Seasonal Factors and COVID 19

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

COMPLETED

Total Enrollment

24225 participants

Study Classification

OBSERVATIONAL

Study Start Date

2021-01-31

Study Completion Date

2022-03-02

Brief Summary

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Corona Virus - 19 Disease (COVID-19), caused by Severe Acute Respiratory Syndrome Corona Virus-2 (SARS-CoV-2), first appeared in Wuhan city of Hubei province of China and spread rapidly, causing a pandemic. In the period from the first emergence of the disease to the present, 336,790,193 people have been infected and 5,560,718 people have died. Considering the severity of the disease, some quarantine measures should be applied, as in many infectious diseases, among the first measures taken worldwide to prevent the spread of the virus.It has been suggested in a limited number of studies conducted in the last two years that climatic conditions may be among the main factors affecting the spread of SARS-CoV-2. However, there is no consensus on the effects of factors such as temperature, humidity, and wind on the spread of the disease, and there are conflicting results. The aim of this study is to determine the relationship between the rate of spread of COVID-19, the rate of intensive care hospitalization and fatality, and weather conditions.

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Detailed Description

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From the first appearance of COVID-19 to the present, 336,790,193 people have been infected and 5,560,718 people have died (Web Page: https://covid19.who.int/ accessed on 21 January 2022). Considering the severity of the disease, some quarantine measures should be applied, as in many infectious diseases, among the first measures taken worldwide to prevent the spread of the virus. However, these practices may cause the society to be negatively affected economically, socially and psychologically over time (1). Predicting the conditions that increase the spread of the disease, optimizing quarantine practices, preparing health institutions for epidemic disease conditions and minimizing the negative effects of practices on society are very important in such pandemic epidemics that have the potential to affect the whole world for years.

In the last two decades, it has been reported that the survival time of the virus in the air, its spreading rate and virulence are affected by weather conditions such as temperature, humidity, and wind speed in epidemics caused by viruses that are transmitted by droplets and cause respiratory diseases (2,3). Similarly, a limited number of studies conducted in the last two years have suggested that climatic conditions may be among the main factors affecting the spread of SARS-CoV-2 (1.4-6). In addition, almost all of these studies were carried out on the basis of the number of patients presented by the health authorities of the countries, and they are not field studies. This situation, on the other hand, has the potential to ignore patients who have only Polymerase Chain Reaction (PCR) positivity as the basis for patient identification, and therefore patients with clinical and imaging COVID-19 and test negativity. While investigating the relationship between the rate of spread and virulence of COVID-19 and seasonal climatic conditions, conducting the study in a region where all the factors that have the potential to affect the spread of the virus are as similar as possible, over a wide period of time, including seasonal changes, may provide more information. The aim of this study is to determine the relationship between the rate of spread of COVID-19, the rate of intensive care hospitalization and fatality, and weather conditions.

This retrospective observational multicenter study was conducted by examining the 284-day data of Covid-19 outpatient clinics of two large University hospitals located in the south and north of the city of Izmir in Turkey. The province of İzmir, where the research was carried out, is located between 38-39 north latitudes and 26-28 east meridians in terms of geographical location. It is Turkey's 3rd largest city and its total population in 2020 is approximately 4.4 million people. The centers where the study was conducted are the university hospitals in the north and south of the city, which have been serving as pandemic centers since the beginning of the pandemic and where the city's highest number of patient admissions. Before starting the study, approval was obtained from the hospital local ethics committee with the number GOKAE-2020-190 and from the Ministry of Health with the number 2020-05-04T09\_17\_13.

The data were obtained by examining the patient records who applied to the COVID-19 outpatient clinics of both central hospitals where the study was conducted between March 2020 and January 2021. The data were analyzed day by day, covering 284 days. During the study period, the number, gender, age and clinical outcome of all patients with positive PCR test among the patients who applied to the Covid outpatient clinics of both hospitals (decision of outpatient follow-up, decision of hospitalization, decision of admission to intensive care unit and ex) were recorded. . Patients who were diagnosed with COVID-19 based on clinical and imaging studies and were therefore recommended isolation or hospitalization were enrolled among the patients who had negative PCR tests. While patients with negative PCR were diagnosed with Covid-19 in their applications to the Covid-19 outpatient clinics of both hospitals, the North American Society of Radiology Covid-19 CT imaging expert consensus report is taken as a basis for radiological images. According to this report, those with Lung CT Type 1 or Type 2 are considered Covid-19, while those with Type 3 or who are clinically compatible with Covid-19 in patients with no infiltration on imaging or who were not sent for imaging, accompanied by normal or low white blood cell count and low neutrophil count, have high Patients are diagnosed with Covid-19 using platelet count parameters. The hospital records of these patients were reviewed, and patients whose diagnosis changed according to repeated PCR test, swab test results for other viral agents, repetitive imaging, and laboratory results were excluded from the study. Clinical outcome was followed up 1 month after the first admission of the patients and until discharge or death in hospitalized patients. The application date of the patients who had recurrent applications during the same disease process was taken as the first application date, and the records of the patients whose clinical decision was later changed to hospitalization and intensive care unit were reduced to a single record and the final clinical outcome was taken as the basis. In this way, the number of patients who received outpatient treatment, hospitalized, intensive care and ex-patient treatment due to Covid-19 were determined and recorded. The rate of hospitalization of the patients in the intensive care unit was calculated with the formula of the number of patients admitted to the daily intensive care unit / Number of patients diagnosed with covid daily, and the fatality rate was calculated with the formula: Number of patients who died per day / Number of patients diagnosed with daily covid, and was recorded.

Weather data with official application from the General Directorate of Meteorology, daily minimum temperature (°C), maximum temperature (°C), temperature average (°C), wind speed (m/s) and direction, humidity (%) within the working period. was obtained as the amount of precipitation (kg/m2).

Descriptive statistics; frequency, percentage, mean, standard deviation, median, minimum and maximum values will be obtained. Number and percentage for categorical variables, mean, standard deviation, minimum, maximum values and interquartile range (IQR) for numerical variables will be calculated. Histogram curves, kurtosis-skewness values and the Shapiro-Wilks test will be used to test whether the continuous variables are normally distributed. The seasonal parameters, temperature, humidity, wind and precipitation, will be correlated with the number of patients per day. By obtaining the same parameters and the graph showing the distribution with the number of patients, the temperature, humidity, wind and precipitation levels with the increase in the number of patients will be determined.

Conditions

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COVID-19 Pandemic

Study Design

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Observational Model Type

CASE_CROSSOVER

Study Time Perspective

RETROSPECTIVE

Interventions

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Polymerase chain reaction

Covid-19 genetic material detection from mouth and nose swab

Intervention Type DIAGNOSTIC_TEST

Eligibility Criteria

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Inclusion Criteria

* Patients with positive PCR test according to laboratory, imaging and PCR test results from adult patients who applied with Covid-19 symptoms or contact history, and patients diagnosed with COVID-19 as a result of imaging and clinical findings were included in the study.