key: cord-0771669-kckkmyw4 authors: Baccolini, Valentina; Renzi, Erika; Isonne, Claudia; Migliara, Giuseppe; Massimi, Azzurra; De Vito, Corrado; Marzuillo, Carolina; Villari, Paolo title: COVID-19 Vaccine Hesitancy among Italian University Students: A Cross-Sectional Survey during the First Months of the Vaccination Campaign date: 2021-11-07 journal: Vaccines (Basel) DOI: 10.3390/vaccines9111292 sha: 539b0cfc3a95f179f62ce992b51d861605310cb1 doc_id: 771669 cord_uid: kckkmyw4 Achieving high levels of vaccination coverage against COVID-19 may be hindered by vaccine hesitancy. We quantified over time the prevalence of COVID-19 vaccine hesitancy among university students, investigated its determinants, and analyzed student attitudes, risk perceptions and compliance with preventive measures. The survey was administered online from 1 March to 30 June 2021. A multivariable logistic regression model was built to identify predictors of hesitancy. Overall, we collected 5369 questionnaires that were grouped into three survey periods (March, April–May, and May–June). The response rate ranged from 81.2% to 76.4%, whereas vaccine hesitancy ranged from 22% to 29%. Multivariable analysis showed that April–May participants had higher odds of hesitancy than March respondents. Other positive predictors were being male, not being a healthcare student, having a lower academic level, and not disclosing a political position. Conversely, higher levels of perceived COVID-19 severity, concern for the emergency, confidence in vaccine safety and effectiveness, and self-reported adherence to mask wearing indoors and outdoors were negatively associated with hesitancy. We found that vaccine hesitancy changed over time and in relation to several factors. Strategies aimed at increasing the students’ awareness and engagement, restoring confidence in health authorities, and limiting disinformation around the vaccines should be devised. The coronavirus disease 2019 (COVID- 19) pandemic has ushered in a new era of immunization, reminding the world of the power of vaccines to safeguard public health [1] . Nevertheless, despite efforts to promote the vaccination campaigns, reaching a high level of vaccination coverage in individual countries, and particularly worldwide, is still far away [2] . Among the hindering factors, vaccine hesitancy may play a role [3] . It is defined as a "delay in acceptance or refusal of vaccines despite availability of vaccine services" [4] , and it is a phenomenon of such concern that, already in the pre-pandemic era, it was listed by the World Health Organization (WHO) as one of the major threats to global health [5] . In recent years, the reasons for such behavior have been studied in relation to measles or influenza vaccination, both in the general population [6, 7] and in specific subgroups [8] [9] [10] , showing that they are multifaceted and culture-specific, but they can be broadly grouped into contextual, individual, group, and vaccine-specific factors [4] . While evidence on hesitancy towards SARS-CoV-2 vaccines is still evolving, the promotion of vaccination uptake faces unprecedented challenges due to the rapid development of the vaccines, the relatively new techniques used for their development, the occurrence of This cross-sectional study was conducted during the free SARS-CoV-2 screening campaign offered to regularly enrolled students by Sapienza University of Rome. Specifically, students who attended in-person educational activities at the main campus from 1 March to 30 June 2021 were offered to undergo an RT-PCR molecular test. This student swab service ran on Monday-Friday from 8 am to 4 pm for the first two weeks. It was then paused when the University was closed because of COVID-19 restrictions and Easter holidays, restarting again on 12 April 2021, and running Monday-Thursday with the same opening hours until the end of June. While students were waiting for their turn at the screening site, they were invited to voluntarily take part in an online survey accessible via smartphone through a QR code. Whereas it was possible to take more than one swab throughout the screening campaign, the questionnaire was available only once. The study was performed in accordance with the World Medical Association Declaration of Helsinki. Participants were asked for their consent and were guaranteed anonymity in the information collected. The institutional ethics board of the Umberto I teaching hospital/Sapienza University of Rome approved this study (protocol 226/2021). The questionnaire was derived from a literature review [15, 16, 19, 23] . It consisted of 20 questions grouped into four sections and took approximately five minutes to fill out. The first section aimed to collect sociodemographic information: age, gender, nationality, faculty, year of study, finances (i.e., with the financial resources at your disposal, how well do you get to the end of the month?), and politics (i.e., when it comes to politics, where would you place yourself on a scale from 1 [strong left-wing] to 9 [strong right-wing]?). The second section explored COVID-19 