key: cord-0721324-mfss50z2 authors: Aslaner, Hümeyra; Aslaner, Hacı Ahmet; Gökçek, Mebrure Beyza; Benli, Ali Ramazan; Yıldız, Orhan title: The Effect of Chronic Diseases, Age and Gender on Morbidity and Mortality of COVID-19 Infection date: 2021-04-03 journal: Iran J Public Health DOI: 10.18502/ijph.v50i4.5996 sha: 050df1115bfd24744e9b18e7158b7a52ad9b8272 doc_id: 721324 cord_uid: mfss50z2 BACKGROUND: We aimed to reveal how chronic diseases, age and gender affected morbidity and mortality in patients with Coronavirus disease of 2019 (COVID-19). METHODS: Medical records of all reverse transcription polymerase chain reaction (RT-PCR) positive COVID-19 patients followed up in hospital and home isolation between 13(th) of Mar 2020 and 12(th) of May 2020 were retrospectively reviewed. The patients were from Kayseri Province, Turkey. Patients’ demographic and clinical characteristics and the factors associated with morbidity and mortality were analyzed. RESULTS: Of all the patients, 773 (95.8%) were alive and 34 (4.24%) died. The fatality rate was 4.2%. There were differences between the age groups in terms of fatality rate (P<0.001). The fatality rate in patients above the age of 65 yr was significantly higher. The fatality rate in the male gender was 2.44 times higher (P<0.05). It was 1.104 times higher in advanced age (P<0.001) and 10.893 times higher in patients with at least one comorbid disease (P<0.05). Hypertension increased mortality by 3.635 times (P<0.05) and chronic pulmonary diseases by 2.926 times (P<0.05). CONCLUSION: Advanced age, male gender and accompanying chronic diseases have adverse effects on the course and severity of the disease and hospitalization. They also increased the rate and risk of mortality. COVID-19 epidemic caused by severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) that emerged in Wuhan, Hubei, China on the 31 st of Dec2019 has taken place in the history as the first pandemic quickly spreading into six continents and hundreds of countries and caused by coronaviruses. Coronaviruses affect the upper and lower respiratory tracts of humans and animals and lead to the disease. COVID-19 has an incubation period of 14 days and patients are generally observed within 2-5 days after a con-tact (1, 2) . In China, while this period in 1,099 COVID-19 patients was stated as mean 4 days it was stated in another study that the symptoms developed within 11.5 days in 97.5% of the infected patients and 2.2 days in 2.5% (3, 4) . When the clinical spectrum of the disease is evaluated conditions that require mechanical ventilation such as respiratory failure, sepsis, septic shock and multiorgan failure can be observed as well as asymptomatic form. SARS-CoV-2 is basically transmitted by cough or sneeze generated droplets of the patients after a person touches the surface with these droplets as the agent contacts mucosa. While the transmission is mostly caused by the patients, asymptomatic cases also play a critical role in the transmission of the disease (5). All age groups are sensitive to COVID-19. Of the cases in China, 87% were in the age range from 30 to 79 yr. The probability of a severe course in the disease and mortality was higher in individuals of advanced age. The fatality rate was found 2.3% in all the cases, 8% in the age group between 70-79 and 14.8% in the age group above 80 yr (6) . Mortality increases and morbidity becomes severe with accompanying chronic diseases in COVID-19. In a study on 51 patients, the mean age for the incidence of the disease was 49 yr. Twenty two percent of the patients had comorbidities such as diabetes, hypertension, chronic liver disease, chronic obstructive pulmonary disease and heart disease (7) . Oversell, 201 of the patients had chronic diseases and that course of the infection was more severe in these patients (8) . We aimed to reveal how chronic diseases, age and gender affected morbidity and mortality in patients with COVID-19. Patients found to be positive for COVID-19 in their first RT-PCR test in healthcare centers determined as "COVID-19 Pandemic Hospitals" in Kayseri Province by the Turkish Ministry of Health between 13 th of Mar 2020 and 12 th of May 2020 were included in this study. Throat or nasal swab samples were used for RT-PCR. Patients from all age groups were included. Records of the patients were retrospectively analyzed. Information about the comorbidities and process of the disease in patients was