), to analyze factors that are predictive of delayed treatment initiation, and to identify specific reasons for delayed treatment initiation. DESIGN, SETTING, AND PARTICIPANTS: Retrospective cohort study at an urban community-based academic center. Participants were 956 patients with primary HNSCC treated between February 8, 2005, and July 17, 2017, identified through the Montefiore Medical Center Cancer Registry. EXPOSURES: The primary exposure was TTI, defined as the duration between histopathological diagnosis and initial treatment. The threshold for delayed treatment initiation was determined by recursive partitioning analysis. MAIN OUTCOMES AND MEASURES: Overall survival, recurrence, and reasons for treatment delay. RESULTS: Among 956 patients with HNSCC (mean [SD] age, 60.8 [18.2] years; 72.6% male), the median TTI was 40 days (interquartile range, 28-56 days). The optimal TTI threshold to differentiate overall survival was greater than 60 days (20.8% [199 of 956] of patients in our cohort). Independent of other relevant factors, patients with HNSCC with TTI exceeding 60 days had poorer survival (hazard ratio, 1.69; 95% CI, 1.32-2.18). Similarly, TTI exceeding 60 days was associated with greater risk of recurrence (odds ratio, 1.77; 95% CI, 1.07-2.93). Predictors of delayed TTI included African American race/ethnicity, Medicaid insurance, body mass index less than 18.5, and initial diagnosis at a different institution. Commonly identified individual reasons for treatment delay were missed appointments (21.2% [14 of 66]), extensive pretreatment evaluation (21.2% [14 of 66]), and treatment refusal (13.6% [9 of 66]). CONCLUSIONS AND RELEVANCE: Delaying TTI beyond 60 days was associated with decreased overall survival and increased HNSCC recurrence. Identification of predictive factors and reasons for treatment delay will help target at-risk patients and facilitate intervention in hospitals with underserved urban populations.
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OBJECTIVE: To compare closure rate, reduction in air-bone-gap, and operative time of butterfly tympanoplasty (BT) to underlay tympanoplasty (UT). METHODS: Retrospective cohort study of children (age <18y) undergoing Type I tympanoplasty between 2009 and 2017. Patients were excluded if they had <6 months of follow up, mastoidectomy, fat graft or cholesteatoma. RESULTS: Twenty-one patients (mean age 13.4) underwent BT while forty-one patients (mean age 13.5) underwent UT. The mean size of perforation in 30.6% in BT patients and 43.6% in UT patients (pâ¯=â¯0.01). Preoperative audiogram showed a similar air-bone-gap between the two groups of 31.7, 22.7, and 17.9â¯dB in BT vs 29.6, 24.8, and 17.6â¯dB in UT at 500, 1000, and 2000â¯Hz, respectively (pâ¯=â¯0.65, 0.63, and 0.94). Operative time was reduced in BT as compared to UT (94.0â¯min vs. 150.9, pâ¯=â¯0.01). Closure rate was similar at 85.7% in BT vs 75.6% in UT patients (pâ¯=â¯0.40). Average reductions in air-bone gap were similar with 19.2, 11.7, and 13.2â¯dB for BT vs 16.6, 12.1, and 10.3â¯dB for UT at 500, 1000, and 2000 hz, respectively (pâ¯=â¯0.66, 0.93, 0.40). CONCLUSION: BT has become a reliable tool for the pediatric otolaryngologist. This retrospective study shows that pediatric BT results in similar outcomes with reduced operative time.