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Potential factors influencing COVID-19 vaccine acceptance and hesitancy among university students in Bangladesh: a cross-sectional comparative study

Published online by Cambridge University Press:  20 December 2022

Debendra Nath Roy Open the ORCID record for Debendra Nath Roy [Opens in a new window] ,
Md. Shah Azam Open the ORCID record for Md. Shah Azam [Opens in a new window] ,
Mohitosh Biswas Open the ORCID record for Mohitosh Biswas [Opens in a new window]  and
Ekramul Islam Open the ORCID record for Ekramul Islam [Opens in a new window]
Debendra Nath Roy
Affiliation:
Department of Pharmacy, Jashore University of Science and Technology, Jashore-7408, Bangladesh Institute of Education and Research, University of Rajshahi, Rajshahi-6205, Bangladesh
Md. Shah Azam*
Affiliation:
Department of Marketing, University of Rajshahi, Rajshahi-6205, Bangladesh Rabindra University, Shahjadpur, Bangladesh
Mohitosh Biswas
Affiliation:
Department of Pharmacy, University of Rajshahi, Rajshahi-6205, Bangladesh
Ekramul Islam
Affiliation:
Department of Pharmacy, University of Rajshahi, Rajshahi-6205, Bangladesh
*
Author for correspondence: Md. Shah Azam, E-mail: mdshah.azam@yahoo.com.au; azam@ru.ac.bd
Rights & Permissions [Opens in a new window]

Abstract

This study investigated Coronavirus disease 2019 (COVID-19) vaccine acceptance, and compared the potential factors influencing vaccine acceptance and hesitancy between public university (PuU) and private university (PrU) students in Bangladesh. An anonymous, self-administered questionnaire was sent to 640 PuU and 660 PrU students in Google Form between 25th September and 22nd November 2021, which resulted in the participation of 1034 (461 PuU vs. 573 PrU) respondents (response rate: 72.03% vs. 86.81%). The pooled vaccine acceptance rates among PuU and PrU students were almost similar (88.1%, 95% confidence interval (CI) 85.1–91.1 vs. 87.6%, 95% CI 84.6–90.6). Employing binary logistic regression to assess the association between various potential factors and vaccine acceptance, the study revealed that out of 10 predictors, ‘safety’ and ‘efficacy’ had highly significant positive associations with vaccine acceptance in both cohorts (P = 0.000, P = 0.005). ‘Political roles’ was found to have varied effects– a significant (P = 0.02) negative and a significant positive (P = 0.002) association with vaccine acceptance in PuU and PrU students, respectively. Additionally, ‘communication’ (P = 0.003) and ‘trust’ (P = 0.01) were found to have significant positive associations in PrU students while ‘rumours’ (P = 0.03) had negative association in PuU students. The odds of accepting the COVID-19 vaccine were 1.5 vs. 0.9 in PuU and PrU students. Although chi-square analysis did not show any significant association between gender and vaccine acceptance, discrepancies were found in the factors that potentially affect vaccine uptake decision between PuU and PrU students. COVID-19 vaccine uptake may be improved if vaccine-related information becomes available and is communicated to large numbers of people effectively. The implementation of multidisciplinary interventional educational programmes may also be considered as a preferred approach to improve student's engagement in pandemic awareness and vaccine readiness.

Keywords

BangladeshCOVID-19studentsvaccine acceptancevaccine hesitancy
Type
Original Paper
Information
Epidemiology & Infection , Volume 151 , 2023 , e11
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press

Introduction

The Coronavirus disease 2019 (COVID-19) pandemic is not over yet. The death toll associated with COVID-19 is still considered a global health challenge, because all countries are encountering a unique public health crisis due to the rapid spread of infection around the world [Reference Sohrabi1]. Although few repurposed drugs have shown clinical potential to reduce morbidity among COVID-19 infected individuals, no specific antiviral drugs have been approved [Reference Frediansyah2]. The severity and pervasiveness of COVID-19 provoked the emergency use of an effective vaccine to control and gradually stop the pandemic. In the last few decades, vaccines have been among the most significant therapeutic interventions used in preventing the emergence and re-emergence of numerous infectious diseases [Reference Geng3]. Accordingly, the Centers for Disease Control and Prevention (CDC) declared vaccination as one of the top ten public health achievements [4]. Despite the proven benefits of immunisation, there still seems to be some significant doubt in the public regarding their willingness to accept COVID-19 vaccines. Vaccine hesitancy as well as missed opportunities remains recognised public health concerns, arising in relation to influenza vaccination [Reference Schmid5], human papillomavirus (HPV) vaccination [Reference Fu6] and now for COVID-19 vaccination [Reference Troiano and Nardi7]. Reportedly, hesitancy towards or refusal of a vaccine refers to the unwillingness to take it, even when the service is available to deliver it [Reference Lazer8]. The World Health Organization has denoted vaccine hesitancy as one of the top ten threats [9], and now COVID-19 vaccine hesitancy is a growing phenomenon among the various population sub-groups, and is showing substantial regional variability [Reference Roy10].

