Understanding the Impact Of Covid-19 on the Indian Community: An Online Survey
Rebecca Sharma*
CMR University, Bangalore, India.
*Corresponding Author
Rebecca Sharma,
CMR University, Bangalore, India.
E-mail: Rebeccasharma537@gmail.com
Received: August 16, 2020; Accepted: October 07, 2020; Published: November 17, 2020
Citation:Rebecca Sharma. Understanding the Impact Of Covid-19 on the Indian Community: An Online Survey. Int J Life Sci Res Dev. 2020;2(1):11-16.
Copyright: Rebecca Sharma©2020. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.
Abstract
Background: The pandemic of Corona Virus (COVID-19) hit India recently; and the associated uncertainty is increasingly testing
psychological resilience of the masses. When the global focus has mostly been on testing, finding a cure and preventing transmission;
people are going through a myriad of psychological problems in adjusting to the current lifestyles and fear of the disease.
Since there is a severe dearth of researches on this issue, we decided to conduct an online survey to evaluate its psychological
impact.
Methods: From 26th to 29th March an online survey (FEEL-COVID) was conducted using principles of snowballing, and by
invitation through text messages to participate. The survey collected data on socio-demographic and clinical variables related to
COVID-19 (based on the current knowledge); along with measuring psychological impact with the help of Impact of Event–revised
(IES-R) scale.
Results: There were a total of 1106 responses from around 64 cities in the country. Out of these 453 responses had at least one
item missing; and were excluded from the analysis. The mean age of the respondents was around 41 years with a male female
ratio of 3:1 and around 22% respondents were health care professionals. Overall approximately one third of respondents had
significant psychological impact (IES-R score > 24). Higher psychological impact was predicted with younger age, female gender
and comorbid physical illness. Presence of physical symptoms and contact history predicted higher psychological impact, but did
not reach statistical significance.
Conclusion: During the initial stages of COVID-19 in India, almost one-third respondents had a significant psychological impact.
This indicates a need for more systematic and longitudinal assessment of psychological needs of the population, which can help
the government in formulating holistic interventions for affected individuals.
2.Methodology
3.Results
4.Discussion
5.Conclusion
6.Acknowledgments
7.References
Introduction
Corona is a single stranded RNA virus that had its roots into the
world from almost 60 years since its discovery in late 1960s. Corona
viruses belong to the Corona viridae family in the Nidovirales
order. The nomenclature of the Corona virus is named after
the crown-like spikes on the outer surface of the virus structure
[1]. The virus has been infecting animals like chickens and pigs
but there was no major human contraction to humans [2]. Earlier,
the allied viruses of the same family like the Severe acute
respiratory syndrome coronavirus SARS-CoV in 2003, Human
corona virus HCoV NL63 in 2004 [3], HKU1 in 2005 [4], Middle
east respiratory (MERS) in 2012, have shown their outbreaks and
now the novel version of this virus has presented a threat of unmatched
severity. According to the classification of International
Taxonomy of Viruses (ICTV) has referred this novel pathogen as
SARS-CoV-2 (formerly known as 2019-nCoV) in 2019 [5, 6]. The
first case was identified in the city of Wuhan, a Chinese seafood
market and since then it has been exponentially increasing with an
evident human to human contact via respiratory droplets while
sneezing and coughing [7]. The mode and transmission and other
related details about the virus continue to be updated in every
few weeks, leading to enhanced uncertainty [8]. During this period
most of the research has been focused on understanding and
preventing transmission; exploring treatment options and issues
with global governance. However we think that the psychological
impact of this pandemic like stress and anxiety among the general
population is also a grave concern [9]. A study from China suggesting
that more than half of the participants had a significant
psychological impact of the COVID-19 pandemic. Another recent
study from Denmark reported psychological well-being as
negatively affected. In the United States nearly half were found to be anxious as per the survey conducted by the American Psychiatric
Association [10-13]. The same has not been studied in Indian
population systematically; except anecdotal discussions and case
reports [14].
