The study aim was to evaluate the acceptance of different COVID-19 vaccines and its’ associated factors among young Jordanian population.

This is a cross sectional web-based survey that was distributed in January 2021. Since the targeted population in this study was the young adults, internet based survey is a suitable method to recruit this age group as they constitute the highest percentage of Internet users.14 The participants were Jordan residents in the age group between 18 and 30 years. The survey was formulated on Google forms and circulated via all-purpose Facebook groups and pages that include members from Jordan. To ensure that all the participants met the inclusion criteria, the survey included questions about age, country of residence, and if the respondents did not meet the inclusion criteria, based on their answers, the respondent was automatically directed to submit the survey. This study was performed in line with the principles of the Declaration of Helsinki. Approval was granted by Al Zaytoonah University ethics committee. Informed consent was given by all the participants through the online form of the questionnaire.

Simple random sampling method was used in this study. To calculate the required sample size, Kish formula was used at a 95% significance level and a 3-percentage-point margin of error. The estimated sample size was 1014, however, 1897 participants were included in the study.

The survey was developed in Arabic language after literature review. Arabic is the main spoken language for 98% of the Jordanian citizens.15 The survey was originally formulated in English, translated to Arabic, and then back translated to English by different translator and the two English versions were found to be comparable. The content validity of the developed survey was assessed by an expert panel. To confirm face validity, the questionnaire was sent to 30 individuals and changes were implemented based on their comments. The data of these participants was not included in the final study. The reliability of generated questionnaire scores including general knowledge about COVID-19 vaccines, knowledge scores for each vaccine type included in the study and practice toward COVID-19 were evaluated by computing Cronbach's alpha. The acceptable Cronbach's alpha range was determined to be above 0.5,16 as lower Cronbach's alpha are expected in binary data17 and low number of questions.18 The computed Cronbach's alpha were all above 0.5 (0.51–0.80).

The first part of the survey collected the participants’ socio-demographics information including sex, marital status, pregnancy status, and if the participant has children or not, in addition to smoking habits, weight status, health status, education level, average household monthly income (measured in Jordanian dinars (JOD)), and if the participant study or work in a medical field. The second section collected information about the participants’ vaccination history (Influenza and COVID-19 vaccines). If the participant had already been vaccinated against COVID-19, he/she would be automatically directed to submit the survey. The third section gathered information about participants’ experience with COVID-19 and their estimation of disease seriousness in a scale from 1 (not serious) to 10 (extremely serious). The fourth section evaluated the participants’ knowledge, attitudes, and practices toward COVID-19 and their acceptance of COVID-19 vaccine. If the participants answered “No” for the COVID-19 vaccine question, he/she was automatically directed to submit the survey. The fifth section evaluated the participants’ specific knowledge, attitudes, and acceptance of different types of COVID-19 vaccines. Lastly, the sixth section assessed the factors that affect the participants’ acceptance of different vaccine types.

The participants were classified into three groups based on their COVID-19 risk degree which was based on Central of Disease Control and Prevention (CDC) risk factors.19 High-risk group included the participants who suffer from Type 2 diabetes mellitus/Chronic Obstructive Pulmonary Disease (COPD)/Cancer/Kidney Failure/Heart diseases/Organ transplantation/Sickle Cell Anemia and the participants who were smokers, pregnant, or obese. The medium risk group included the participants who did not fit for the high-risk group but were overweight or had one of the following: Type 1 diabetes mellitus/Hypertension/Bone marrow transplant/Cerebrovascular diseases or stroke/Cystic Fibrosis/Asthma/Taking steroids or immunosuppressant drugs/Hepatic diseases/Thalassemia/Lung fibrosis. The low-risk group included all other participants that do not fit the previously mentioned criteria.

Seven scores were calculated, first score is the COVID-19 knowledge score, which was calculated based on the participants’ knowledge of COVID-19 symptoms and the measures that could prevent the infection as one point was granted if the participant chose “Yes” for the correct statements and one point was granted if the participant chose “No” for the incorrect statements (Table 3). Practice score was calculated as the sum of the practice statements which represent the participants’ adherence to protective measures with answers ranged from “Never” (1 point) to “All the time” (5 points) (Table 3). The remaining scores were specific vaccine knowledge scores which evaluated the participants’ knowledge about each vaccine type as one point was added for each correct answer with a maximum possible score of 19 (Online Resource). The information about each vaccine type was gathered from CDC,20,21 United Kingdom government website,22 Sputnik vaccine website,23 and Sinopharm vaccine website.24

All data analysis was conducted using SPSS version 25. Categorical variables were presented as frequencies and percentages (%) and continuous variables were presented as means and standard deviations (SD). Normality of the scores of willingness to be vaccinated and knowledge for each vaccine was assessed using Kolmogorov–Smirnov test, as the test indicated that the scores were not normally distributed, nonparametric test were conducted to analyze the results. Friedman test with pairwise comparisons were conducted to determine if there are significant differences between the participants’ knowledge about each vaccine type and between their willingness to take each vaccine. Quantile regressions at median points were conducted to predict the variables associated with the participants’ willingness to take each vaccine.