In Bangladesh, the pilot COVID-19 vaccination programme was inaugurated on 27th January, 2021, during which the government launched the biggest-ever mass vaccination programme aiming to vaccinate 80% of the country's total population [11]. Since vaccination has begun to be used, several studies focusing on COVID-19 vaccination among the adult and general population have reported relatively high vaccine hesitancy rates between 40% and 55% [Reference Hossain12Reference Islam16]. However, some other studies conducted in the same period have documented lower vaccine hesitancy rates, from 20% to 35% [Reference Haque17Reference Patwary24]. The prevalence of vaccine hesitancy is high among older people, the less educated, day labourers and chronically diseased individuals [Reference Patwary24], and vaccine acceptance willingness was high in students [Reference Haque17] and young adults [Reference Lee18]. A cross-sectional study conducted in the middle of 2021 reported a 15.7% COVID-19 vaccine hesitancy rate among the rural population. The study concluded that vaccination safety, effectiveness data, and trust were the facilitators, while rumours were the barrier to implementing mass vaccinations in Bangladesh [Reference Roy, Huda and Azam25]. Focusing on the university education sector in Bangladesh, Hossain et al. (2021) [Reference Hossain26] suggested a 27.3% COVID-19 vaccine hesitancy rate in public university (PuU) students. The author deduced female gender, low family income, non-infected individuals, poor knowledge, and negative perceptions of COVID-19 vaccines were characteristics that increased vaccine resistance [Reference Hossain26]. In another study, Hoque et al. (2021) [Reference Hoque27] recommended being more proactive in directing COVID-19 vaccination data and perceived health benefits towards the university students, because the study reported 27.7% hesitancy and 15.7% refusal intention among university students due to vaccine safety and effectiveness concerns [Reference Hoque27].

Until recently, few studies have concentrated on COVID-19 vaccine acceptability among university students [Reference Hossain26, Reference Hoque27] in Bangladesh, and a comparative analysis on COVID-19 vaccination consequences between public and private university students has yet to be performed. This study thus aimed to investigate COVID-19 vaccine acceptance intention, and to compare the potential factors influencing vaccine acceptance and hesitancy between public and private university students in Bangladesh.

Materials and methods

Study design

This cross-sectional comparative study applied a self-administered anonymous multi-item questionnaire. The questionnaire was deployed online using online survey tool (Google forms) and was conveniently sent to the students of different public and private universities between 25th September, 2021 and 22nd November, 2021, either via social media networks or personal emails. According to the latest census, in total, 51 public universities and 108 private universities were approved by the University Grants Commission of Bangladesh. The permission to conduct this study was obtained from the ‘Ethical Review Committee’ (IRC), Faculty of Biological Science and Technology, Jashore University of Science and Technology in Bangladesh. The detail research protocol was reviewed by the IRC before the study began. Data were collected and analysed anonymously; no clinical intervention was applied to the subjects. The Ethical Review Committee thus approved the study as exempt.

Setting and participants

Government sponsored (public) and non-government sponsored (private) university students in Bangladesh. No financial or in-kind reward was offered to students who completed the survey.

Participants' inclusion criteria

The eligibility criteria for the participants were the following: (i) to understand and agree to the study objectives and provide anonymous data on COVID-19 vaccine and vaccination; (ii) public or private university students in Bangladesh; (iii) studying in a bachelor's degree programme; and (iv) studying in a master's degree programme, and/or studying in a research degree programme. This study did not harm the individuals because no intervention was applied to the subjects. The individual was free to refuse participation.

