key: cord-0682521-l02x4vfg authors: Mubaraki, Adnan A.; Alrbaiai, Ghaida T.; Sibyani, Afnan K.; Alhulayfi, Rahaf M.; Alzaidi, Reema S.; Almalki, Haneen S. title: Prevalence of anosmia among COVID-19 patients in Taif City, Kingdom of Saudi Arabia date: 2021-01-01 journal: Saudi Med J DOI: 10.15537/smj.2021.1.25588 sha: 4a5d4b21db3d94846e4d2c199de1c49edd90dbea doc_id: 682521 cord_uid: l02x4vfg OBJECTIVES: To assess the prevalence of anosmia in coronavirus-19 (COVID-19) patients. Coronavirus-19-related anosmia and hyposmia is a new emerging concept in the medical literature. METHODS: A retrospective study on COVID-19 patients with anosmia and hyposmia was performed during the period between May-July, 2020. The inclusion criteria were all clinically stable COVID-19 patients >15 years old with positive reverse transcription-polymerase chain reaction (RT-PCR). Patients who refused to participate or leave incomplete questions were excluded. In this study, we investigated 1022 patients who met our criteria. RESULTS: Olfactory dysfunction (OD) was reported by 53% of our COVID-19 patients, of which 32.7% were anosmic and 20.3% were hyposmic. Other neurological symptoms included ageusia (51.4%), fatigue (63%), myalgia (59.2%), and headache (50.9%), all of which showed significant association with OD. In addition, anosmia had a significant association with young age and female gender. However, there was no association between OD and pre-existing neurological disease. CONCLUSION: Half of our COVID-19 patients presented OD (anosmia/hyposmia), which often associated with ageusia and many neurological symptoms. an ongoing viral pandemic, which is caused by severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). 1,2 Coronavirus-19 was discovered firstly in Wuhan, China in December 2019. 3, 4 It is declared by the World Health Organization (WHO) as a global concern on March, 2020. 5 Until June 2020, the prevalence of confirmed cases worldwide was 8,708,008 with 461,715 confirmed deaths. 5 The spectrum of symptoms is greatly varying and typically includes high fever and dry cough. Other common respiratory symptoms include dyspnea and sore throat; gastrointestinal symptoms include nausea, vomiting, and diarrhea. [6] [7] [8] However, some patients present atypical symptoms including olfactory dysfunction (OD) either in the form of total loss (anosmia) or partial loss (hyposmia) and gustatory dysfunction (GD) in a sudden onset. 9, 10 It is well-known that upper respiratory tract infection viruses cause anosmia. 11 Human strains of coronavirus invade the central nervous system through neuroepithelium and propagate within the olfactory bulb. 12 Furthermore, OD in the form of anosmia with COVID-19 has been reported as one of the most common neurological symptoms. 13, 14 It mostly appears in asymptomatic patients or as an initial presentation without other symptoms. 15 Of note, anosmia and ageusia are considered essential clues for the diagnosis of COVID-19. 6 Recently, a multicentric European study conducted on 417 COVID-19 patients to investigate the occurrence of olfactory and GD showed that smell (85.6%) and taste (88.0%) disorders were observed in them. 16 Another retrospective study, which was conducted in the United Kingdom to determine the prevalence of anosmia and ageusia in adult patients with COVID-19, showed that out of 141 patients, 77 (55%) had anosmia and ageusia. 17 Likewise, another study conducted in the United States of America on 237 patients with COVID-19 to establish anosmia as a reporting tool showed that 73% of them had anosmia. 13 Subsequent research, which screened 1480 patients presented with flu-like symptoms and tested for COVID-19, showed that 68% of COVID-19 patients had anosmia, which was strongly correlated to ageusia compared to 16% in COVID-19 negative patients. 18 Moreover, there were many studies aimed to investigate features and duration of anosmia, which concluded that the onset range was 1-21 days, and its duration range was 1-30 days in some patients with the mean of 8.9 days. 17, 19 A prospective study conducted in Daegu, Korea determined that median time for recovery was 7 days for anosmia and ageusia. 6 Anosmia as a symptom of COVID-19 is an emerging evidence. However, there are limited studies conducted in the Kingdom of Saudi Arabia (KSA). Therefore, we aimed with this study to assess the prevalence of anosmia among COVID-19 patients in Taif, KSA. Methods. This is a retrospective study, which was conducted during the period of May-July, 2020. It aimed to assess the prevalence of anosmia among COVID-19 patients in Taif, KSA and to evaluate its feature and duration. In addition to assess the association between anosmia and common COVID-19 symptoms. The study was conducted on previously diagnosed COVID-19 patients, who were admitted at that time at King Faisal Medical Complex, Taif, KSA. Ethical approval was obtained from the Ethical Committee of Health Affairs, Taif, KSA. Inclusion criteria were as