A case fatality ratio of an infectious disease measures the proportion of all individuals
diagnosed with a disease who will die from that disease. For an emerging infectious
disease, this ratio is thus a very important indicator not only of disease severity
but also of its significance as a public health problem. For instance, WHO estimated
a case fatality ratio of approximately 14–15% for severe acute respiratory syndrome
(SARS) in 2003,
1
and approximately 35% for Middle East respiratory syndrome (MERS) in 2012.
2
The ongoing pandemic of coronavirus disease 2019 (COVID-19) is caused by a virus,
severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), belonging to a large
family of coronaviruses that also includes SARS coronavirus (SARS-CoV) and MERS coronavirus
(MERS-CoV). COVID-19 was first reported in December, 2019, in Wuhan, in the Hubei
province of China, and spread very rapidly to all other prefectures in Hubei, as well
as all other provinces, autonomous regions, municipalities, and special administrative
regions of China, and more than 180 other countries and territories. As of March 21,
2020, there have been 292 142 confirmed cases of COVID-19 worldwide, with 12 784 deaths
reported.
3
Estimating the case fatality ratio for COVID-19 in real time during its epidemic is
very challenging. Nevertheless, this ratio is a very important piece of data that
will help to guide the response from various government and public health authorities
worldwide. The disease has brought tremendous pressure and disastrous consequences
for the public health and medical systems in Wuhan, as well as in Iran, Italy, and
in other countries. However, current estimates of case fatality ratio for COVID-19
vary depending on the datasets and time periods examined. A study of nearly 1100 patients
from China suggested a case fatality ratio of 1·4%.
4
From a dataset of 44 672 confirmed cases in China, a report from the Chinese Center
for Disease Control and Prevention (CDC)
5
estimated an overall case fatality ratio of 2·3%, and pointed out that the ratio varied
by location and intensity of transmission (eg, 2·9% in Hubei vs 0·4% in other areas
of China), in different phases of the outbreak (eg, 14·4% before Dec 31, 15·6% for
Jan 1–10, 5·7% for Jan 11–20, 1·9% Jan for 21–31, and 0·8% after Feb 1), as well as
by sex (2·8% for males vs 1·7% for females). Moreover, the Chinese CDC reported that
the case fatality ratio increases with age (from 0·2% for people aged 11–19 years,
to 14·8% for people aged ≥80 years), and with the presence of comorbid conditions
(10·5% for cardiovascular disease, 7·3% for diabetes, 6·0% for hypertension, 6·3%
for chronic respiratory disease, and 5·6% for cancer). The WHO–China Joint Mission
on COVID-19 provided similar data and reported a case fatality ratio of 3·8%, based
on the 55 924 laboratory-confirmed cases in China.
6
In The Lancet Infectious Diseases, Robert Verity and colleagues
7
provide an estimate of the case fatality ratio for COVID-19. The authors argue that
crude case fatality ratios obtained by simply dividing the number of deaths by the
number of cases can be misleading because there can be a period of 2–3 weeks between
a person developing symptoms and that case being detected and reported, and because
surveillance of a novel virus is biased towards detecting severe cases, especially
at the beginning of an outbreak when test capacity is low. By using individual-case
data from mainland China (3665 cases) and 1334 cases detected outside of mainland
China, assuming a constant attack rate by age, and adjusting for demography and age-based
and location-based under-ascertainment, Verity and colleagues estimate the mean duration
from symptom onset to death to be 17·8 days (95% credible interval [CrI] 16·9–19·2)
and from onset-of-symptoms to hospital discharge to be 24·7 days (22·9–28·1). The
study findings give an estimate of the overall case fatality ratio in China of 1·38%
(95% CrI 1·23–1·53), which becomes higher as age increases (figure
).
Figure
Comparison of case fatality ratios for SARS,1, 8 COVID-19,
7
and seasonal influenza
9
SARS=severe acute respiratory syndrome. COVID-19=coronavirus disease 2019. CrI=credible
interval. CI=confidence interval.
Estimates of case fatality ratios might vary slightly from country to country because
of differences in prevention, control, and mitigation policies implemented, and because
the case fatality ratio is substantially affected by the preparedness and availability
of health care. Early studies5, 6 have shown that delaying the detection of infected
cases not only increases the probability of spreading the virus to others (most likely
family members, colleagues, and friends) but also makes the infection worse in some
cases, thereby increasing the case fatality ratio.
7
Comparisons of case fatality ratios for SARS, COVID-19, and seasonal influenza in
different age groups are shown in the figure. Even though the fatality rate is low
for younger people, it is very clear that any suggestion of COVID-19 being just like
influenza is false: even for those aged 20–29 years, once infected with SARS-CoV-2,
the mortality rate is 33 times higher than that from seasonal influenza. For people
aged 60 years and older, the chance of survival following SARS-CoV-2 infection is
approximately 95% in the absence of comorbid conditions. However, the chance of survival
will be considerably decreased if the patient has underlying health conditions, and
continues to decrease with age beyond 60 years.5, 6
Although China seems to be out of the woods now, many other countries are facing tremendous
pressure from the COVID-19 pandemic. The strategies of early detection, early diagnosis,
early isolation, and early treatment that were practised in China
6
are likely to be not only useful in controlling the outbreak, but also contribute
to decreasing the case fatality ratio of the disease.
© 2020 Hospital Clinic
2020
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