Literature DB >> 32519322

Self-Reported Loss of Smell and Taste in SARS-CoV-2 Patients: Primary Care Data to Guide Future Early Detection Strategies.

Benoit Tudrej^1,2, Paul Sebo³, Julie Lourdaux⁴, Clara Cuzin⁵, Martin Floquet⁵, Dagmar M Haller³, Hubert Maisonneuve^5,6,3.

Abstract

Entities: Disease Gene Species

Mesh：

Year: 2020 PMID： 32519322 PMCID： PMC7282728 DOI： 10.1007/s11606-020-05933-9

Source DB: PubMed Journal: J Gen Intern Med ISSN： 0884-8734 Impact factor: 5.128

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INTRODUCTION

While initial reports did not highlight such symptoms, recent data from several countries suggest that SARS-CoV-2-positive inpatients experienced loss of smell and/or taste.[1, 2] In a retrospective web-based study of outpatients who had attended one of three emerging diseases center in France, the combination of hyposmia and hypogeusia had moderate sensitivity (42%) and high specificity (95%) for the identification of SARS-CoV-2-positive patients.[2] While loss of smell or taste could be a key symptom to guide early identification of new cases in primary care, the extent to which participants in this study were representative of primary care patients is unclear. To address this limitation, we conducted a study involving primary care patients in France.

METHODS

This preliminary cross-sectional study was conducted between March 24, 2020, and April 14, 2020, in two clinical laboratories in Lyon (France) to which general practitioners (GPs) refer patients with a suspicion of COVID-19 for a nasopharyngeal smear (RT-PCR). Before undergoing the test, the patients responded to a pre-formatted questionnaire about their symptoms, built on previous literature[3, 4] and expert opinion. Data were analyzed using Stata 15, adjusting for clustering within the two laboratories. We examined the univariate and multivariate association between smell and/or taste disorders and a positive SARS-CoV-2 test, adjusting for all the other symptoms frequently reported by the patients. We also examined the performance of these smell and taste symptoms in predicting a SARS-CoV-2-positive test.

RESULTS

A total of 816 consecutively recruited patients were included in the analysis; 532 (65%) were women. The median age was 45 (interquartile range, 28; min–max, 4–92); 302 (37%) were healthcare professionals. Cough and dry throat were the most frequently reported symptoms (Table 1). Patients who tested positive for SARS-CoV-2 (n = 198 (24%)) reported loss of smell or taste significantly more often than patients who tested negative (Table 2). Smell or taste disorders were significantly associated with positive RT-PCR with an adjusted OR = 6.3 (95% CI, 5.2–7.5) in this primary care population with a high pre-test probability of COVID-19.

Table 1

Proportion of Symptoms Reported by Patients (N = 816)

Symptoms	N (%)
Anosmia or hyposmia	156 (19.1)
Ageusia or hypogeusia	188 (23.0)
Fever*	366 (44.9)
Asthenia	115 (14.1)
Headache*	359 (44.1)
Cough	450 (55.2)
Dyspnea	143 (17.5)
Chest pain*	164 (20.1)
Myalgia	166 (20.3)
Diarrhea*	174 (21.4)
Dry nose*	173 (21.2)
Stuffy nose*	211 (25.9)
Dry throat*	384 (47.1)
Sore throat	54 (6.6)

*Data missing for 1 patient

Table 2

Association Between Smell and/or Taste Disorders, and Positivity of the SARS-CoV-2 RT-PCR Test

Symptoms	Overall (N = 816), n (%)	Patients with a positive test (N = 198), n (%)	Patients with a negative test (N = 618), n (%)	Crude OR (95% CI)¹	p value¹	Adjusted OR (95% CI)²	Adjusted p value²	Sensitivity (%)	Specificity (%)	ROC area (95% CI)
Smell disorder ³	156 (19.1)	82 (41.4)	74 (12.0)	5.2 (4.3-6.3)	< 0.001	6.3 (5.8–6.9)	< 0.001	41.4	88.0	0.65 (0.61–0.68)
Taste disorder ⁴	188 (23.0)	92 (46.5)	96 (15.5)	4.7 (3.4–6.6)	< 0.001	4.9 (3.2–7.5)	< 0.001	46.5	84.5	0.66 (0.62–0.69)
Smell and taste disorder^3,4	102 (12.5)	58 (29.3)	44 (7.1)	5.4 (2.9–10.1)	< 0.001	5.9 (3.2–11.1)	< 0.001	29.3	92.9	0.61 (0.58–0.64)
Smell or taste disorder^3,4	242 (29.7)	116 (58.6)	126 (20.4)	5.5 (4.6–6.7)	< 0.001	6.3 (5.2–7.5)	< 0.001	58.6	79.6	0.69 (0.65–0.73)

1Univariate logistic regression (adjusted for clustering within labs)

2Multivariate logistic regression (adjusted for clustering within labs, gender, age group, and patient reporting of fever, asthenia, headache, cough, dyspnea, chest pain, myalgia, diarrhea, dry nose, stuffy nose, dry throat, sore throat)

3Anosmia or hyposmia

4Ageusia or hypogeusia

Proportion of Symptoms Reported by Patients (N = 816) *Data missing for 1 patient Association Between Smell and/or Taste Disorders, and Positivity of the SARS-CoV-2 RT-PCR Test 1Univariate logistic regression (adjusted for clustering within labs) 2Multivariate logistic regression (adjusted for clustering within labs, gender, age group, and patient reporting of fever, asthenia, headache, cough, dyspnea, chest pain, myalgia, diarrhea, dry nose, stuffy nose, dry throat, sore throat) 3Anosmia or hyposmia 4Ageusia or hypogeusia

