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Differential olfactory outcomes in COVID‐19: A large healthcare system population study

2021; Wiley; Volume: 12; Issue: 1 Linguagem: Inglês

10.1002/alr.22870

2042-6984

Nikita Chapurin, Douglas J. Totten, Basil H. Chaballout, Julia Brennan, Spencer Dennis, Rory J. Lubner, Naweed I. Chowdhury, Justin H. Turner, Timothy Trone, Rakesh Chandra,

Advanced Chemical Sensor Technologies

From the beginning of the SARS-CoV-2 pandemic, olfactory and taste dysfunction have been identified as key and distinctive presenting symptoms,1, 2 but the evolution of these sensory deficits over time remains unclear. Using a survey-based approach of patients with confirmed COVID-19 positivity at our institution, we sought to gain insight into the prevalence, time course, and factors associated with persistent olfactory dysfunction after COVID-19, as well as any link between smell and taste variation and SNOT-22 scores. We conducted a cross-sectional survey study of adult patients that tested positive for SARS-CoV-2 PCR from a single regional healthcare system between February and November of 2020. A total of 1003 respondents were included in the analysis (21.3% response rate). We collected patient demographics, comorbidities, and subjective assessment of olfaction and taste and administered the SNOT-22 questionnaire. Multivariable stepwise logistic and linear regression analyses were performed to assess the impact of selected factors on patient-reported moderate to severe hyposmia as well as symptom duration after COVID-19 diagnosis. A censored cumulative event analysis was performed to illustrate the relationship between initial severity and duration of self-reported olfactory loss. The variation of SNOT-22 total and domain scores with respect to time from diagnosis as well as the impact of comorbidities and initial symptoms on SNOT-22 scores were assessed using multivariable stepwise linear regression. The median age of respondents was 43 years, and 63% of patients were female (Table 1A). Baseline pre-COVID-19 taste and smell were subjectively normal in 93.8% and 91.4% of patients respectively. Any degree of postdiagnosis taste and smell loss or dysfunction was reported by 73% of participants. Mean duration of smell loss was 19.7 days. A cumulative censored event analysis was performed (Figure 1A) and demonstrated that initial severity of smell loss was associated with symptom duration (p < .001) (Table S1). A significant number of patients (13.4%) reported prolonged duration of smell loss of more than 4 weeks, with over 10.7% of patients reporting hyposmia longer than 6 weeks (Figure 1B). Male gender, sore throat, gastrointestinal (GI) symptoms, prior taste disturbances, and absence of fever were statistically significant predictors for patients reporting moderate to severe hyposmia (Table S2). Predictors for taste dysfunction were similar and tracked with predictors for hyposmia outcomes. Patient age, female gender, history of chronic rhinosinusitis (CRS), diabetes, hypertension, asthma, fewer days since diagnosis, and higher body mass index (BMI) were all statistically significant predictors of higher total SNOT-22 scores on regression analysis (Table 1B). Similar patterns were noted for rhinologic, and extranasal rhinologic symptoms; however, notably time from diagnosis and CRS were not significant predictors for the remaining SNOT-22 domains (Table S3). Total SNOT-22 scores were observed to decrease over time by 0.05 points per day following the COVID-19 diagnosis, although there was no similar association with time in the sleep, psychological, or ear/facial domains. This large-population cross-sectional survey of 1003 confirmed COVID-19-positive patients provides insight into the prevalence, time course, and factors associated with persistent olfactory dysfunction after COVID-19. Most patients (73%) reported some degree of olfactory and taste dysfunction at diagnosis, with mean time to improvement of 19.7 days. However, 13.4% reported prolonged duration of smell loss of more than 4 weeks, with 10.7% of patients reporting hyposmia longer than 6 weeks. These results are in line with recent findings and provide further evidence that a substantial number of COVID patients have prolonged or persistent chemosensory symptoms.4-6 An intuitive but important finding of our cumulative event analysis is that the initial degree of self-reported hyposmia appears to correlate with the duration of smell loss. In other words, after stratifying patients into cohorts by severity of olfactory dysfunction, patients with more severe reported hyposmia demonstrate prolonged recovery (p < .0001). This provides further support of recently published findings that olfactory loss severity is a predictor of long-term recovery.7, 8 This may be important when counseling patients on expectations of long-term olfactory recovery. Additionally, on regression analysis, we discovered that lower BMI and shortness of breath on presentation were significantly associated with prolonged duration of hyposmia (Table S1), while male gender, presence of sore throat, GI symptoms, history of prior smell/taste disturbances, and absence of fever were statistically significant predictors of reporting moderate to severe hyposmia (Table S2). These findings are all also relatively in line with recently published numbers.9 A unique aspect of our work is the inclusion of the SNOT-22 questionnaire, which allowed us to detect associations between the SNOT-22 scores and self-reported patient symptom scores. Our aim was to use a clinically validated tool to measure sinonasal quality-of-life scores in post-COVID19 patients because a validated COVID-specific metric is not available. Additionally, though the study design is cross-sectional, the large sample size and collection of patients at varying time points from diagnosis enabled us to approximate the evolution of symptoms over time. Our results suggest that total SNOT-22 scores correlate with many COVID-19 symptoms, including those of hyposmia and duration of olfactory dysfunction (Table 1b). Subdomain analysis of SNOT-22 scores demonstrated improvement of rhinologic-specific symptoms over time, but that did not hold true for other subdomains (Table S3). There also appears to be a statistically significant relationship between persistent smell and taste dysfunction and psychological domain scores (odds ratio [OR] 1.06, 95% confidence interval [CI] 1.04 to 1.08), suggesting an interplay between psychological symptoms and self-reported olfactory/taste symptoms from COVID, but this may be of limited clinical utility given the small effect size. A recent study also reported that COVID-19 patients had nearly double the average total SNOT-22 scores compared with the matched negative controls.10 Thus, the SNOT-22 instrument may be useful in measuring and following post-COVID-19 rhinologic symptoms and olfactory dysfunction. There are notable limitations of our survey-based approach. We relied heavily on subjective patient-reported data, which can introduce significant response and recall bias that affects generalizations of effect estimates to the broader population. Additionally, time-based results are only descriptive of the population as a whole and may not be predictive of any individual patient's symptom trajectory. A follow-up survey of this patient group is currently planned to augment the results of the present study. However, despite these limitations, the results provide initial descriptive insights into the quality-of-life burden of COVID-19 that may be helpful while counseling patients with COVID-19-associated chemosensory dysfunction. None. Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.