Measures and survey instrument development

The theoretical concept of global COVID-19 vaccine acceptance and hesitancy was conceptualised by Roy et al. (2022) [Reference Roy10]. The items of the validated questionnaire were adopted from a theoretical analysis of recent studies on COVID-19 vaccination conducted among diverse student groups worldwide. Alongside this, in-field consultation was carried out when designing the key items of the questionnaire. The questionnaire focused on multifaceted aspects of COVID-19 vaccination and its consequence, and was constructed in the English language. Each item in the preliminary questionnaire was content- and face- validated by a panel of several experts from reputed universities in Bangladesh, which ensures the relevance and clarity of the questionnaire. The revised questionnaire was subsequently pre-tested on 20 students, who were, later excluded from the final analysis.

The survey instrument assessed (1) the socio-demographic characteristics of the respondents; (2) the intention to uptake COVID-19 vaccines; and (3) factors influencing COVID-19 vaccine acceptance and hesitancy. A non-parametric data analytical tool (binary logistic regression) was employed to analyse the associations between predictor variables and the outcome variable in a 95% confidence interval (CI).

Survey administration

The convenience sampling technique was used for gathering systematic data from online survey tools. This process created a survey with the goal of collecting maximum insights from the sample of entities for the purpose of developing quantitative variables of the attributes. To avoid potential sources of non-response bias, the online questionnaire was distributed among almost all the students of the universities, and encouraged them to participating in this study.

Study variables

As the response variable of the study, we measured willingness to uptake a vaccine and the responses were measured as a binary variable (1 = Yes, 0 = No). The socio-demographic characteristics of the respondents were also noted. In analysing the data in a binary regression model, we investigated the impacts of several socio-psychological and vaccine-related factors on the outcome response variable dichotomised into 1 = Yes and 0 = No.

Sample size calculation

Binary logistic regression was used, and for observational studies with large sample size, taking minimum sample sizes of 450–500 is necessary to derive the binary logistic regression statistics that represent the parameters. The other recommended rules of thumb are an event per variable of 50, and the formula: n = 100 + 50i, where i indicate to number of independent variables incorporated into the final model [Reference Bujang, Sa'at and Bakar28]. Pilot tests (n = 20) were conducted to assess the clarity of the survey items and to evaluate the average time of survey accomplishment.

Equations for binominal regression

The general form of logistic regression is as follows:

(1)$$\eqalign{y = {\rm Constant\ }( B ) & + b_1{\rm x}_1 + b_2{\rm x}_2 + b_3{\rm x}_ 3 + \cr + b_{\rm m}{\rm x}_{\rm m}} $$

where y is the linear combination function. The computational algorithms are as follows:

(2)$$P = P( z\,{\rm} = 1) \,{\rm} = {\rm Bx/[ 1}\,{\rm} + {\rm exp}( {{\rm Bx}} ) ] $$

here, P is referred as the probability of vaccine uptake intention, x = vector of explanatory variables. Function of y is represented as logit (P), i,e., the log (to base e) of the odds or likelihood ratio that the dependent variable z is 1.

(3)$$y\,{\rm} = {\rm lo}{\rm g}_{\rm e}[ {P{\rm /1}\hbox{-} P} ] \,{\rm} = {\rm logit\ }( P ) $$

Usually equation (2) and (3) are written as logit (P) or the log odd ratio as follows-

(4)$${\rm logit\ }( P ) \,{\rm} = {\rm lo}{\rm g}_{\rm e}[ {P{\rm /1}\hbox{-} P} ] \,{\rm} = {\rm Bx}$$

Individual coefficient (B) reflects the degree of influence of predictor variables to the outcome variable.

Data analysis

Descriptive statistics expressed as weighted frequencies and percentages were applied on the categorical variables and socio-demographic characteristics. Binary logistic regression analysed the association pattern between predictor variables and outcome variables. The model was evaluated via the Nagelkerke R 2 value. The goodness-of-fit was assessed using omnibus tests of model coefficients and Hosmer and Lemeshow tests [Reference Hosmer, Lemeshow and Sturdivant29]. Microsoft excel (version 10) was used for extracting the sample from Google Forms, and we then imported the data into SPSS. The entire analysis was conducted using the IBM SPSS statistical package (version 25). The minimum significance level (P vale) was set to 0.05. The online survey precludes the acceptance of any incomplete survey instrument, which ensures the collection of complete responses. Thus, no missing data were received.