In Indian subcontinent, as of 30 March 2020, according to the
Ministry of Health & Family Welfare (MoHFW), a total of 1071
COVID-19 positive cases (including 49 foreign nationals) were
reported in 27 states/union territories. These include 99 cases
that were cured / discharged, one person who has migrated and
29 deaths [2]. Hospital isolation of all confirmed cases, tracing
and home quarantine of the contacts is on-going. In India, spread
of the initial disease could be traced mainly to the foreign nationals
who visited the country as tourists from the disease affected
countries and secondly due to the mass immigration of Indian
nationals from abroad; due to the fear of infection. As the pandemic
outbreak in India was on-going, the Government of India
took stringent measures to limit the cases by far in that stage only,
by initiating a major lockdown pan-India and also by shifting the
immigrants to the special quarantine facilities prepared by the Indian
Military directly from the airports and seaports for a minimum
of 14 days. Community health teams were also launched to
spread awareness about the chances of spread and precautionary
measures that one can use to protect themselves and others [15].
During the early stages of the pandemic in India, this study was
focused mainly to assess its psychological impact. The lives of
people were drastically affected with lock-down and fear related
to the disease’s potential effects and transmission [15]. The fear
due to the contraction of COVID -19 is on the rise because of
the death tolls and global spread [16, 17].
Methodology
The study has been approved by the Institutional Ethics Committee
at Institute of Liver and Biliary Sciences, New Delhi (letter
no: IEC/2020/73/MA04). A cross sectional survey design was
decided to assess the initial psychological impact of COVID-19,
(fears worries and impairment in sleep). We collected data using
an online (anonymous) survey platform (Survey Monkey) as per
Indian Government’s recommendations to minimise face-to-face
or physical interaction as citizens continue to isolate themselves at
home. Potential respondents were invited through a text message,
which lead them to a survey monkey page (designed by IT team at
ILBS, New Delhi). All people who have registered at ILBS (2009
to present) since the inception were sent the SMS for participation
in the FEEL-COVID survey.
Additionally, using the principles of snowballing, the link was circulated
by the investigators through social media for capturing
data from English speaking general population (who have some
access to Internet). An effort was made to capture healthcare
workers who have handled patients/potential patients. Additionally,
family member of patients suffering from Liver disease, being
screened in Institute of Liver and Biliary Sciences, were requested
to take the survey while waiting for their consultation. During
offline requests all standard social distancing protocols were
maintained as directed by Indian government. We collected data
anonymously, without collecting information that could identify
the respondents. The period of data collection was between 26th
and 29th March 2020.
Study Questionnaire
Once the user clicked on the link they were given information
about the nature and purpose of survey on the first page. Subsequently,
if they consented to participate, they were taken to
the next page (first section) of the survey. The first part of the
study questionnaire collected socio-demographic information
(age, gender, occupational status, city of residence, type of family)
and information regarding physical symptoms like presence
of cough, cold, head ache breathing difficulty, fever and fatigue
related to Coronavirus disease. Contact history variables included
close contact with an individual with confirmed COVID-19, indirect
contact with an individual with confirmed COVID-19, and
contact with an individual with suspected COVID-19 or infected
material; and any foreign travel in the last 14 days. Participants
were also asked about being a healthcare worker and if they had a
known pre-existing medical or psychiatric illness.
The second part of the survey was adopted from Impact of
Event scale–revised (IES-R). This tool comprised of 22-items
questionnaire which measure the effect of routine life stress,
everyday traumas and acute stress. For all questions, scores could
range from 0 through 4. Categorization of the score ranges from
24 to 32, 33 to 36 and more than 37 which signify mild, moderate
and severe psychological impact respectively [18, 19]. Among
this scale, the Intrusion subscale is mean item response of items
1, 2, 3, 6, 9, 14, 16, 20. The Avoidance subscale is the mean item
response of items 5, 7, 8, 11, 12, 13, 17, 22. The Hyperarousal
subscale is the mean item response of items 4, 10, 15, 18, 19, 21.
Separately, the data on actual number of confirmed cases of
COVID-19 and deaths in the Country was accessed through Government
of India website for general public which was available
in the website URL address “https://www.mygov.in/covid-19”.
For the purpose of this study we accessed the above website till
31st March 2020.
Statistical Analysis
Descriptive statistics were conducted for the socio-demographic
variable and clinical parameters (like physical symptoms and contact
history). Normality of data was assessed using Shapiro-Wilk
test. The scores of the IES-R and subscales were expressed as
mean and standard deviation. We used linear regression to calculate
the univariate associations between socio-demographic characteristics,
physical symptom contact history variables, additional
health information variables and IES-R score. All tests were twotailed,
with a significance level of p < 0.05. Statistical analysis was
performed using SPSS Statistic 22.0 (IBM SPSS Statistics, New
York, United States).
