key: cord-0765577-ujckwl4t authors: Yadav, Vishav; Bhagat, Sanjeev; Sharma, Dinesh Kumar; Sibia, Raminder Pal Singh; Pandav, Richa; Sandhu, Ved Parkash title: Olfactory and Gustatory Dysfunction in COVID-19 Patients: A Tertiary Care Institute Experience in India date: 2021-01-03 journal: Indian J Otolaryngol Head Neck Surg DOI: 10.1007/s12070-020-02295-w sha: 1abf385430cc148a12a436275b36fb5b9fb71cdb doc_id: 765577 cord_uid: ujckwl4t COVID-19 epidemic has varied spectrum of symptoms. With this study we aim to evaluate prevalence of Olfactory and Gustatory dysfunction in COVID-19 patients. To assess Olfactory and Gustatory dysfunction in COVID-19 Patients in Indian Population. Settings and Design: Prospective observational study. RT-PCR proven COVID-19 patients were enrolled in the study. Detailed history and olfactory function and Taste function were evaluated. Patient with symptoms of olfactory dysfunction were subjected to fill (sQOD-NS questionnaire). Re-evaluation was done weekly till the time of discharge. Analysis was done with Wilcoxon test with help of SPSS software. A total of 152 patients (Male-78, Female-74) completed the study after weekly evaluation. Olfactory and Gustatory dysfunction was seen in 28 (18.41%) and 20 (13.15%). Mean duration of symptoms was 2.4444 ± 0.352 days. Olfactory dysfunction was the first presenting symptom in 11 out of 152 patients (7.23%). Mean QD-NOS score in patients with Anosmia and Hyposmia (28 patients) was 11.4 ± 2.01 and 13.61 ± 2.82 at 1st evaluation, 20.3 ± 1.49 and 20.33 ± 1.57 at 7th day and 21 in both subgroups at 14th day follow up. Dysgeusia was noticed in 20/152 patients (13.15%). Recovery in olfactory dysfunction and Dysgeusia was complete in all patients. Olfactory and gustatory dysfunctions are significant part of clinical spectrum of COVID-19 disease In Indian Population. The Corona Virus disease 2019 (COVID- 19) is an SARS-CoV2 viral infection which started as local outbreak in Wuhan, China, soon became epidemic in China and later spread to rest of the world taking the form of Viral Pandemic [1] . Total 27, 973,127 cases and 9, 05, 426 deaths have been reported as per WHO Last update [2] . In India, More than 45, 68, 770 cases and more than 76,348 deaths have been reported so far [3] . Clinical presentation of COVID-19 patients vary from asymptomatic to common cold like symptoms i.e. nasal discharge, fever, nasal congestion to severe respiratory difficulty requiring assisted mechanical ventilation support [4] . Over the past 1 month, increasing number of researchers have reported COVID-19 patients experiencing sudden Olfactory dysfunction (Anosmia/Hyposmia) and/or Dysgeusia/Altered taste sensation as presenting/concurrent/delayed symptoms of COVID-19 infection [5, 6] . The centre for disease control and Prevention (CDC) has also added 'Altered Taste/smell sensation' to the COVID-19 presentation spectrum [7] . Various researchers from all over the world have reported olfactory dysfunction with widely varying incidence of 5.1%-74% [8] [9] [10] [11] [12] [13] [14] . So this study was conducted in RT-PCR confirmed COVID-19 patients in our hospital to evaluate the incidence of olfactory and gustatory dysfunction in COVID 19 patients. A prospective Observational study was conducted at Tertiary care institute, Government medical college and Rajindra Hospital, Patiala, India. All RT-PCR confirmed COVID-19 patients admitted in Institute from 1st March 2020 onwards were enrolled in the study. The following epidemiological and clinical symptoms were recorded: age, sex, co-morbidities, and general and otolaryngological symptoms with special reference to Olfactory and Gustatory symptoms. Institutional Ethical Committee approval was taken. Inclusion Criterion were patients with laboratory-confirmed COVID-19 infection, willing to participate in the study with consent. Exclusion Criterion were patients with Severe symptoms (SARI/Patient who need mechanical ventilation), Pregnant women, Children (\ 14 years), Patients with dementia (who cannot report functional symptoms), Patients with previous long standing history of nasal obstruction, nasal discharge, nasal surgeries and patients who refused to give consent. Patients were asked to complete Questionnaire consisted of questions regarding general symptoms; seven questions about olfactory function [Brief version of Questionnaire of Olfactory