experience and perceptions. Specifically, one question investigated the occurrence and symptoms of a past infection, whereas the others asked students to rate from 0 (not at all) to 10 (extreme) their personal risk of COVID-19 infection (perceived susceptibility), the severity of COVID-19 disease (perceived severity), or their concern about the COVID-19 emergency. The third section focused on COVID-19 vaccination. We asked whether they had received at least a single dose of a COVID vaccine (i.e., are you already vaccinated against COVID-19 with at least one dose?), and, since our target cohort was unvaccinated students, the questionnaire ended at this point for participants who answered yes. For students who answered no, we investigated their vaccination intention (i.e., on a scale from 0 [not at all] to 10 [definitely], how likely is that you'll get a COVID-19 vaccine?), the main reasons for being hesitant, and the confidence in vaccine safety and effectiveness (from 0 [not at all confident] to 10 [extremely confident]). Given the scientific and political debate around COVID-19 vaccine types that arose during March 2021, beginning on 12 April 2021 (i.e., as soon as the screening campaign re-started, after the Easter holidays), two optional questions were added to the last section of this questionnaire: (i) on a scale from 0 (not at all) to 10 (definitely), how much would you like to choose which COVID-19 vaccine to take? and (ii) being able to choose, what is the main feature that you would consider in the choice of the vaccine? The last section investigated self-reported adherence to five recommended COVID-19 precautionary measures. We asked participants to rate from 0 (never) to 10 (always) how frequently they were usually wearing (i) a community or surgical mask indoors when recommended; (ii) a FFP2 mask indoors when recommended; (iii) any face mask outdoors when recommended; we also asked how frequently they (iv) were performing hand hygiene when recommended; and (v) were respecting physical distancing during outdoor activities. Descriptive statistics were obtained using median and interquartile range, or mean and standard deviation, for continuous variables and proportions for dichotomous and categorical variables. For the purposes of this analysis, students were considered as Italian vs. non-Italian. Faculties were grouped into three categories: healthcare (e.g., medicine, nursing), science (e.g., mathematics, biology), or other (e.g., law, economics). Participants were classified into two groups according to their year of study: first-and second-year students (i.e., who started their university career during the pandemic) vs. third-year students or above. Politics was categorized into four classes: strongly left-wing (i.e., answering 1 or 2), moderate (i.e., answering from 3 to 7), strongly right-wing (i.e., answering 8 or 9), and prefer not to answer. The two questions regarding community/surgical masks and FFP2 masks were collapsed into one variable, adherence to mask wearing indoors. The highest value of self-reported adherence between the two options was considered. Questionnaires were divided into three periods according to the date of survey completion: (i) from 1 March to 12 March 2021 (i.e., before university closure); (ii) from 12 April to 9 May 2021 (i.e., during the first month of the screening campaign after university reopening); and (iii) from 10 May to 30 June 2021 (i.e., to the end of the SARS-CoV-2 screening campaign). We chose 9 May as the second cut-off because it divided the remaining students into two groups of similar size. Vaccine hesitancy was measured as the complement to 10 of students' intention to get vaccinated. Given the high prevalence of students that expressed no hesitancy (i.e., that answered 10/10 to the question "on a scale from 0 [not at all] to 10 [definitely], how likely is that you'll get a COVID-19 vaccine?"), the outcome was collapsed into two levels: having no hesitancy vs. having some degree of hesitancy. For the univariable analysis, the Kruskal-Wallis test was used to compare continuous variables across survey periods, whereas Pearson's chi-squared test was used for dichotomous and categorical variables. A multivariable logistic regression model was built to identify predictors of vaccine hesitancy. Variables were included in the model based on expert opinion [24] . Multicollinearity was checked using as threshold a variance inflation factor of 5. The Hosmer and Lemeshow test was used to evaluate the goodness of fit of the model. As a result, the final model consisted of the following variables: survey period (categorical), age (continuous), gender (dichotomous), nationality (dichotomous), area of study (categorical), year of study (dichotomous), finances (dichotomous, i.e., having some or many financial difficulties vs. getting to the end of the month well enough or very well), politics (categorical), perceived susceptibility to COVID-19 (continuous), perceived COVID-19 severity (continuous), concern about the COVID-19 emergency (continuous), COVID-19 past infection (dichotomous, i.e., yes vs. no), confidence in vaccine safety (continuous) and effectiveness (continuous), adherence to mask wearing indoors (continuous), adherence to mask wearing outdoors (continuous), performing hand hygiene (continuous), and maintaining physical distancing (continuous). Adjusted odds ratios (ORs) and 95% confidence intervals (CIs) were calculated. A subgroup analysis was performed on students belonging to the healthcare area. The same methods and variable selection process of the main analysis were used. All analyses were performed using Stata (StataCorp LLC, 4905 Lakeway Drive, College Station, TX 322, USA), version 17.0. A two-sided p-value < 0.05 was considered statistically significant. During the screening campaign, 7339 students were tested at least once for SARS-CoV-2; of these, 5784 answered the questionnaire (overall response rate: 78.8%, ranging from 81.2% in March and 76.4% in May-June). However, 415 participants had already been vaccinated with at least one dose (one student in March, 19 students in April-May, and 395 students in May-June) and therefore were excluded, giving a total of 5369 questionnaires analyzed: 1910 students in the first survey period (daily mean: 191, range 150-231), 1720 students in the second survey period (daily mean: 107, range 60-159), and 1739 students in the third survey period (daily mean: 62, range 12-128). Respondents were aged 23.5 ± 4.5 on average (Table 1) . Most participants were females (around 60%), and this proportion increased over time to almost two-thirds between May and June 2021. Only a minority of students were non-Italian, even though their prevalence became higher over time. The largest category was students enrolled in faculties not related to healthcare or science. More than half of the students had a high academic level (third year or above). Almost 50% of the participants reported that they got to the end of the month (financially) well enough, while 20% did very well, and the remaining one-third had some or more difficulties. As for politics, approximately half of the students adopted a moderate position, around 12% stated they were strongly left-wing, while only a limited number of students identified as strongly right-wing (~1%). An increasing proportion of respondents over the study period preferred not to indicate their political position. Perceived COVID-19 severity and concern about the emergency seemed to decrease over time, likewise perceived susceptibility, which also registered lower absolute values throughout the campaign ( Table 2 ). The prevalence of students with a past COVID-19 infection slightly increased, from almost 4% in March to 7% between May and June. During the first survey period, 78% of students showed no hesitancy in their intention to get vaccinated, but this proportion decreased throughout the campaign. The main reasons for hesitancy were (i) not considering themselves at risk of infection (around 20%); (ii) low confidence in vaccine safety or effectiveness, especially during March, when together this group represented more than 37% of the cohort, but which fell to around 25% in the other survey periods; (iii) and being aware of serious adverse reactions occurring after vaccination; the prevalence of this category doubled over time (from 13% in March to 26% in May-June), becoming the most frequent reason given. A decreasing mean confidence in vaccine safety was registered, which fell by 0.50 throughout the campaign (from 8.05 in March to 7.54 in May-June). By contrast, no meaningful change was observed in confidence in vaccine effectiveness. As for self-reported adherence to precautionary measures, mask wearing indoors scored the highest compliance (around 9 out of 10), but seemed to decline over time, in line with the decreasing levels of mask wearing overall and maintenance of physical distancing. Conversely, adherence to hand hygiene guidelines peaked during the second survey period, returning to pre-peak values immediately thereafter. Daily prevalence of vaccine hesitancy throughout the SARS-CoV-2 screening campaign is illustrated in Figure 1A , where a gradual increase is observable. Confidence in vaccine safety visibly declined over time ( Figure 1B) , whereas confidence in vaccine effectiveness fluctuated somewhat in the first weeks, but showed a clear drop during the last few days only ( Figure 1C ). The two optional questions added to the questionnaire from 12 April are reported in Table 3 . Students expressed a higher willingness to choose the vaccine in May-June compared to April-May. Main drivers of choice were personal experience with side effects (around 26%), higher efficacy (23-25%) or safety (21-22%) in trials, and the type of vaccine (20-22%). Less importance was given to the country of vaccine production (around 4%) ( Table 3 ). In the multivariable analysis, higher odds of vaccine hesitancy were found for students surveyed in the second period only (aOR: 1.25, 95% CI: 1.04-1.50) ( Table 4) . Similarly, being male, not a healthcare student, or being in a lower study year were associated In the multivariable