obtained from Public Health Management System (HSYS). As for comorbidities, histories of hypertension, diabetes mellitus, cardiovascular, respiratory disease, hyperlipidemia, chronic renal diseases, cerebrovascular disease and malignancy were screened. Coronary artery disease, congestive heart failure, and arrhythmias were classified as cardiovascular diseases; chronic obstructive pulmonary disease and asthma were classified as chronic pulmonary diseases. All hospitalized patients had a national unique code, so there were no duplicates. Patients were divided into two groups as patients hospitalized and patients who were followed up at home. According to the hospitalization guideline published by the Ministry of Health, we considered "Confusion or tachycardia (>125/min) or respiratory distress or tachypnea (>22/min) or hypotension (<90/60 mmHg) or SPO2<93% or bilateral pneumonia findings on computed tomography (CT) or posterior anterior chest x-ray or blood lymphocyte count <800/μl or serum CRP>40 mg/l or ferritin>500 ng/ml or D-Dimer>100 ng/m". If patients had one of this findings or symptoms at the first admission, they were hospitalized. Patients who were not hospitalized were quarantined and followed up at home. The study variables were as follows: gender, age, outcome (including death or survival), type of comorbidity, and the result of RT-PCR tests. The approval of the Erciyes University Medical Faculty Ethics Committee was obtained (Date: 08.07.2020; Decision No: 2020/362) and additionally, Turkish Ministry of Health approval was obtained on 19 th of May 2020 for this study as required. SPSS version 22.0 (IBM Corp., Armonk, NY, USA) was used for analyses. While descriptive statistics for continuous variables were expressed as mean, standard deviation, minimum and maximum values categorical variables were expressed as numbers and percentiles. Data were given as mean ± standard deviation. Kolmogorov Smirnov test was used to determine whether numerical data belonging to the variables were compatible with the normal distribution. Chisquare test was used to determine the relationship between the groups and categorical variables. Statistical significance level was accepted as 5% in the calculations and P value equal to or lowers than this value was commented as the relationship between the parameters was statistically significant. The linear relationship between the variables was evaluated with Spearman correlation test. Independent factors affecting mortality in COVID-19 infection were evaluated by logistic regression analysis. A total of 807 patients whose RT-PCR test results were positive and who were diagnosed with COVID-19 between 13 th of Mar 2020 and 12 th of May 2020 were enrolled in this study. The clinical characteristics, fatality rate and case fatality rate (CFR) of patients are presented in Tables 1 and 2. The median age of patients was 39 [0-96] and the highest number of patients was in the age range between 20 and 60 yr. Percentage of male patients was 50.3%. The age group above 65 yr had the highest fatality rate among the age groups (P: 0.001). The fatality rate in men (n=21; 5.2%) was higher, but there was no statistically significant difference. Median value of the number of chronic diseases in all patients was 0 [0-6]. There were 36.8% patients with at least one chronic disease. Fatality rate in patients with chronic disease was 11.1% (n=33) (P: 0.001). While fatality rate was 66.7%in patients with 6 chronic diseases as comorbidities it was 0.2% in patients without any comorbidities (P: 0.001). As it is shown in Table 2 , cerebrovascular disease, cancer, cardiovascular diseases, hypertension and diabetes were the diagnoses with statistically significantly highest case fatality rates (66.7%, 27.3%, 21.7%, and 15.5% respectively). Fatality rate of patients who were hospitalized was higher than that of patients who were followed up at home (P: 0.001).Of all the patients, 514 (63.7%) patients were hospitalized. Out of these 514 patients, 91.6% received inpatient treatment, 9 (1.8%) patients were followed up in intensive care unit and 6 (1.2%) were intubated and 34 (6.6%) patients died. Age ranges of hospitalized patients and patients who were followed up at home were similar as shown in Table 3 (P: 0.188). Out of 34 patients who died, 33 (97.1%) had at least one comorbidity (P:0.001). However, hospitalization status of patients with chronic disease was similar (P: 0.376). As