Disorders-Negative Statements (sQOD-NS)] [15] ; four questions investigating gustatory/Taste function (salt/sweet/sour/bitter sensation). Brief version of the questionnaire of olfactory disorders-negative statements (sQOD-NS) ( Table 1) is a seven-item patient-reported outcome questionnaire including social, eating, annoyance, and anxiety questions. Responses were reviewed (Improvement/ deterioration/ no change) at 7 days, 14 days and the time of discharge (if more than 14 days). Symptomatic patients were treated with Tab Hydroxychloroquine 400 mg BD for 1 day followed by 400 mg for OD for 4 days, Tab Azithromycin 500 mg OD for 5 days and Tab Paracetamol 500 mg sos. No specific treatment pertaining to olfactory and salivatory dysfunction was given Patient were discharged after patient became asymptomatic and two samples (nasopharyngeal and oropharyngeal swabs) on 2 consecutive days came negative on RT-PCR testing for COVID-19. A total of 203 patients of COVID-19 were admitted in COVID-19 Isolation facility. 30 patients of severe acute respiratory infection (SARI) on mechanical ventilation, 16 paediatric patients of age \ 14 years and 5 pregnant females were excluded from the study. Total 152 patients were included in the study group with 78 (51.3%) male patients and 74 (48.7%) female patients. Age of the study group was in the range of 14-77 years, with mean 43.03 ± 16.10 years. Pre-existing co-morbidities data was collected and studied ( Fig. 1) . Patients were enquired about symptoms in detail e.g. cough, fever, loss of appetite, myalgia, respiratory difficulty, diarrhoea, headache ( Fig. 2 ) and ENT symptoms: dryness of throat, soreness of throat, posterior nasal discharge and rhinorrhea (Fig. 3) . 78 patients didn't report any symptom at all. Table 1 Brief version of the questionnaire of olfactory disorders-negative statements (sQOD-NS) The changes in my sense of smell make me feel isolated Each item is rated on a scale of 0-3, with higher scores reflecting better olfactory-specific QOL. The total score ranges from 0 (severe impact on QoL) to 21 (no impact on QoL) Olfactory dysfunction (Table 2 ) was reported in the 28 out of 152 patients (18.42%) with anosmia in 10 (6.58%) and hyposmia in 18 patients (11.84%). However among the 74 symptomatic patients, olfactory dysfunction was seen in 37.83% of subjects. Out of 152 patients, 13 (8.55%) had Olfactory dysfunction and Dysgeusia, 15 (9.86%) patients had isolated olfactory dysfunction. QD-NOS was assessed in 28/152 patients (18.42%). QDNOS score in Anosmia and Hyposmia was 11.4 ± 2.01 and 13.61 ± 2.82 at 1st evaluation (time of admission), 20.3 ± 1.49 and 20.33 ± 1.57 at 7th day and 21 in both subgroups at 14th day follow up. Improvement noticed in QDNOS score was found to be statistically highly significant (p \ 0.001). Recovery in olfactory dysfunction with as per QD-NOS was seen in 23/28 (82.14%) at 7th day, rest of 5 recovered by the 14th day follow up. There was complete recovery of olfactory dysfunction seen in all of the patients by 14 days. Dysgeusia was noticed in 20/152 (13.15%) (Fig. 4) . Among 74 symptomatic patients, incidence was noted to be 27.02%. 17 patients (85%) had loss of all 4 taste stimuli, 2 patients (10%) had loss of salt and sweet sensation, 1 patient (5%) had loss of only sweet sensation. Dysgeusia symptoms have been illustrated in detail in Fig. 4 . At 7th day evaluation, Recovery was seen in 11/20 (55%). Complete recovery was in 100% at 14th day evaluation. Over the past months, various studies from Europe, Asia and rest of the world have been reported regarding olfac-tory and gustatory dysfunctions in COVID- 19 Lechien et al. [8] and Kaye et al. [5] observed olfactory dysfunction as the first symptom in 11.8% and 26.6% respectively. We reported olfactory dysfunction (Anosmia/ Hyposmia) as presenting symptom in 11 out of 74 symp- Lechien et al. [8] and Timothée Klopfenstein et al. [9] reported olfactory dysfunction in 86% (357/417) and 47% (54/114) of symptomatic patients respectively. Vaira et al. [10] study on 72 subjects reported olfactory dysfunction in 61.1% (44/72) of cases. Yan et al. [11] reported olfactory dysfunction in 68% in the study group (59 subjects). Luers et al. [6] reported olfactory dysfunction in 74% (53/72) of patients. In our study, olfactory dysfunction was reported in the 28 out of 74 symptomatic patients (37.83%). Our results are comparable