Results

Respondents' characteristics

Table 1 displays the comparison of socio-demographic characteristics among the studied sets in the population. We checked for eligibility criteria and confirmed the eligible participants. A total of 461 PuU and 573 PrU students, who were potentially eligible, participated in and completed the survey. Most of the students were 20–24 years in age (81.6% vs. 91.6%) and were in the final year of their bachelor degree programme in final year bachelor degree programme (38.4% vs. 40%). Science students were the highest group in the PuU (40.6%), while business students were most prevalent in the PuU in PuU (39.8%). In total, 51.6% male participants were recruited from the PuU, whereas 52.2% females were recruited from the PrU. Most of the participants were Muslim by religion (88.3% vs. 87.6%).

Table 1. Comparative socio-demographic characteristics of the participants (N = 461vs.573)

Results of descriptive statistics

Table 2 shows the descriptive statistics of the predictor variables and outcome variable in this study. The pooled COVID-19 vaccine acceptance rate was 88.1% (95% CI 85.1–91.1) in the PuU students and 87.6% (95% CI 84.6–90.6) in the PrU. Since the online survey precludes the acceptance of incomplete survey, the study's variable of interest produced no missing data.

Table 2. Descriptive statistics of the study's variable of interest

Model summery

Table 3 summarises the models of both university groups. The joint impact of all predictor variables on the dependent variable was determined using the Nagelkerke R square test, which explains the model's result.

Table 3. Comparative model summery

The results of the Cox and Snell R Square test indicate that the outcome variable was explained by the predictor variables used in the PuU and PrU samples to 18.9–36.4% vs. 20.7–39.4%, respectively, which are assumed to be good levels.

Goodness of model fit

In Table 4, the significance level (P value) for the omnibus tests of the model coefficients is significant (P < 0.05), while it was insignificant (P > 0.05) for the Hosmer and Lemeshow tests for both study models. These results indicate the very good model fitness of the study samples subjected to binary logistic regression.

Table 4. Omnibus tests of model coefficients and Hosmer and Lemeshow test

Results of binary logistic regression analysis

Table 5 displays the comparative results of the regression analysis. According to the results, out of 10 predictors, ‘safety’ and ‘efficacy’ showed highly significant positive associations with vaccine acceptance in both cohorts (P = 0.000, P = 0.005). ‘Political roles’ was found to have a significant (P = 0.02) negative and a significant positive (P = 0.002) association with vaccine acceptance in public and private students, respectively. Additionally, ‘communication’ (P = 0.003) and ‘trust’ (P = 0.01) were found to have significant positive associations for PrU students, while ‘rumours’ (P = 0.03) had negative association in PuU students Table 5: Binary logistic regression analysis for comparative model

Table 5. Binary logistic comparative models

note: ** = significant at <0.01, * = significant at <0.05, level of significance.

Pearson's χ 2 test results

Table 6 shows the results of the Pearson's chi-squared test and odds ratio for risky group estimations. The odds of accepting the COVID-19 vaccine were 1.5 vs. 0.9 in PuU and PrU students, respectively, and both results were found to be insignificant (P > 0.05) according to the χ 2 test. Hence, statistically speaking, no group was identified as a vaccine-hesitant risk group among the university students in Bangladesh.

Table 6. Results of Pearson's χ 2 test in the comparative model

Discussion

The COVID-19 pandemic has destroyed not just the economy, health system and transport system, but the education system has also been very badly affected. Despite a widespread discussion about the effects of the pandemic on the economy and health systems, the catastrophic impact of the coronavirus on education systems in developing countries has yet to draw the attention of the world's community to a sufficient extent. Most developed nations have succeeded in overcoming the disastrous impacts of COVID-19 through the online development of traditional education systems and rapid vaccination coverage amongst students, because the ratio of vaccine coverage is higher in developed countries.