in Table 3 , patients diagnosed with hypertension were hospitalized more (P:0.025). Hospitalization status of the patients with other chronic diseases was similar. However, patients with CVH, chronic renal disease and coroner disease were hospitalized more. The control RT-PCR positive of the patients followed in the hospital was more than those followed at home (41.8% vs. 27.3%) (P: 0.001). When the factors affecting mortality were evaluated in Table 4 it was observed that age increased mortality by 1.104 times more (P:0.001), male gender affected mortality by 2.44 times more (P:0.037), presence of a comorbidity increased mortality by 10.893 times more (P:0.025), hypertension by 3.635 times more (P:0.013), chronic pulmonary diseases by 2.926 times more (P:0.031) and malignancy by 10.557 times more (P:0.009). This epidemiological study gives information about comorbid diseases affecting the disease and epidemic in Turkey. The effects of especially comorbid diseases on morbidity and mortality of patients with COVID-19 were investigated. Median age of the patients was 39.85 ± 18 yr and 50.3% were male. In Turkey,the median age of patients was 42 yr and the percentage of male patients was 53.8% (9) . In the another study, the number of male patients with COVID-19 was higher with a rate of 54.3% and most (n=30; 88.23%) of 34 patients were in the age group of ≥65 yr and had comorbidities such as diabetes, hypertension and chronic pulmonary diseases (10) . The CFR in this study was 4.2% in all patient groups (the ones who were hospitalized or the ones who were followed up at home), 6.6% in hospitalized patients, 11.1% in patients with comorbidities and 0.2% in patients without any comorbidities. CFR was calculated as 1.85% in general population and 8.06% in hospitalized patients (11) .The high CFR of the hospitalized patients was considered normal because of the clinical status of the patients who were followed at home was better. Logistic regression results revealed significant effects of age, male gender and underlying diseases on mortality risk in patients with COVID-19. In parallel with another study (12) , regression analysis in our study revealed that advanced age was associated more with high mortality risk (OR=1.10, 95% CI: 1.06-1.13). This high rate was considered to be affected by nutritional deficiency, weak immune system and higher number of additional diseases in advanced age (13) . In our study, male gender significantly increased mortality (OR=2.44, 95% CI: 1.09-5.97). This rate may be lower in women due to sex hormones and X chromosome known to play role in innate and acquired immunity system. Moreover, according tothe studies performed in China, ACE2 expression is more dominant in smokers and smoking is more common among men compared to women, which explains the higher rate in men (14, 15 In the results of our study, the risk of mortality was significantly higher in hypertension, chronic respiratory tract diseases and cancer (16) . Of the patients included in our study, 72.7% were in the age group of 19-65 yr. Lower rates of cases among the two age groups under 20 and above 65 were considered to be as a result of precautions taken (all educational institutions were closed one day after the first case was detected in Turkey on the 10 th of March and lockdown was announced for the age group above 65 on the 21 st of Mar and for the age group under 20 on the 10 th of Apr) and decreasing the risk for contact with COVID-19 positive individuals to minimum. Social distancing was an important tool in decreasing infections and mortality during previous pandemics and its effect against COVID-19 in China is obvious (17) (18) (19) . The limitation of this study was retrospective and small number of patients. Chronic disease and advanced age seriously increase mortality and morbidity in COVID-19 infection. For this reason, people in this group should be more careful in measures such as the use of personal protective equipment, hygiene and social distance compliance, as recommended by the WHO. In studies with larger patient groups, these effects will be more pronounced. Ethical issues (including plagiarism, informed consent, misconduct, data fabrication and/or falsification, double publication and/or submission, redundancy, etc.) have been completely observed by the authors. 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The authors declare that there is no conflict of interest.