analysis, higher odds of vaccine hesitancy were found for students surveyed in the second period only (aOR: 1.25, 95% CI: 1.04-1.50) (Table 4) . Similarly, being male, not a healthcare student, or being in a lower study year were associated with higher likelihood of hesitancy (male: aOR: 1.39, 95% CI: 1.18-1.64; science as area of study: aOR: 1.33, 95% CI: 1.08-1.64; neither healthcare or science as area of study: aOR: 1.40, 95% CI: 1.16-1.70, and first-or second-year students: aOR: 1.18, 95% CI: 1.01-1.38). As for politics, only students that preferred to not disclose their orientation had higher odds of hesitancy compared to moderate respondents (aOR: 1.26, 95% CI: 1.08-1.49). On the other hand, while higher perceived COVID-19 severity and concern for the emergency were negatively associated with vaccine hesitancy (aOR: 0.89, 95% CI: 0.85-0.94, and aOR: 0.93, 95% CI: 0.89-0.98, respectively), higher susceptibility to COVID-19 did not show any relationship. The lowest odds of vaccine hesitancy were found for a 1-unit increase in confidence in vaccine safety (aOR: 0.56, 95% CI: 0.52-0.61) and effectiveness (aOR: 0.79, 95% CI: 0.73-0.86). In addition, wearing masks indoors or outdoors more frequently was negatively associated with vaccine hesitancy (aOR: 0.94, 95% CI: 0.89-0.99, and aOR: 0.92, 95% CI: 0.89-0.96, respectively). By contrast, age, nationality, finances, past COVID-19 infection, performing hand hygiene, or maintaining physical distancing more often did not seem to be predictors of the outcome. The subgroup analysis performed on healthcare students yielded results similar to the main analysis, with the only exceptions of politics and mask wearing indoors that were no longer significant (Table S1 ). Specifically, like the main analysis, being surveyed during April-May, being male, and having a lower academic level were found to be positive associated with vaccine hesitancy, whereas higher levels of perceived COVID-19 severity, concern for the emergency, confidence in vaccine safety and effectiveness, and self-reported adherence to mask wearing outdoors were negatively associated with the outcome. Additionally, no association was found for gender, nationality, finances, past COVID-19 infection, performing hand hygiene, or maintaining physical distancing more often. Given that attitudes towards vaccinations have been shown to change over time [25] , monitoring the vaccine hesitancy phenomenon and its determinants is universally recognized as a fundamental strategy for addressing any potential concern [26, 27] . In this study, we found that, between March and June 2021, intention to accept vaccination against COVID-19 ranged from 71% to 78%, proportions that are lower than the 86% and 92% previously reported among Italian college students in April 2020 [20] and January 2021 [21] , and midway between the 57% and 92% found in May 2021 [22] in a study that examined vaccination intention for viral vector and mRNA vaccines, respectively. Hence, these data may suggest that vaccination intention in this population subgroup has changed since the beginning of the vaccination campaign or, because we considered anyone who was not 100% willing to take the vaccine to be hesitant, the discrepancy with previous studies may also depend on how the outcome was measured, as already described [12] . However, despite these proportions being higher than those reported in other countries [14, 15, 19] or among the Italian adults aged 18-28 years (data not shown), our results likely confirm that an appreciable number of Italian college students have some hesitancy towards COVID-19 vaccination. For this reason, coordinated efforts are needed to address concerns and achieve optimal vaccine uptake in this subgroup [28] . Specifically, close attention should be paid to the development of effective and coherent communication strategies [29] . It may not be a coincidence that an intense media debate around adverse reactions to the Vaxzevira (AstraZeneca AB, Södertälje, Sweden) vaccine took place between March and April 2021 [30] and that we observed a higher likelihood of hesitancy during April-May 2021. Considering that confidence in vaccine safety was the strongest predictor of vaccination intention and that, as already indicated by other studies [15, 31, 32] , safety and efficacy issues were among the most frequently reported reasons for hesitancy, the importance of limiting disinformation on COVID-19 vaccines to promote their public acceptance is further confirmed [29] . Among the factors explored, a few findings contrasted with the literature. Whereas it has been reported that either female respondents are less likely to intend to vaccinate [12, 15] or there is no association with gender [21, 33, 34] , in our study male participants were more likely to be hesitant. In addition, while in the general population different rates of hesitancy have been found according to the country studied [12] , we did not detect any difference in terms of nationality, probably reflecting a mitigation of attitudes due to all our respondents being exposed to the same