followed: all COVID-19 patients who were >15 years old, COVID-19 positive by RT-PCR, and clinically able to be interviewed irrespectively to the disease severity. Patients who refused to participate or left in the middle of the interview were excluded. Information was collected by telephone interviews that were conducted with all COVID-19 patients who were admitted in between 27 May and 30 July, 2020 and meet inclusion criteria and agreed to participate. The data included demographics (namely, age, gender, and nationality), previous history of olfactory and GD, current or previous treatment with chemotherapy or immunotherapy, and history of head and neck radiotherapy. If OD was present, information about its character (anosmia, hyposmia) and duration was collected. The presence of ageusia and its association with OD was assessed. The presence of typical COVID-19 symptoms and other neurological symptoms (headache, dizziness, disturbed level of consciousness, fatigue, myalgia, and seizure) was determined. The data was analyzed using the Statistical Package for Social Sciences Version 23 (IBM Corp., Armonk, NY, USA) for Windows. For the comparison of continuous variables student's t-test was used, and Pearson's Chi-square test was used to determine the relationship of categorical variables. Results. Out of the 1645 shortlisted patients with COVID-19, 305 patients were not contacted owing to the wrong telephone number or inability to reach them. In addition, 168 patients did not respond, and 150 patients refused to participate; thus, the response rate was 62.12% (n=1022). The overall prevalence of OD among COVID-19 patients was determined to be 53%. Those with anosmia accounted for 32.7%, and those with hyposmia accounted for 20.3% (Figure 1 ). When the prevalence of anosmia was correlated with the age of the participants, it was determined that 15-39 year-old patients had a comparatively higher anosmia prevalence than other age groups; this result showed a statistically significant association (x 2 [2,1022]=13.582, p=0.001, Table 1 ). In our study, 39.1% of the participants were females and 60.9% were males. The prevalence of OD was much higher in females (60.3%) than in males Disclosure. Authors have no conflict of interests, and the work was not supported or funded by any drug company. (56.5%); this result showed a statistically significant relationship (x 2 [2, 1022] =12.30, p<0.001). When we compared the prevalence of anosmia between Saudi and other nationalities, it was determined that Saudi citizens had a comparatively higher prevalence (56.5%) than non-Saudis (49%); this result was statistically significant (x 2 [2, 1022] =5.46, p=0.019, Table 1 ). The study showed that 5.1% had the presence of neurological diseases and showed no significant association with anosmia (p=0.527). However, some neurological symptoms in those patients were significantly associated with anosmia. Patients with multiple symptoms showed the higher prevalence of OD (62.5%) than those who had only one symptom (x 2 [2,1022]=64.070, p<0.001, Table 2 ). The most common neurological symptom was fatigue (63.1%) followed by myalgia (59.2%) and headache (50.9%), (Figure 2 ). When we assessed the prevalence of OD in patients who underwent or were undergoing chemotherapy/ immunotherapy, it was determined that there was no association (p=0.779). In addition, there was no significant association observed between the prevalence of OD and the history of head and neck radiotherapy (p=0.879). The prevalence of diabetes mellitus in these COVID-19 patients was 33.6%; however, the prevalence of OD was higher in non-diabetic patients (57%) than in diabetics (46.4%) (x 2 [2, 1022] =10.368, p=0.001). The mean duration of OD in our cohort was 10.8±9.7 days; the mean duration of anosmia was 12.1±10.3 days and that of hyposmia was 8.7±8.3 days. The comparison of duration of OD between patients who had anosmia and hyposmia showed a statistically significant difference (p<0.001, Table 3 ). The mean duration of ageusia in patients was found to be 10.4±9.1 that also showed a statistically significant difference between anosmia (11.5±9.2 days) and hyposmia (9.2±9.4 days) (p=0.010, Table 3 ). In our study, the prevalence of abdominal pain and diarrhea in Covid-19 patients was 14%, and that of ageusia was 51.4%. In COVID-19 patients, the incidence of abdominal pain and diarrhea was comparatively higher in patients who had OD than in those who did not; this result showed a statistically significant association (x 2 (2,1022)=26.46, p<0.001, Table 4 ). There was a higher prevalence of ageusia in patients who had OD than those who did not have any smell problems; this result showed a statistically significant association (x 2 [ Discussion. Coronavirus-19 is an active pandemic disease and is considered as a threat to the global health; there are many unanswered questions and updates regarding its clinical picture. In this study, we aimed to assess the prevalence of anosmia among COVID-19 patients in Taif, KSA and to evaluate its feature and duration. In our study, the overall prevalence of OD was 53%; of these patients, 32.7% reported having anosmia, while the rest 20.3% reported having hyposmia. The prevalence of OD in more than half of the patients agreed with a large cross-European study that showed an 85.6% prevalence of OD with the predominance of anosmia. We believe that the higher frequency in the European study (85.6% in their study compared to 53% in our study) is due to their cohort profiles, which were ambulatory patients who were consulted during ear-nose-throat (ENT) consultations. 