A global scale COVID-19 variants time-series analysis across 48 countries

Rachel Yui Ki Chu; Kam Chiu Szeto; Irene Oi Ling Wong; Pui Hong Chung

doi:10.3389/fpubh.2023.1085020

A global scale COVID-19 variants time-series analysis across 48 countries

Front Public Health. 2023 Apr 27:11:1085020. doi: 10.3389/fpubh.2023.1085020. eCollection 2023.

Authors

Rachel Yui Ki Chu^#¹, Kam Chiu Szeto^#², Irene Oi Ling Wong¹, Pui Hong Chung¹

Affiliations

¹ School of Public Health, LKS Faculty of Medicine, The University of Hong Kong, Hong Kong, Hong Kong SAR, China.
² Department of Finance, Business School, The Chinese University of Hong Kong, Hong Kong, Hong Kong SAR, China.

^# Contributed equally.

Abstract

Background: The coronavirus disease (COVID-19) pandemic is slowing down, and countries are discussing whether preventive measures have remained effective or not. This study aimed to investigate a particular property of the trend of COVID-19 that existed and if its variants of concern were cointegrated, determining its possible transformation into an endemic.

Methods: Biweekly expected new cases by variants of COVID-19 for 48 countries from 02 May 2020 to 29 August 2022 were acquired from the GISAID database. While the case series was tested for homoscedasticity with the Breusch-Pagan test, seasonal decomposition was used to obtain a trend component of the biweekly global new case series. The percentage change of trend was then tested for zero-mean symmetry with the one-sample Wilcoxon signed rank test and zero-mean stationarity with the augmented Dickey-Fuller test to confirm a random COVID trend globally. Vector error correction models with the same seasonal adjustment were regressed to obtain a variant-cointegrated series for each country. They were tested by the augmented Dickey-Fuller test for stationarity to confirm a constant long-term stochastic intervariant interaction within the country.

Results: The trend series of seasonality-adjusted global COVID-19 new cases was found to be heteroscedastic (p = 0.002), while its rate of change was indeterministic (p = 0.052) and stationary (p = 0.024). Seasonal cointegration relationships between expected new case series by variants were found in 37 out of 48 countries (p < 0.05), reflecting a constant long-term stochastic trend in new case numbers contributed from different variants of concern within most countries.

Conclusion: Our results indicated that the new case long-term trends were random on a global scale and stable within most countries; therefore, the virus was unlikely to be eliminated but containable. Policymakers are currently in the process of adapting to the transformation of the pandemic into an endemic.

Keywords: COVID-19; global; mutation; strategy; time-series; variant of concern (VOC).

MeSH terms

COVID-19* / epidemiology
Humans
Pandemics
Research Design
SARS-CoV-2*

Supplementary concepts

SARS-CoV-2 variants