COVID-19 pandemic from 1st February 2020 to 30th March
2020
During the very early period, Fig 1 depicts the progression of
number of cases of COVID-19 from 1st February 2020 to 30th
March 2020 in India. The figure also has a timeline of events (first
case, first recovered case, first death and curfew announced) to get a perspective of results during the initial period of COVID-19
in India. The first case of COVID-19 was reported on 1st February
2020 in India. Thereafter there was a significant increase in
the number of the confirmed, recovered and deceased individuals
due to coronavirus outbreak up to 30th march 2020. (“https://
www.mygov.in/covid-19). At the time of conducting the survey,
the number of cases was building up.
Characteristics of survey respondents
A total of 1106 responses were obtained in the study duration
through the survey monkey platform. Out of these 453 had at
least one item missing in the psychological impact related responses
and were excluded from analysis. The final analysis was done
on rest of the 653 respondents. The mean age of the respondents
were 41.82 years (SD = 13.85; range = 18–82) with a male preponderance
[491(75.2%)]; among which 145 participants (22.2%)
were health professionals. Most of the respondents 400(61.3%)
belong to nuclear families and 257(39.3%) respondents had reported
a history of physical illness; including 125 (19.1%) with a
history of known Liver disease.
Psychological impact and subscales
The psychological impact of COVID-19 outbreak, as measured
by IES-R scale, revealed a mean score of Mean of 19.79 ((SD) =
13.89) and Median of 18.00. As it can be seen from the Table 1, most of the respondents 436 (66.8%) had minimal psychological
impact 436 (66.8%) in reaction to COVID-19 outbreak. Around
98 (15.0%) had mild psychological impact (IES-R score of 24–32)
and 36 (5.5%) had moderate psychological impact (IES-R score
of 33–36) However, 83 (12.7%) reported severe psychological impact
(IES-R score of >36). (Table 1)
Table 1. Frequency and percentage distribution of psychological impact in response to COVID-19 outbreak.
Correlation of psychological impact with clinical variables
Association of demographic variables and impact on psychological
health (Table 2): Linear regression showed that
there was a statistically significant association found between male
counter parts and minimal psychological impact which ranges
from 0 to 23 on IES-R Scale; and between age and psychological
impact with higher age associated with lesser psychological
impact. Moreover, there was a significant association between
history of any physical illness and psychological impact. However,
there were no statistically significant association between any
other demographic or clinical variables.
Table 2. Association of demographic and clinical variables with psychological impact in response to COVID-19 outbreak (Univariate Linear regression).
Physical symptoms and its association with impact on psychological health (Table 2)
As far as physical symptoms were concerned 62 (9.6%) respondents
had reported the presence of cough. 34(5.2%) respondents
reported presence of cold. However, diarrhoea was the least
reported physical symptoms which accounts for merely in two (0.3%) respondents whereas headache was among 87 (12.3%)
which was more frequently reported compared to other physical
symptoms. Interestingly, sore throat and myalgia were present
in 51(7.7%) and 48(7.4%) respectively. Only a few respondents
had the symptoms of fever 17(2.6%) and breathing difficulty 11
(1.6%).
Univariate Linear regression revealed that there was a statistically
significant association with presence of diarrhoea and the impact
on their psychological health (p = 0.006). There was no statistically
significant association between the physical symptoms such
as cough, cold, headache, sore throat, myalgia, fever and breathing
difficulty.
Contact history and its association with impact on psychological health
Only nine (1.4%) respondents had travelled during past fortnight,
20 (3.1%) had visited COVID-19 infected areas. 6(0.9%) had
direct contact with the COVID-positive persons. There was no
statistically significant association between contact history of the
respondents and their impact on psychological health.
Discussion
The current study investigated the initial psychological impact
of COVID-19 outbreak in Indian population. As the disease
progressed, concerns regarding health, economy, and livelihood
increased day-to-day. The findings of the pandemic’s impact on
mental health could help inform health officials and the public
to provide mental health interventions to those who are in need.