In this comparative study, we investigated the differences in intention to be vaccinated against COVID-19 between public and private university students in a developing country, and compared the potential factors influencing vaccine acceptance and hesitancy to help develop health policy. According to the study result, COVID-19 vaccine acceptance among the public and private university students was 88.1% and 87.6%, respectively. Survey studies conducted in Bangladesh have reported 72.7% and 72.3% COVID-19 vaccine uptake willingness among university students [Reference Hossain26, Reference Hoque27]. Abedin et al. (2021) performed an empirical study, and reported a 74.6% COVID-19 vaccine acceptance rate among Bangladeshi young adults [Reference Abedin19]. We collected data after the vaccination drive had begun throughout the country, and much of the populations were concerned about vaccination data. Moreover, the prevalence of vaccine hesitancy was high among older people, the less educated, day-labourers and chronically diseased individuals [Reference Patwary24], while vaccine acceptance intention was high in students [Reference Haque17] and young adults [Reference Lee18] in Bangladesh. Globally speaking, an 89.4% positive intention to receive a COVID-19 vaccine was found among medical students in India [Reference Jain30], and 75% of university students agreed to take the COVID-19 vaccine in Kuwait [Reference Alali31].These results are consistent with our findings.

Low vaccine uptake intention and vaccine apprehension are complex heterogeneous events that were found to have increased by 90% since 2014 [Reference Lane32], and vaccine hesitancy was also found in the public in relation to COVID-19 vaccinations [Reference Roy10]. According to the regression model, ‘safety’ and ‘efficacy’ had highly significant and positive associations with vaccine uptake intention in both PuU and PrU students. It is evident that COVID-19 vaccine uptake intention is a dynamic phenomenon; vaccination willingness depends on the pandemic context, perceived community threats, health risks and concerns around the safety and efficacy of vaccines [Reference Sabahelzain, Hartigan-Go and Larson33]. The delay in receiving a COVID-19 vaccine is related to confirmation about the safety and efficacy of COVID-19 vaccines in Bangladesh [Reference Mahmud15, Reference Banik22, Reference Patwary24]. In the global context, 46% of college students showed concern about vaccine safety and efficacy when COVID-19 developed in Qatar [Reference Al-Mulla34]. Adequate information on vaccine safety, side effects and efficacy could ameliorate public confidence, and encourage them to get vaccinated against COVID-19 in Bangladesh [Reference Hossain14, Reference Islam16, Reference Roy, Huda and Azam25].

According to our results, political roles had a significant influence on COVID-19 vaccine acceptance in both student cohorts. Political party membership has been shown to influence COVID-19 vaccine acceptance willingness, which could be considered a potential target for public health interventions [Reference Milligan35].The political motives of students in underdeveloped countries are frequently regulated by the movements of national politics due to the socio-economical and cultural conditions [Reference Alam36].Students have a proud history of political engagement in Bangladesh [Reference Patwary37], and students who are politically minded ought to be encouraged to voice their concerns and decisions regarding regional and national issues.

Alongside publicly funded universities, the privatisation of higher education in Bangladesh has opened up opportunities for the most financially capable students, along with meritorious individuals. The students from private universities referred to similar perceptions regarding the issue of political thoughts in Bangladesh; however, students of privately owned universities are reluctant to involve themselves with student politics that put party interests first. Several issues discourage PrU students from engaging in politics and move them away from political unions [38]. These students are more devoted to academic-and career-oriented behaviour. In contrast, most of the students, teachers, and offce employees of public universities are often engaged in political activities and the pursuit of partisan political goals. Students are encouraged to take part in political movements, and students become the frontline of politics inside the university. As a result, a political role was negatively associated with the vaccination decision in the PuU cohort. Political affiliations with opposition parties were recognised as a predominant factor of COVID-19 vaccine hesitancy in Bangladesh [Reference Ali and Hossain20]. In the global context, individuals who received information on COVID-19 vaccines from political bodies became confused in making vaccination decisions [Reference Palm, Bolsen and Kingsland39]. In our study, ‘communication’ and ‘trust’ showed significant associations with COVID-19 vaccine acceptance among PrU students in Bangladesh. It has been reported that credible and culturally informed health communication influences health behaviour, guides decision making, helps address health concerns, and builds trust in the ability to deal with a pandemic (with the example of H1N1) [Reference Quinn40]. The most critical predictor for converting vaccines to vaccinations and ensuring mass immunisation against COVID-19 in rural Bangladesh is health communication [Reference Roy, Huda and Azam25]. Health communication has been recognised as one of the key predictors of COVID-19 vaccine acceptance among Bangladeshi people [Reference Roy41, Reference Roy42]. Poor trust and confidence in the country's health system lead to COVID-19 vaccine hesitancy among adults in Bangladesh [Reference Abedin19]. Vaccine safety and efficacy are highly influenced by trust – in fact, trust was one of the key determinants of H1N1vaccine optimisation [Reference Quinn40]. Consequently, trust has been identified as one of the potential drivers of COVID-19 vaccine acceptance among 89% of students in Romania [Reference Bălan43], 73.6% of students in Nigeria [Reference Mustapha44], and 32.1% of students in multi-ethnic areas [Reference Riad45]. Furthermore, trust was an overarching issue in the global context of COVID-19 vaccine hesitancy among students hub[Reference Roy46].