Italian environment. Conversely, our students seemed to be receptive to the scientific recommendation that natural immunity should not exempt an individual from vaccination [35] ; higher levels of hesitancy were not observed in respondents reporting a past COVID-19 infection. As for finances and political ideology, two other well-documented determinants of vaccine-related attitudes and behaviors [12, 25, 36, 37] , in the whole sample we found an association for the latter only. It is difficult to hypothesize why those students who preferred not to disclose their political position were more likely to be hesitant; for example, these students may not have had a clear opinion, or they may not have wished to report it voluntarily, or a mixture of both. However, since the ongoing political debate around COVID-19 vaccinations is still intense [38] and the association was found in the main analysis only, a deeper understanding of the relationship between politics and vaccination intention in young adults is warranted. With regard to education, the fact that a greater willingness to receive the vaccine was found among students attending healthcare curricula is comforting, given the clinical implications of a potential hesitancy among healthcare workers and students who are frequently in contact with high-risk patients, but it also suggests that strategies aimed at increasing health literacy among young people should be developed [39] . The importance of these interventions may be further confirmed by the fact that, while we do not detect any evidence relating to the age of respondents-probably because the age range investigated was narrow-students at the beginning of their academic career were more likely to be hesitant, as reported in France [15] . Therefore, implementing tailored approaches in the university setting during the early years of students' education could improve vaccination compliance among young people, not only in the case of COVID-19, but also for other infectious diseases, such as measles or human papillomavirus, whose immunization rates are currently sub-optimal in this subgroup [40] [41] [42] . COVID-19 risk perception is another factor that has been shown to modulate attitudes and behaviors [43] . In our study, we found that the raw judgements of concern, likelihood of infection, and disease severity changed over time, in line with the dynamic nature of the process [44] . Additionally, our data showed that (i) participants did not feel they were at particularly high risk of infection and (ii) that this perception was not a strong predictor of vaccine hesitancy, suggesting that the vaccine decision-making process is affected by considerations of both personal and societal health benefits [4] . Within this context, implementing non-pharmaceutical interventions to limit the spread of the virus and protect others has been a key message of many communication campaigns across the world, including Italy [45] . Despite a few decreasing trends, we found that self-reported adherence to the guidelines was overall quite high, especially for mask wearing, both indoors and outdoors. Moreover, in the main analysis, compliance with these two recommendations seemed to be related to vaccine acceptance, probably because there are factors that are in common, such as having prosocial values and trust in science [46] . Therefore, communication strategies focusing on restoring public confidence in health authorities and helping people understand why recommended measures are useful for them and their community could simultaneously increase vaccine acceptance and adherence to recommended precautions [46] . Lastly, freedom to choose which vaccine to receive, and its association with hesitancy, has been hypothesized by a few authors [47] , but the issue is still under-investigated. In our study, the main drivers of choice were comparable to those found among Japanese people in February 2021 [48] , except for the country of vaccine production, which we found replaced by vaccine type. This difference may relate to when the various surveys were conducted; unlike the Japanese respondents, our students were exposed to media reports in March and April 2021, alleging a worse performance for Vaxzevira (AstraZeneca AB, Södertälje, Sweden) [29] , the most well-known viral-vector vaccine. However, we did not investigate the effect of the freedom to choose the vaccine on vaccination intention. Further research on this is needed, as its impact may differ across countries and change over time, depending on pandemic conditions and local perceptions of vaccines [49] . Furthermore, if restricting freedom of choice is proven to increase vaccination hesitancy, effective communication strategies should be devised to change attitudes to particular vaccines [49] . Otherwise, or in addition, there should be a comprehensive evaluation of the ethical considerations that may arise as a consequence of allowing people to choose which vaccine they receive as a means of increasing vaccine uptake [49] . This study has some limitations. Firstly, the cross-sectional design