16 Another explanation for their higher prevalence is the ethnic difference of COVID-19 symptoms hypothesis. This high prevalence of both studies supports the ability of coronavirus to affect the olfactory neuron function and the importance of considering anosmia as a predictor for COVID-19 infection. Ageusia is one of the unpredicted symptoms of COVID-19, which has been reported in the literature since the beginning of the pandemic. In our study, the prevalence of ageusia was determined to be 51.4%; 6 Additionally, there is a significant association between olfactory and gustatory dysfunction in our COVID-19 patients, which is equivalent to the results of Lechien et al and Luers et al. 16, 20 The close association between anosmia and ageusia has been explained in many ways in the literature. Hummel et al, 21 has stated that basic taste (sour, sweet, bitter, salty, and umami) are identified only by the gustatory system (glossopharyngeal, facial, and vagal nerves), while the culinary experience is mostly determined by the olfactory nerve. Regarding demographic factors, female gender and young age are significantly associated with anosmia, which is similar to the data published by Paderno et al, 22, 23 and is most likely due to differences in the inflammatory reactions between the 2 genders. Neurologists and neurological journals have discussed neurological manifestations in COVID-19 since the beginning of the pandemic. In our population, fatigue (63.01%), myalgia (59.2%), and headache (50.9%) are the most prevalent neurological symptoms, these results matched those in other published studies. 16, 18, 24, 25 Moreover, the prevalence of OD in patients with multiple neurological symptoms is higher than that in those who have only one symptom, which indicates that human coronaviruses can invade central nervous system (CNS) and cause many neurological symptoms at the same time. In addition, this result may reflect the neuroinvasive actions of coronavirus by the retrograde neuronal route through olfactory neuroepithelium. In addition, because our results do not show significant association between OD and diabetes mellitus, diabetic polyneuropathy is not involved in OD with COVID-19 infection, which is similar to the result of Lechien et al. 16 In addition, there is no significant association between OD and pre-existing neurological diseases. This may be due to the presence of anosmia in the mild forms of the disease. In contrast, pre-existing neurological disorders (namely, myasthenia gravis, lambert eaton myasthenic syndrome, or multiple sclerosis) put patients at a higher risk for the severe form of COVID-19 disease, as has been stated by a review published in May 2020. 16, 24 Regarding the association of OD with typical COVID-19 symptoms, diarrhea and abdominal pain are more prevalent in patients with olfactory dysfunction, which has been also reported in Klopfenstein et al. 20 The contagious nature of the disease and preventive measures lead to the lack of clinical assessment, which is a major limitation of this and other similar studies. Also, there is a possibility of recall bias since this is a retrospective study. Our recommendation for future researchers to carry out a prospective study and psychophysical assessment is recommended for more accurate results. Study limitations. This is one of few studies that investigate COVID-19-related OD among quite numerous population (n=1022) on general, and it is one of the few studies on COVID-19 olfactory dysfunction in KSA especially. In conclusion, OD and ageusia are considered to be highly prevalent symptoms. They deserve special attention because they are highly suggestive for the COVID-19 infection, especially when it is associated with other neurological manifestations such as fatigue, headache, and myalgia. Clinical characteristics of coronavirus disease 2019 in China Planning and provision of ECMO services for severe ARDS during the COVID-19 pandemic and other outbreaks of emerging infectious diseases Early transmission dynamics in Wuhan, China, of novel coronavirusinfected pneumonia Characteristics of and important lessons from the coronavirus disease 2019 (COVID-19) outbreak in China: summary of a report of 72314 cases from the Chinese center for disease control and prevention World Health Organization. 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