Rumour has been identified as a contributor to COVID-19 vaccine decision-making among university students in Bangladesh. Since the country-wide vaccination process has started, a significant portion of people have been confused as to whether they should take the vaccine or not. Different rumours have been propagated about the origins of vaccines, and a smear campaign was established to embarrass the government. Many groups intentionally aired different forms of propaganda about the vaccine's origin. Several political parties discouraged people from taking the vaccine, and disseminated fake messages on vaccines. Kanozia and Arya [Reference Kanozia and Arya47] found that fake news and rumours were important issues in the context of COVID-19 vaccine decisions in India, Pakistan and Bangladesh. Previous research deduced that rumour was a barrier to mass COVID-19 vaccination in Bangladesh [Reference Roy, Huda and Azam25, Reference Roy41]. Doubtful attitudes towards vaccines and anti-vaccination beliefs, such as those connected to conspiracies and religion, have been recognised as critical concerns in the global [Reference Lee18, Reference Riad45] as well as national [Reference Hossain12] context; however, anti-vaccination beliefs have been identified as insignificant predictors in this study. Since university students are well-equipped with access to scientific information, anti-vaccination beliefs could not amplify their vaccination sentiments. An advanced roadmap to conveying accurate, scientific and sustainable information via strategic communications could help build public trust in vaccination [Reference Lazarus48], and restoring public trust could nurture vaccine confidence by reducing anti-vaccination beliefs [Reference Badur49]. Despite the fact that few studies identified side effect as one of the potential determinants of COVID-19 vaccine acceptance [Reference Islam16, Reference Kabir21Reference Parvej23] in Bangladesh, in our study, side effects were insignificantly associated with vaccine acceptance. The aforementioned studies [Reference Islam16, Reference Kabir21Reference Parvej23] were conducted at the beginning of the vaccination programme when country-wide vaccination had not been started. Mild symptoms were observed within 48 h of the first dose; however, no severe adverse effects were found among the vaccinated [Reference Khaleduzzaman and Mishu50]. Elderly vaccinated individuals and those with co-morbidities did not report any severe adverse effects after receiving the vaccine. Meanwhile, the government of Bangladesh enforced a country-wide mass vaccination programme on February 7,2021 based on Covishield, the Oxford–Astra Zeneca Covid-19 vaccine manufactured by the Serum Institute of India. To achieve basic nationwide vaccination coverage, the regulatory authority of the Directorate General of Drug Administration of Bangladesh approved seven vaccine candidates for use in the Bangladeshi population, and the Moderna COVID-19 vaccine was the last candidate included in the platform for emergency use. The government decided to administer COVID-19 vaccines free of cost to ensure mass vaccine coverage. The long-term persistence of COVID-19 has caused the education system to suffer collateral damage, adding to the woes of an already hard-hit sector and its students. Health policy makers have developed a strategy to include people from the higher educational sector in the vaccination programme on a priority basis, in order to enable them to resume regular classroom activities, and thereby encourage them to comply with government decisions [51]. In this comparative study, we collected data from a large sample to ensure the external validity and representativeness of the study's findings. In total, one thousand and thirty four students from public and private universities participated in this study. The variations in the respondents' demography and sample size strengthen our ability to generalise the study's results when addressing the mass population, and help in delivering a health messages that will increase public support for COVID-19 vaccination.

