key: cord-0837429-cbtremkr
authors: Najafimehr, Hadis; Mohamed Ali, Kosar; Safari, Saeed; Yousefifard, Mahmoud; Hosseini, Mostafa
title: Estimation of basic reproduction number for COVID‐19 and the reasons for its differences
date: 2020-04-16
journal: Int J Clin Pract
DOI: 10.1111/ijcp.13518
sha: ba66dd355292e6438b5dc2fde2d6f3ba9bf4fcf0
doc_id: 837429
cord_uid: cbtremkr

The novel coronavirus pneumonia is an acute respiratory disease. In December 2019, this disease emerged in Wuhan, China. The Chinese government called it SARS‐CoV‐2 which was subsequently named COVID‐19 by the World Health Organization (WHO) [1]. In January 2020, WHO confirmed it as a sustained human to human disease [2]. By March 2020, COVID‐19 had been transmitted round the world rapidly and every day large number of new cases were registered. COVID‐19 is a leaped type of coronavirus family such as Severe Acute Respiratory Syndrome (SARS) and the Middle East Respiratory Syndrome (MERS) that has been transmitted from wild animals to human [3].

Highway, Tehran, Iran. Email: yousefifard.m@iums.ac.ir, Tel: +982186704771

To the Editor, The novel coronavirus pneumonia is an acute respiratory disease. In December 2019, this disease emerged in Wuhan, China. The Chinese government called it SARS-CoV-2 which was subsequently named COVID-19 by the World Health Organization (WHO) [1] . In January 2020, WHO confirmed it as a sustained human to human disease [2] . By March 2020, COVID-19 had been transmitted round the world rapidly and every day large number of new cases were registered. COVID-19 is a leaped

This article is protected by copyright. All rights reserved type of coronavirus family such as Severe Acute Respiratory Syndrome (SARS) and the Middle East Respiratory Syndrome (MERS) that has been transmitted from wild animals to human [3] .

Since COVID-19 has become a global concern, much research has been done to control its transmission. Basic reproduction number (R 0 ) is one of the most widely used concept in epidemiology for understanding the contagiousness of an infectious agent. R 0 is the average number of new infections produced by an infectious patient in a given population. This concept, which is calculated as a numerical index, is used when there is a dynamic infectious disease and the population is not vaccinated [4] . There are three values for this index followed by three interpretations: if it is greater than one, the contagion is expected to continue. If smaller than one, it means that the contagion is running out and if equal to one it implies that almost the stability conditions are dominated [5] .

Hence, R 0 can represent a potential measure of the contagion of a contagious disease. The present study gives a brief discussion on key aspects of the concept of R 0 and its significance to the coronavirus pandemic.

As at March 2020, several studies have calculated R 0 in different populations for COVID-19. Most of these studies are from China and cover the first two months of 2020. Investigation on these studies revealed that the minimum R 0 for China and overseas was 1.4 while the maximum was 7.23. For

Italy, it was estimated as 4.2. Moreover, these values were larger compared to SARS and MERS.

Therefore, COVID-19 can be considered as a high transmission disease with respect to SARS and MERS. The method of calculation in these studies included mathematical, statistical or stochastic methods. A review article by Liu et al. which investigated some of these studies shows that in articles using the stochastic method, the mean R 0 is 2.44 and in the mathematical methods the mean is 4.2 and for studies which used the statistical method is 2.6 [6] . Comparison of these numbers shows that the mathematical method had larger values compared to other methods. Moreover, the estimated R 0 values were larger than that of the WHO (range: 1.4 to 2.5). R 0 is a biological fact which is calculated using complex mathematical models and with a set of assumptions about the population under study. Therefore, the interpretation of these models needs an understanding of the initial model and its inputs. Usually, three parameters i) the duration of contagiousness after a person becomes infected, ii) the likelihood of infection per contact between a susceptible person and an infectious person or vector, iii) the contact rate, are used in the construction

This article is protected by copyright. All rights reserved of the R 0 , each of them may differ in the population under study. Epidemiological factors such as environmental conditions, agent hosts, governments' policies on environmental control, and access to public health resources also can in turn change in mentioned parameters [7] . Another factor which can change the model's parameters is the contact rate, while factors such as population density, social organization and seasonality, may cause variation in contact rate. On the other hand, many model parameters are dependent on the available data, and here the quality of the data is definitely important.

In critical situations such as the contagion of COVID-19, it may be difficult to collect accurate and definitive data. However, some studies have used data-driven methods to estimate R 0 in COVID-19.

Therefore, when estimating a value for R 0 at a given place and time, using different models which differ slightly in initial assumptions could lead to different estimates [8] .

One of the most effective strategies of controlling the spread of contagious infections is quarantine. It prevents infected people from contacting the susceptible population. Another is isolation, in which the sick person is separated from healthy people. These strategies have shown beneficial effects in similar diseases and can also be effective in reducing R 0 of COVID-19. Differences in R 0 estimates can be a controversial issue, but are not reasons for R 0 inefficiency. R 0 index may differ by time, hence, its value should be coordinated by time.

In conclusion, R 0 is a very useful index when making decisions to control infectious diseases including COVID-19, considering its specific population structure. However, in using the initial assumption for any model, precaution is needed.

None

A familial cluster of pneumonia associated with the 2019 novel coronavirus indicating person-to-person transmission: a study of a family cluster

Coronavirus disease 2019 (COVID-19) situation report-34

Epidemiological and clinical characteristics of 99 cases of 2019 novel coronavirus pneumonia in Wuhan, China: a descriptive study

Complexity of the basic reproduction number (R0)

The estimation of the basic reproduction number for infectious diseases

The reproductive number of COVID-19 is higher compared to SARS coronavirus

Superspreading and the effect of individual variation on disease emergence

Correcting the actual reproduction number: a simple method to estimate R0 from early epidemic growth data

Accepted Article

This article is protected by copyright. All rights reserved