This can guide researchers to plan prospective longitudinal studies
for assessing treatment need [20]. There are mental health concerns
like anxiety, worries and insomnia especially after the declaration
of lockdown in India on 24th March, 2020. Government
of India has launched helpline numbers to provide guidance and
counselling, in collaboration with different Institutes of national
importance [21]. World Health Organization has urged to take the
necessary precautions to tackle the negative impact of the spread
of Coronavirus on psychological health and well-being [22].
Overall, among the 653 respondents 33.2% had significant (mild
/moderate/severe) psychological impact regarding COVID-19.
This finding was different from the study conducted in china by
Wang et al which reported 53.8% of respondents suffered a psychological
impact from the outbreak, ranging from moderate to
severe among 1210 respondents [10]. Since these findings were
during the early phase of COVID-19 outbreak in the country,
chances are they could have changed over time and hence, should
be interpreted accordingly. In the past, during outbreaks such as
‘Ebola Virus’, individual and community at national and international
had a major and wide spectrum of psychosocial impacts
due to the sudden outbreak of the disease. It is likely that people
are relating contracting the virus with a fear of falling sick, helplessness,
hopelessness, stigma and even death [23].
Providing psychological first-aid & counselling are quintessential
during an epidemic. It helps in reducing the psychological distress
and promoting adaptive coping strategies to deal with the situation
[24]. Despite the efforts of WHO and other public health
authorities to contain the COVID-19 outbreak, this time of crisis
is generating stress throughout the country [25], much alike
its impact on the global counterparts [26]. Constant support for
mental and psychosocial well-being in different groups during the
outbreak should be of highest priority [9, 16].
Demographic variables showcase that males had lesser psychological
impact of COVID-19 outbreak as compared to their female
counterpart. The impact on females was found to be statistically
significant. These findings were similar in the Chinese community
where females suffered a greater psychological impact of due to
the coronavirus outbreak [10, 27]. This also corresponds to previously
available extensive epidemiological literature which shows
that women are at a higher risk [28]. In our survey, physical comorbidities
were a predictor for higher psychological impact in response to the outbreak, similar to the finds in existing research.
[29]. An unexpected finding was the non-statistically significance
of impact of being a health care worker on psychological impact.
This is contrary to existing literature [30] about them being more
prone to unfavourable mental health outcomes. This could have
been due to low sample size of healthcare professionals representation
in the study; thus limiting generalizability of the findings.
However, there are some more limitations to be considered
while analysing the study results. First is the inherent design of
the study like sampling technique being only restricted to people
with internet access and having understanding of English; could
also limit generalizability of the study. Second are the concerns
of social desirability while responding to questions on mental
health issues. Thirdly the study was conducted during a period of
lockdown, which can have its own psychological impact and this
confounder could not be addressed through the questionnaire
used in the study. These issues could have caused under or over
reporting in the rate of psychological impact found in the study.
Since approximately 20% of the study participants had history
of some liver disease, there could be a sampling bias in the study.
Moreover, the questionnaire used has not been validated in Indian
population earlier. But we felt the timely need of conducting this
survey in order to enhance the understanding of psychological
concerns and hence a separate validation was not attempted before
the study.
Despite the limitations, this study provides the first cross-sectional
data on actual level of psychological impact among Indian
community; and how mental health of people is affected during
a pandemic of this nature. Online surveys (or self-administered
questionnaires) have been found as an effective way of assessing
problems related to mental health [31, 32] and this becomes a prudent
method of conducting research in the period of lockdown.
Since these findings pertain to the initial period of pandemic in
India, a larger longitudinal study should be conducted in the current
time to guide policy makers in understanding the psychological
impact.
Conclusion
COVID-19 pandemic has caused a lot of uncertainty in the lives
of Indian public, just like their global counterparts. Our survey
is one of the first mental health related data from India, during
the initial phase of COVID-19 pandemic and indicated that a
significant proportion of them have had a psychological impact
during the crisis. The factors that predicted higher impact were
younger age, being female and having a known physical comorbidity.
There is a need for considering mental health issues by the
policy makers; while planning interventions to fight the pandemic.
Acknowledgments
I am grateful to the IT team of ILBS- Ms Jyoti Agarwal, Lt. Col.
Rajnish Kishore (General Manager, IT); Mr Sandip Kumar for all
the support during launch of the survey and compiling results.
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