This study has practical implications for policy, practice and future research. The findings largely benefit policy makers, health stakeholders and vaccine promoters, in helping to develop evidence-based vaccine promotional strategies. Identifying potential factors underlying vaccine acceptance and hesitancy would be useful in developing rigorous public health interventions to combat the pandemic. The study findings will help us to overcome vaccination barriers, while facilitating nationwide vaccine rollout, and they will help the government to design immunisation protocols accordingly. In further research, this study could act as scientific evidence for initiating further observational studies of COVID-19 vaccine acceptance by examining the relationship between other confounding variables. Since the pattern of COVID-19 vaccine reluctance can alter over time [Reference Xiao52], this study should be followed by long-term surveillance studies for tracking the temporal changes in factors associated with global COVID-19 acceptance.

This study has some limitations. The foremost limitation is that it used convenience sampling, so the results are prone recall and selection bias. The study thus did not involve the largest sample size, and so representation of university students was not adequate. Additionally, a non-response bias is a possibility, as those who did not respond might have been more vaccine-intentional or -hesitant in the context of COVID-19 than the study's respondents. This non-response could thus undermine the findings on the prevalence of COVID-19 vaccine hesitancy among students, resulting in larger differences between those who are willing to receive vaccine and those are not willing. This study identified and compared the potential factors influencing vaccine acceptance, which may differ between socio-psychological and behavioural contexts. With the frequent changes in the perceived health risks associated with the disease context, as well as the approval and deployment of COVID-19 vaccines themselves, individuals' behavioural perspectives and the pattern of COVID-19 vaccine reluctance could differ among young adults [Reference Xiao52]. Therefore, it was difficult to predict the vaccine acceptance and hesitancy levels. Additionally, there are more factors associated with COVID-19 vaccine acceptance that remain unrecognised in this study.

Conclusions

As a socially influential group, understanding university students' perspectives on COVID-19 vaccine acceptance, and expanding their awareness of vaccine readiness, are essential, because students are more vulnerable due to their active lifestyles and perceptions of invulnerability. This study reflects high COVID-19 vaccine acceptance in Bangladeshi university students. The comparative analysis shows that, several factors were associated with vaccination acceptance decisions, however, discrepancies among the potential factors were observed between public and private university students. The study concludes that safety, efficacy, political roles, communication, trust and rumour are the six factors most significantly associated with vaccine acceptance and hesitancy among university students in Bangladesh. Following a further breakdown, vaccine safety, efficacy and political roles were found to be significant for both groups of university students. Although communication and trust were identified as important positive determinants of COVID-19 vaccine acceptance in PrU students, rumour was found to have a negative effect on PuU students' vaccine acceptance. Public perceptions are likely to be changed as more vaccine-related safety and efficacy data become publicly available, thus conveying information to people through proper communication and trustworthy channels. Individualised publicity and education, combined with multidisciplinary interventions, are the preferred approach to improving students' adherence, attitudes and knowledge about COVID-19 vaccination's consequences. The patterns of COVID-19 vaccine pattern can alter over time; hence, long-term surveillance studies may be adopted to track the temporal changes in factors influencing COVID-19 vaccination. The current study's findings can support the government and health policymakers in implementing mass vaccination among university students in near-real-time.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0950268822001820

Acknowledgements

All authors are greatly acknowledging to Dr Koshor Mazumder, department of Pharmacy, Jashore University of Science and Technology, Jashore, Bangladesh for the helpful comments and suggestions provided for the manuscript.

Authors’ contributions

DNR conceptualised and designed the study and performed data acquisition statistical analysis, data interpretation, the original draft writing. MSA conceptualised and designed the study, principal supervision and final revision. MB and EI assisted with study design and execution, performed data interpretation, manuscript writing revision and assisted in supervision. All authors have approved the final article version submitted.

Financial support

This research did not receive any specific support from funding agencies in the public, commercial or not-for-profit sector.

Conflict of interest

The authors declare that they have no conflict of interest to declare.

Ethical standards

Approved as exempt.

Data availability statement

This manuscript does not contain any associated data; however the raw data that supports the finding of the manuscript are available upon reasonable request to corresponding author or first author.

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Figure 0

Table 1. Comparative socio-demographic characteristics of the participants (N = 461vs.573)

Figure 1

Table 2. Descriptive statistics of the study's variable of interest

Figure 2

Table 3. Comparative model summery

Figure 3

Table 4. Omnibus tests of model coefficients and Hosmer and Lemeshow test

Figure 4

Table 5. Binary logistic comparative models

Figure 5

Table 6. Results of Pearson's χ2 test in the comparative model

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