DISCUSSION

The tropism of SARS-CoV-2 for the nerves of the ear, nose, and throat system[5] may explain the relatively high proportion of SARS-CoV-2 patients suffering from smell and taste disorders, compared with patients suffering from upper respiratory tract infections with other viruses. In this epidemic context, a simple clinical screening tool could be very efficient. Smell and taste disorders seem to be very specific to SARS-CoV-2 infection. This is a key finding to inform triage strategies and early isolation of new clusters of infection through primary care. The high specificity of these symptoms means GPs could rely on them to affirm a diagnosis of COVID-19, referring only patients with low pre-test probability (i.e., with non-specific symptoms) to RT-PCR screening. This could be a strategy to consider in lower resource settings, when RT-PCR testing is not widely available, or lack of protective gear would lead to excessive risk of contamination for the caregiver performing the test. Our study was initiated after the first media reports of a possible link between anosmia and COVID-19. This may have prompted patients to over-report these symptoms, thus affecting their prevalence in our sample. Since patients were asked about the symptoms before receiving the results of their test, this limits the repercussions of this potential reporting bias on our measures of association. Future studies should explore the diagnostic performance of various combinations of symptoms (i.e., anosmia and ageusia, anosmia without rhinitis, anosmia with nasal dryness…) to increase the specificity of the clinical picture. In accordance with Wynants et al.’s recommendations,[6] these studies should be performed with a representative dataset (i.e., primary care–based sample), an adequate description of the study population and external validation of the diagnostic tool. In conclusion, our study shows that smell and taste disorders are common in primary care patients with SARS-CoV-2 infection. These symptoms might represent the first step to build a relatively simple clinical screening tool to use in primary care in an epidemic context. Once confinement measures are lifted, our data could further inform triage and early identification of new clusters of cases through primary care.

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Journal: JAMA Date: 2020-03-17 Impact factor: 56.272

2. Severe acute respiratory syndrome coronavirus infection causes neuronal death in the absence of encephalitis in mice transgenic for human ACE2.

Authors: Jason Netland; David K Meyerholz; Steven Moore; Martin Cassell; Stanley Perlman
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3. Utility of hyposmia and hypogeusia for the diagnosis of COVID-19.

Authors: François Bénézit; Paul Le Turnier; Charles Declerck; Cécile Paillé; Matthieu Revest; Vincent Dubée; Pierre Tattevin
Journal: Lancet Infect Dis Date: 2020-04-15 Impact factor: 25.071

4. Prediction models for diagnosis and prognosis of covid-19: systematic review and critical appraisal

Authors: Laure Wynants; Ben Van Calster; Gary S Collins; Richard D Riley; Georg Heinze; Ewoud Schuit; Marc M J Bonten; Darren L Dahly; Johanna A A Damen; Thomas P A Debray; Valentijn M T de Jong; Maarten De Vos; Paul Dhiman; Maria C Haller; Michael O Harhay; Liesbet Henckaerts; Pauline Heus; Michael Kammer; Nina Kreuzberger; Anna Lohmann; Kim Luijken; Jie Ma; Glen P Martin; David J McLernon; Constanza L Andaur Navarro; Johannes B Reitsma; Jamie C Sergeant; Chunhu Shi; Nicole Skoetz; Luc J M Smits; Kym I E Snell; Matthew Sperrin; René Spijker; Ewout W Steyerberg; Toshihiko Takada; Ioanna Tzoulaki; Sander M J van Kuijk; Bas van Bussel; Iwan C C van der Horst; Florien S van Royen; Jan Y Verbakel; Christine Wallisch; Jack Wilkinson; Robert Wolff; Lotty Hooft; Karel G M Moons; Maarten van Smeden
Journal: BMJ Date: 2020-04-07

4 in total

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1. Taste loss as a distinct symptom of COVID-19: a systematic review and meta-analysis.

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Journal: Chem Senses Date: 2022-01-01 Impact factor: 3.160

Review 2. Signs and symptoms to determine if a patient presenting in primary care or hospital outpatient settings has COVID-19.

Authors: Thomas Struyf; Jonathan J Deeks; Jacqueline Dinnes; Yemisi Takwoingi; Clare Davenport; Mariska Mg Leeflang; René Spijker; Lotty Hooft; Devy Emperador; Julie Domen; Anouk Tans; Stéphanie Janssens; Dakshitha Wickramasinghe; Viktor Lannoy; Sebastiaan R A Horn; Ann Van den Bruel
Journal: Cochrane Database Syst Rev Date: 2022-05-20

Review 3. The Prevalence and Pathophysiology of Chemical Sense Disorder Caused by the Novel Coronavirus.

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4. Smell and Taste Disorders in COVID-19 Patients: Objective Testing and Magnetic Resonance Imaging in Five Cases.

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5. Prevalence of Chemosensory Dysfunction in COVID-19 Patients: A Systematic Review and Meta-analysis Reveals Significant Ethnic Differences.

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Review 6. Olfactory and gustatory dysfunctions in SARS-CoV-2 infection: A systematic review.

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7. Signs and symptoms to determine if a patient presenting in primary care or hospital outpatient settings has COVID-19.

Authors: Thomas Struyf; Jonathan J Deeks; Jacqueline Dinnes; Yemisi Takwoingi; Clare Davenport; Mariska Mg Leeflang; René Spijker; Lotty Hooft; Devy Emperador; Julie Domen; Sebastiaan R A Horn; Ann Van den Bruel
Journal: Cochrane Database Syst Rev Date: 2021-02-23