Low vaccine acceptance was observed among the current study participants as only 19.9% of the participants were willing to take the vaccine and 28.7% were not sure. Studies which have been conducted before the vaccine became available in October 202012 and December 202026 reported higher percentages of vaccine acceptance (36.8% and 28.4%) respectively in Jordan. This variance could be justified by the fact that the current study only included participants who aged from 18 to 29 years who might consider themselves not at risk of COVID-19 complications. Furthermore, unlike earlier studies which were conducted during the first wave of COVID-19 disease; the current study was conducted during the declining phase of the number of the new cases of COVID-19 which might make the population feel that the disease is over and therefore vaccination is no longer necessary.

The participants’ knowledge about vaccines varied significantly as the median of the Pfizer/BioNTech knowledge score was significantly higher than the scores of other vaccines. This result is reasonable as Pfizer/BioNTech vaccine was the first approved vaccine to be used against COVID-19 virus and the information about this vaccine are widely available.27 On the other hand, the published studies about Sputnik-V vaccine are limited, which may explain the present study results as the participants’ knowledge and willingness to be vaccinated scores for Sputnik-V vaccine was the lowest among the studied vaccines. Similar to the differences in the participants’ knowledge about the vaccines, their willingness to take each vaccine type also varied with the highest willingness was for Pfizer/BioNTech and the lowest was for Sputnik vaccine. Several factors contributed to the participants’ willingness to take the vaccines. One of these factors is sex as females were significantly more reluctant to take all vaccine types except for Sputnik vaccine. The association between the female sex and the vaccine refusal in general was reported in many studies including those conducted in China28 and Europe.29

Estimation of disease seriousness was a significant predictor for the participants’ willingness to take all the studied vaccines which is in accordance to the results of different studies that evaluated the vaccinations intentions in general.28,30 Based on these findings, increasing the populations’ perceptions of the negative health impacts of the COVID-19 disease can significantly improve their vaccination intentions.

The participants’ knowledge about the COVID-19 disease itself and about the vaccine types (except for Sputnik-V vaccine) were also significant predictors of the participants’ willingness to take the different types of vaccines. Therefore, the specific information about each vaccine type should be available to the general population in a simple language to increase their confidence in the different types of COVID-19 vaccines.

Doctors’ recommendation was one of the most important factors that influence the participants’ preferences of different COVID-19 vaccine types. Therefore, doctors should address the populations’ concerns and correct the myths about the vaccines, in order to improve the general population perception and intention for vaccination.

Making the published studies about the different COVID-19 vaccine types accessible and summarizing their results by experts in an easy-to-understand manner can improve the general population knowledge and therefore their intention for vaccination. The importance of this measure can also be emphasized by the results of this study, as the most preferred vaccine was Pfizer/BioNTech vaccine which has the most publicized studies.

Vaccines’ mechanism of action, country of origin, countries that use each vaccine type were important influencers on the participants’ vaccines’ types’ preferences, however, these factors are, in fact, irrelevant to vaccines efficacy or safety. Therefore, its public health authorities’ responsibility to clarify that all approved vaccines are effective and safe, and any available vaccine should be taken.

One of the study limitations that some of the information about the vaccines was taken from the manufacturers’ websites, which may affect the accuracy of the knowledge related questions in the current study survey as manufacturers are unlikely to be impartial. The study was based on an online survey which may result in recall and selection biases. However, web-based studies have been proven to recruit a representative sample and provide a private environment that allows the respondents to complete the survey accurately and honestly.31,32 Another limitation of this study that it only included young adults (aged between 18 and 29), therefore the attitudes of older age groups were not evaluated. Moreover, half of the participants were working/studying in a medical field which may limit the generalizability of the study results. However, the attitudes of the medical staff are particularly important as they are in the frontlines and consistently exposed to the virus making them at high risk of infection. Moreover, as reported in the current study, medical staff recommendations can influence the attitudes of the general population. One last limitation of the current study is the high percentage of females and non-smokers among the participants which do not reflect their percentages in the Jordanian young population. Nevertheless, the study included a large sample size which can decrease the influences of aforementioned limitations.

The datasets generated during and/or analyzed during the current study are available in the Mendeley repository,33https://doi.org/10.17632/vpm6m3fkcp.1.