key: cord-0820307-7m8nkria
authors: Mazzoli, Marco; Molinari, Maria Angela; Tondelli, Manuela; Giovannini, Giada; Ricceri, Riccardo; Ciolli, Ludovico; Picchetto, Livio; Meletti, Stefano
title: Olfactory function and viral recovery in COVID‐19
date: 2021-01-19
journal: Brain Behav
DOI: 10.1002/brb3.2006
sha: 6ab1d0ca9849ebc27f9117496b7be9746e0d246c
doc_id: 820307
cord_uid: 7m8nkria

BACKGROUND: Olfactory and taste disorders were reported in up to 30%–80% of COVID‐19 patients. The purpose of our study was to objectively assess smell impairment in COVID‐19 patients and to correlate olfactory function with viral recovery. METHODS: Between 15 and 30 April 2020, hospitalized patients with confirmed SARS‐CoV‐2 infection underwent an objective assessment of olfactory function with the Smell Identification subtest of the Sniffin’ Sticks Test (SI‐SST). Association between viral recovery and SI‐SST performance was evaluated. RESULTS: 51 patients were enrolled (49% males, mean age 66.2 ± 14.6 years). At the time of test administration, 45% were clinically recovered and 39% were virus‐free. Objective hyposmia/anosmia was found in 45% of the patients. Subjective olfactory disorders showed no association with the clinical or viral recovery status of the patients. On the contrary, none of the patients with anosmia and the 5% of hyposmic patients at test had viral recovery. The relative risk for hyposmic patients to be still positive at swab test was 10.323 (95% CI 1.483–71.869, p < .0001). Logistic regression analysis showed an independent and significant correlation between viral clearance and SI‐SST scores (OR = 2.242; 95% CI 1.322–3.802, p < .003). ROC curve analysis confirmed that a SI‐SST > 10.5 predicts viral clearance with 79% sensitivity and 87% specificity (AUC = 0.883). CONCLUSION: Hyposmia is part of COVID‐19 symptoms; however, only objectively assessed olfactory function is associated with viral recovery. SI‐SST is an easy and safe instrument, and further large multicentric studies should assess its value to predict infection and recovery.

During coronavirus disease 19 pandemic, several symptoms have been reported indicating a neurological involvement (Zubair et al., 2020) , and among them, alteration of smell and taste perception are frequently observed (Beltrán-Corbellini et al., 2020; Giacomelli et al., 2020; Lechien et al., 2020; Printza & Constantinidis, 2020) . The presence of olfactory and taste disorders (OTDs) was reported in up to 30%-80% of COVID-19 patients across different studies (Beltrán-Corbellini et al., 2020; Giacomelli et al., 2020; Lechien et al., 2020; Printza & Constantinidis, 2020) .

However, these studies are based on subjective measurements, such as self-reported questionnaires, without assessing the presence of hyposmia with validated tests. Furthermore, there is no information about the time course of hyposmia and its correlation between clinical and viral recovery. The aim of our study was to objectively evaluate smell impairment in COVID-19 patients and determine olfactory function with respect to viral recovery.

All patients were prospectively recruited during their stay at the COVID Unit of the University Hospital of Modena, Italy, between 15 and 30 April 2020. All had COVID-19 diagnosis confirmed by at least one positive real-time reverse transcriptase-polymerase chain reaction (RT-PCR) assay for SARS-CoV-2 on rhinopharyngeal swab, in association with typical clinical and instrumental picture. Patients with chronic nasal diseases or neurological conditions associated with anosmia were excluded. Clinical, demographic, laboratory findings and treatments were collected. Severity of respiratory function was assessed considering the necessity of oxygen implementation, noninvasive ventilation (NIV), or invasive mechanical ventilation (IMV) during hospitalization. As suggested by most of the international guidelines, patients were defined as clinically recovered if they remained oxygen-free, with peripheral blood oxygen saturation (SpO 2 ) >94% and respiratory rate < 22 apm and without fever for at least 72 hr. Viral recovery was defined as negative SARS-CoV-2 RT-PCR assays on two consecutive rhinopharyngeal swabs at least 24 hr apart.

Each patient was asked about the presence and characteristics of OTD during the disease with a specific form. Olfactory function was objectively assessed using the Smell Identification subtest of the Sniffin' Sticks Test (SI-SST) (Oleszkiewicz et al., 2019) . The examiner was blinded for viral recovery status at test time. SI-SST is composed of 16 pens, each one equipped with a swab soaked with a 4 ml quantity of a specific smell. Each pen was presented close to both nostrils for 3 seconds: subjects were asked to match the smell with one of four alternatives written on a paper sheet. We defined hyposmia as an adjusted score ≤ 10 th percentile according to literature normative values reported for each age and gender group classification (Oleszkiewicz et al., 2019) ; therefore, every patient was classified as hyposmic or not according to the specific age and gender group value; functional anosmia was defined as a score < 8 points (Oleszkiewicz et al., 2019) .

Statistical analyses were performed with SPSS version 24.0.

Comparison of clinical data and smell performance were performed using parametric or nonparametric statistic as appropriate. Logistic regression was performed in order to test the relationship between viral recovery and smell test performance. Smell test diagnostic performance was also assessed by areas under the curve (AUCs) with 95% confidence intervals obtained by receiver operating characteristic (ROC) curve.

The Human Ethic Committee of the University of Modena and Reggio Emilia approved this study, and written informed consent was obtained from all patients. The study conforms with World Medical Association Declaration of Helsinki.

Anonymized data that support the findings of this study are available from the corresponding author upon reasonable request.