with above mentioned studies. In contrast Mao et al. [12] reported the incidence of hypogeusia in 5.6% and hyposmia in 5.1%. Giacomelli et al. [13] reported a study on 59 patients, 20 (33.9%) reported at least 1 taste or olfactory disorder and 11 (18.6%) both. Vaira et al. [14] reported chemosensory dysfunction in 19.4% out of 320 patients. Wide variation in above reported literature may be attributed to pathophysiology of nCoV-2 infection. Suzuki et al. [16] in 2008 reported Corona virus as pathogen to cause post viral Olfactory Dysfunction. Peng Zhou et al. [17] identified the role of Angiotensin converting enzyme 2 (ACE2) in the pathogenesis of SARS-CoV-2. Brann DH Fig. 3 ENT symptoms in COVID-19 patients et al. [18] studied and explained the role of 2 genes: ACE2 and TMPRSS in olfactory epithelial support cells, stem cells, and nasal respiratory epithelium explaining the possible mechanism of anosmia in COVID-19 patients. These 2 genes play a potential role in transport of SARS-CoV-2 into the cell. Netland et al. [19] also reported the potential role of SARS-CoV receptor (human ACE 2) in transneuronal spread of virus to olfactory bulb region. Yanan Cao et al. [20] reported expression quantitative trait loci (eQTLs) variants of the ACE2 gene which can be a cause for ACE2 polymorphisms and ACE2 expression levels between Asian and European populations. It can be one of possible aetiology in variety of expression in olfactory dysfunction in different countries or races. However its exact aetiology is a matter of further detailed research to confirm ACE 2 receptors role. Recovery in olfactory dysfunction with assessment by QD-NOS was seen in 19/28 (67.86%) at 1 week, rest 9 recovered from olfactory dysfunction by the end of total 14 days, so complete recovery of olfactory dysfunction was seen in 100% of patients by 14 days. Lechien [21] reported recovery in 80% of Patients with postviral olfactory loss within 1 year. Lechien et al. [8] observed olfactory dysfunction was not significantly associated with Nasal discharge or nasal obstruction. In our study, 8/28-olfactory dysfunction group (28.57%) had associated posterior nasal discharge and 3/28 (10.7%) patients had associated rhinorrhea. However this association was found not to be statistically significant. Lechien et al. [8] and Klopfenstein et al. [9] , both observed diarrhoea in [ 5 0% of patients. But as per our data, no patient with olfactory dysfunction had associated diarrhoea complaint. In 12 patients of COVID-19 with Hypertension and in 7 patients of COVID-19 with Diabetes Mellitus 2, olfactory dysfunction was seen in 4 patients (33.33%) and 5 patients (71.42%) respectively. Because of small sample size, it was not possible to evaluate statistically correlation between COVID-19 with associated co-morbidity Hypertension / Diabetes and Olfactory dysfunction. Dysgeusia was present in 20/152 patients (13.15%). At 7th day evaluation, recovery in dysgeusia was seen in 13/20 (65%). Recovery was noticed in rest of the patients at 14th day follow up. Giacomelli et al. [13] observed taste dysfunction in 10.2% of subjects. The strength of our study is that it is a prospective study of the true cohort of COVID-19 patients in Indian population as all patients with RT-PCR confirmed COVID-19 were admitted in our hospital irrespective of presence/absence of symptoms. So our study group is a true representation of COVID-19 cohort which eliminates the bias of not including or missing out asymptomatic/mildly symptomatic patients who don't need admission in hospital. Our study limitations are small sample size and being an observational study, our study didn't benefit in improvement in treatment. However, to best of our knowledge this is the first Indian single centre cohort study of confirmed COVID-19 patients to evaluate olfactory and gustatory dysfunction. Olfactory and gustatory dysfunctions are significant part of spectrum of COVID-19 symptoms in Indian population. Sudden onset anosmia/hyposmia with or without taste sense dysfunction can be the presenting symptom of the COVID-19. So Otolaryngologists and other medical specialty colleagues need to be extra vigilant about the symptoms of olfactory/gustatory dysfunction to diagnose COVID-19 patients at an early stage. Olfactory and Dysgeusia symptoms are transient and fully recoverable. 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