Comparative analysis of COVID‐19 case fatality rate between two waves in Nepal

Abstract The first COVID‐19 case in Nepal was reported on January 23, 2020. Then infection, then, started to spread gradually, and October marked the most devastating increase in COVID‐19 cases of the year 2020. Compared with the October 2020 peak in Nepal, the May 2021 peak of COVID‐19 observed 2‐ and 10‐fold rise in new cases and deaths per day, respectively. Given that this surprising increase in the death rate was not observed in other countries, this study analyzed the COVID‐19 case fatality rates between the two peaks in Nepal. We found an increase in death rates among younger adults and people without comorbidities.


| INTRODUCTION
Nepal reported its first COVID-19 case on January 23, 2020, within 2 months of the global index case identified in China. Two additional months were required for the second case to be diagnosed. 1 Immediately after the second case, Nepal started to take stern measures to tackle COVID-19. One of the most crucial management strategies Nepal took was imposing the national level lockdowns, which were relaxed and strengthened as the number of new cases reduced or started to rise again, respectively, evident from three incidences of an increase in COVID-19 infection during the span of a year ( Figure 1A).
Early epidemiological analysis of deaths attributed to  showed that, as opposed to many countries, Nepal had a relatively lower case fatality rate (CFR) of 0.34%. In addition, females were more likely to die from the disease than their male counterparts. 2 An understanding of the disease situation at the national level, followed by identifying high-risk populations for SARS-CoV-2 infection and fatality, holds significant implications for developing and executing progressive public health surveillance and mitigation actions in Nepal.
This research aimed to analyze COVID-19 infection progression during the two most recent infection peaks observed in Nepal.

| MATERIALS AND METHODS
We used the epidemiological data published by the Ministry of Health and Population (MoHP), Nepal, 3

and the World Health
Organization 4 to calculate confirmed cases and fatality rates and compare the public health impact of COVID-19. To calculate the differences of CFR between two different peaks from additional countries that displayed peak patterns similar to that of Nepal, we downloaded the data from a public repository maintained at ourworldindata. 5 The numerator used to calculate CFR was the total number of fatalities with 14-day lag time. 6 To perform the comparative analysis of the spike protein, we used the genome sequences of the Nepalese SARS-CoV-2 strains and the Wuhan-1 strain available in National Center for Biotechnology Information (NCBI).

| RESULTS
The analysis of COVID-19 infection and death showed that Nepal had three independent peaks of infection. The most recent peak occurred during April to June 2021, overwhelmed health care institutions and was the most devastating spell, with average infections and deaths accounting for 9000 and 200 per day, respectively ( Figure 1A). This report analyzed the cases and deaths from the 6-week time frames of Peaks 2 and 3. When we compared the number of cases and deaths between the most recent and preceding peaks, we found that the number of deaths increased by 10-fold. In contrast, number of cases increased by about less than 3-fold, indicating a significant increase in the CFR. Next, we aimed to identify the most vulnerable population during the most recent peak. Therefore, we analyzed all the deaths in terms of age, sex, and comorbidities. A total of 123,502 cases, 699 deaths, and 275,402 cases, 5103 deaths, were reported during the second and third peaks, respectively. Although the number of fatalities with known comorbidities relatively decreased, suggesting a significant rise in fatality among the healthy population, the detailed analysis of comorbid conditions and their link to death was impossible due to the lack of data ( Figure 1B). While there was not a big difference between sex-specific and age-specific morbidities within the peaks, in Peak 3, the male had relatively higher mortality. Besides, the CFR had also increased across most age strata, and we found a remarkable rise in CFR among the younger age groups of 35-64 years. This indicated that the younger population is still vulnerable to disease in Nepal.
Genetic variants of SARS-CoV-2, through mutation, have To examine the link between the SARS-CoV-2 variants prevalent in Nepal and the death rates, we first identified and analyzed the reports from the countries that displayed a similar two-phase peak of COVID-19 infection. We found that an increase in positivity ratio was a factor responsible for the rise in number of cases between the peaks and the situation in Nepal was not an uncommon one ( Figure 2B). Next, we analyzed the CFR between the two peaks of these nations and found that Nepal had the highest (227%) increase in the CFR between the peaks. With the most predominant delta variant, India reported an increase of more than 200% cases, but only about 10% increase in CFR during the most recent peak. This indicated that the delta variant alone may not be responsible for the increase in deaths in Nepal. Next, we aimed to examine if the overwhelmed increase in infection cases was a factor and found that both the increase in positivity and the number of cases did not explain the rise in CFR in Nepal ( Figure 2C,D). These results indicated that some unknown factors might have played a role in the increase.

| DISCUSSION
In summary, we performed a comparative analysis of the COVID-19 infections and deaths during the two most recent peaks in Nepal. We also compared the data from Nepal with the countries that recently displayed two similar peaks. Although Nepal had increased the number of daily tests, the increase in percentage positivity among tested individuals was the major factor in the increase in cases. This could be attributed to the relatively slower growth in the number of tests performed than the rise in the number of cases. When available, the COVID-19 tests were limited to targeted testing of symptomatic patients and risk populations. We found that the delta variant was  figures (B-D), and the detailed dataset is available as the supporting information dataset widespread during the most recent peak in Nepal. Although this variant has an increased transmission capacity, higher hospitalization, secondary attack rates, and increased infection rates in younger groups, its CFR was reported to be relatively lower 9,10 ; in Nepal, the CFR increased nearly three-fold. Although this might be attributed to the poor health care system in Nepal, further studies are required to identify the reason more specifically. As Nepal's death rate remained lower during the early phase of infection, 2 the recent rapid increase in fatality rate is of serious concern. Besides, there is a possibility of Aashis Khanal: Software.

PEER REVIEW
The peer review history for this article is available at https://publons. com/publon/10.1111/irv.12922.

DATA AVAILABILITY STATEMENT
The data that support the findings of this study (Figure 1