Fifty-one patients were enrolled (24 males; mean age 66.2 ± 14.6 years). SI-SST was administered after a mean time of 29.3 days from onset of COVID-19 symptoms. Table 1 shows the main clinical and demographic features of the patients. At the time of test administration, 23 patients (45%) were clinically recovered and 20 (39%) were virus-free. 26% and 37% of patients reported subjective olfactory or taste deficits, respectively. At SI-SST, 17 (33%) and 13 (25%) patients resulted hyposmic or anosmic, respectively.

Considering both scores, ≤10 th percentile cutoff and row score < 8 points (functional anosmia), 23 (45%) subjects presented a defective performance at SI-SST. No association between hyposmia/anosmia status at SI-SST and any of the clinical, laboratory, or treatment variables was observed, including the clinical recovery status. In particular, SI-SST scores were not significantly different among patients who had different severity of respiratory involvement during the disease. Moreover, subjective smell dysfunction showed no association with the SI-SST deficit. On the contrary, none of the patients with anosmia and only 5% of the patients with hyposmia showed a viral clearance at test time (Table 2) . Hyposmia status was associated with a risk ratio of 10.323 (95% CI 1.483-71.869; p < .0001) for being still positive at rhinopharyngeal swab test. Considering viral recovery, SARS-CoV-2-negative patients performed better at SI-SST than SARS-CoV-2-positive patients (mean score ± SD: 12.0 ± 2.5 vs.

8.8 ± 2.5 points, respectively) (Figure 1a,b) . Multivariable logistic regression analysis showed that a 1-point increment in SI-SST score corresponds to a 2.2-fold higher odds ratio of being virus-free in two consecutive swabs (OR = 2.242; 95% CI 1.322-3.802, p < .003), and this finding was independent from sex, age, severity of respiratory impairment, and time between recovery and test administration.

ROC curve analysis showed that a SI-SST score > 10.5 points predicted viral clearance with 79% sensitivity and 87% specificity, with AUCs of 0.883 (Figure 1c) . None of the other considered variables was significantly related to viral clearance.

We objectively assessed olfactory function by means of the SI-SST, which is easy and rapid to perform at bedside (8-10 minutes) and it is provided with age-and gender-adjusted normative values (Oleszkiewicz et al., 2019) . In our cohort, subjective smell dysfunction was reported by 26% of the patients, while objectively assessed hyposmia/anosmia was present in 45% of patients. This means that self-reported surveys of olfactory function may be unreliable in In addition, we are aware that other reasons than COVID-19 may cause olfactory disfunction and that in general population, it is reported that up to 20% of the people are hyposmic and up to 5% are anosmic (Hummel et al., 2017) . Pre-COVID-19 objective smell status was not available in our population. However, premorbid objective information about olfactory function in people infected by SARS-CoV-2 would be not easily available even in larger studies.

Despite this point, we think that the relationship demonstrated between viral recovery and SI-SST scores is reasonably specific for our COVID-19 patients. Longitudinal studies will be useful to partially address this issue. Finally, further characterization of patients should be important. In particular, we did not acquire brain MRI of hyposmic Note: Groups were compared using chi-square test for dichotomous variables. Significance: p < .05, two-tailed (in bold). a Hyposmia: defined as SI-SST score < 10 th percentile, adjusted for age and sex.

b Functional anosmia: defined as SI-SST score < 8 points.

c Combined hyposmia and anosmia: defined as SI-SST score < 10 th percentile, adjusted for age and sex, or SI-SST raw score < 8 points.

F I G U R E 1 (a) Violin plots showing SI-SST score distribution in patients with or without viral recovery (negative at 2 consecutive 24 hr apart nasopharyngeal swabs). The black line represents the mean score of each group. (b) Scatterplot showing SI-SST score distribution as a function of time from symptom onset and viral recovery. (c) Receiver operating characteristic (ROC) curve for prediction of viral recovery based on SI-SST score patients. Recently, abnormal MRI signal involving the right gyrus rectus and the olfactory bulbs has been reported in a young COVID-19 patient complaining of hyposmia and dysgeusia (Politi et al., 2019) .

In conclusion, our study confirmed that hyposmia is part of COVID-19 symptoms. The objective assessment of olfactory function has higher sensitivity and reliability than self-reported measurements.

Moreover, smell function integrity is a predictor of viral clearance.

SI-SST is a cheap, easy, and safe instrument that can help in establishing COVID-19 diagnosis and identifying virus-free patients. and from the nonprofit organization foundation "Fondazione Cassa di Risparmio di Modena -FCRM"; and has received personal compensation as scientific advisory board member for UCB and EISAI.

Marco Mazzoli and Maria Angela Molinari designed and conceptualized the study, played a major role in the acquisition of data, analyzed and interpreted the data, and drafted the manuscript for intellectual content. Manuela Tondelli designed and conceptualized the study, analyzed and interpreted the data, and revised the manuscript for intellectual content. Giada Giovannini, Riccardo Ricceri, Ludovico

Ciolli, and Livio Picchetto played a major role in the acquisition of data and interpreted the data. Stefano Meletti designed and conceptualized the study, interpreted the data, and revised the manuscript for intellectual content.

The peer review history for this article is available at https://publo ns.com/publo n/10.1002/brb3.2006.

Marco Mazzoli https://orcid.org/0000-0003-4471-0728

Manuela Tondelli https://orcid.org/0000-0001-6698-5437

Ludovico Ciolli https://orcid.org/0000-0003-4963-6117

Stefano Meletti https://orcid.org/0000-0003-0334-539X

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Objective sensory testing methods reveal a higher prevalence of olfactory loss in COVID-19-positive patients compared to subjective methods: A systematic review and meta-analysis

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