Author’s reply to the Letter to the Editor “The study of olfactory dysfunction in SARS-CoV-2 variants”

Dear editor, We are delighted by the interest in our publication “Prevalence of acute olfactory dysfunction differs between variants of SARS-CoV-2—results from chemosensitive testing in wild type, VOC alpha (B.1.1.7) and VOC delta (B.1617.2)” and want to thank Lechien et al. for their kind estimation and the thoughtful discussion of our manuscript [1]. In this study we psychophysically confirmed a lower prevalence of olfactory dysfunction in the SARS-CoV-2 variants of concern (VOCs) alpha and delta compared to the wild-type. This is in accordance with recent publications: Coelho et al. showed odds ratios of 0.50, 0.44 for patients’ self-ratings of olfactory dysfunction in VOCs alpha and delta compared to the wild-type [2]. Similarly, Klimek et al. found a significantly higher TDI score in patients with VOC delta compared to wild-type [3]. Our data has been collected under the challenges of acute COVID-19. Hence, as addressed by Lechien et al. our study has some limitations: Chemosensitive assessment is normally performed in specialized departments and comprises the collection of the patient’s history, a clinical examination including nasal endoscopy and psychophysical testing. As SARS-CoV-2 positive patients are normally quarantined, home-based approaches have been established using self-prepared or shipped test kits combined with questionnaires [4, 5], online surveys [6], or telephone interviews [7]. I. Besides remote olfactory testing we recorded preconditions of both general health and chemosenses and the individual course of the SARS-CoV-2 infection. Patients with a previously known hyposmia or related conditions such as rhinosinusitis, traumatic brain injury or neurological diseases were excluded to minimize a possible bias of the results. However, due to the strict word limitation of the Short Communication, we could unfortunately not describe the methods in full detail and not present all findings of our study. II. We do completely agree that testing of threshold, discrimination, and gustation (TDI, Sniffin’ Sticks) remains the gold standard for the psychophysical assessment of olfaction [8]. Due to the special circumstances of home-quarantine during acute COVID-19 this was hardly possible. Hence, we chose the well-established 8-item NHANES pocket smell test and the 16-item identification test to assesses olfaction in a remote approach. Different than stated by Lechien et al. a cut-off values have been established for both the 8-item NHANES pocket smell test (hyposmia: five or less correct answers of eight) [9] and the 16-item identification (hyposmia: eleven or less correct answers of 16) [10]. Therefore, the cut-off value for normosmia is 75% for both used tests. III. The self-assessment of Sniffin’ Sticks might be prone to bias for various reasons as stated correctly by Lechien et al. To ensure the correct execution patients were instructed through an established telemedicine approach [7]. Moreover, the very same 16-item identification test [11] as well as other smell tests [12] have been previously validated for self-administration. Recently, evidence of a declined lower prevalence of patients self-rated olfactory disorders in VOC omicron has been published [2, 13, 14] and the psychophysical data will likely follow. However, our study remains unique to psychophysically compare wild-type with the VOCs alpha and delta.


Dear editor,
We are delighted by the interest in our publication "Prevalence of acute olfactory dysfunction differs between variants of SARS-CoV-2-results from chemosensitive testing in wild type, VOC alpha (B.1.1.7) and VOC delta (B.1617.2)" and want to thank Lechien et al. for their kind estimation and the thoughtful discussion of our manuscript [1].
In this study we psychophysically confirmed a lower prevalence of olfactory dysfunction in the SARS-CoV-2 variants of concern (VOCs) alpha and delta compared to the wild-type. This is in accordance with recent publications: Coelho et al. showed odds ratios of 0.50, 0.44 for patients' self-ratings of olfactory dysfunction in VOCs alpha and delta compared to the wild-type [2]. Similarly, Klimek et al. found a significantly higher TDI score in patients with VOC delta compared to wild-type [3].
Our data has been collected under the challenges of acute COVID-19. Hence, as addressed by Lechien et al. our study has some limitations: Chemosensitive assessment is normally performed in specialized departments and comprises the collection of the patient's history, a clinical examination including nasal endoscopy and psychophysical testing. As SARS-CoV-2 positive patients are normally quarantined, home-based approaches have been established using self-prepared or shipped test kits combined with questionnaires [4,5], online surveys [6], or telephone interviews [7].
I. Besides remote olfactory testing we recorded preconditions of both general health and chemosenses and the individual course of the SARS-CoV-2 infection. Patients with a previously known hyposmia or related conditions such as rhinosinusitis, traumatic brain injury or neurological diseases were excluded to minimize a possible bias of the results. However, due to the strict word limitation of the Short Communication, we could unfortunately not describe the methods in full detail and not present all findings of our study.
II. We do completely agree that testing of threshold, discrimination, and gustation (TDI, Sniffin' Sticks) remains the gold standard for the psychophysical assessment of olfaction [8]. Due to the special circumstances of home-quarantine during acute COVID-19 this was hardly possible. Hence, we chose the well-established 8-item NHANES pocket smell test and the 16-item identification test to assesses olfaction in a remote approach. Different than stated by Lechien et al. a cut-off values have been established for both the 8-item NHANES pocket smell test (hyposmia: five or less correct answers of eight) [9] and the 16-item identification (hyposmia: eleven or less correct answers of 16) [10]. Therefore, the cut-off value for normosmia is 75% for both used tests.
III. The self-assessment of Sniffin' Sticks might be prone to bias for various reasons as stated correctly by Lechien et al. To ensure the correct execution patients were instructed through an established telemedicine approach [7]. Moreover, the very same 16-item identification test [11] as well as other smell tests [12] have been previously validated for self-administration.
Recently, evidence of a declined lower prevalence of patients self-rated olfactory disorders in VOC omicron has been published [2,13,14] and the psychophysical data will likely follow. However, our study remains unique to psychophysically compare wild-type with the VOCs alpha and delta.
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