hindered the opportunity to draw causal conclusions between vaccination intention and the associated factors. Secondly, since the participants of this study were recruited among those attending in-person activities at the main campus and participating in the SARS-CoV-2 screening campaign, it is possible that, despite the good response rate we achieved, our sample may be not entirely representative of Sapienza University students. Furthermore, since respondents were asked to fill out the questionnaire while waiting to be tested, the survey was constrained to a reduced number of questions, limiting the scale of the investigation. In this regard, we did not explore a few aspects that may be associated with vaccine hesitancy [4] , such as knowledge, vaccine literacy, and social media influences. They are interconnected factors that make the individuals able to discern accurate information from misinformation [4] . Within this context, given their frequent engagement in social networks, students may be particularly exposed to false and misleading information regarding COVID-19 vaccinations and, since they may not be able to successfully manage the confusion coming from the infodemic, further analyses on the topic should be conducted. Nevertheless, to the best of our knowledge, this is the first study to track hesitancy towards SARS-CoV-2 vaccines during the first months of the vaccination campaign in a large sample of Italian university students. In addition, we were able to analyze student attitudes, risk perceptions, and adherence to recommended precautions in relation to vaccination intention, providing data that may support policymakers in developing effective communication strategies for the promotion of vaccine uptake. During the first months of the vaccination campaign, we found that around one in four students had some degree of hesitancy towards COVID-19 vaccination. Additionally, vaccine hesitancy changed over time and in relation to several factors, including confidence in vaccine effectiveness and safety, risk perception of COVID-19, and education level. Since university students are a good target for intervention campaigns, as they are still undergoing education and may be open to a change in behavior, additional efforts to increase their awareness and engagement, restore confidence in health authorities, and limit disinformation regarding the vaccines should be made, especially in the university setting where students' education is the main focus. Informed Consent Statement: Informed consent was obtained from all subjects involved in the study. The data presented in this study are available on request from the corresponding author. Interim Guidance on the Benefits of Full Vaccination against COVID-19 for Transmission and Implications for Non-Pharmaceutical Intervention Coronavirus Pandemic (COVID-19). Our World in Data 2020 Overview of the Implementation of COVID-19 Vaccination Strategies and Vaccine Deployment Plans in the EU/EEA Vaccine hesitancy: Definition, scope and determinants Ten Threats to Global Health in 2019; World Health Organization Understanding vaccine hesitancy around vaccines and vaccination from a global perspective: A systematic review of published literature Barriers of Influenza Vaccination Intention and Behavior-A Systematic Review of Influenza Vaccine Hesitancy Factors affecting the vaccination choices of pregnant women for their children: A systematic review of the literature Resurgence of measles in Europe: A systematic review on parental attitudes and beliefs of measles vaccine Measles among healthcare workers in Italy: Is it time to act? Hum. Vaccines Immunother. 2020 Behavioural Considerations for Acceptance and Uptake of COVID-19 Vaccines; World Health Organization International estimates of intended uptake and refusal of COVID-19 vaccines: A rapid systematic review and meta-analysis of large nationally representative samples COVID-19 vaccine hesitancy worldwide: A concise systematic review of vaccine acceptance rates COVID-19 vaccine acceptance and hesitancy among dental and medical students COVID-19 vaccine acceptance, hesitancy, and resistancy among university students in france Older adolescents and young adults willingness to receive the COVID-19 vaccine: Implications for informing public health strategies Age groups that sustain resurging COVID-19 epidemics in the United States COVID-19 infection with asymptomatic or mild disease severity in young patients: Clinical course and association between prevalence of pneumonia and viral load COVID-19 vaccine hesitancy among medical students Vaccine hesitancy' among university students in Italy during the COVID-19 pandemic Knowledge and acceptance of COVID-19 vaccination among undergraduate students from central and southern Italy Factors Affecting Hesitancy to mRNA and Viral Vector COVID-19 Vaccines among College Students in Italy Survey Tool and Guidance: Behavioural Insights on COVID-19 A descriptive review of variable selection methods in four epidemiologic journals: There is still room for improvement COVID-19 and vaccine hesitancy: A longitudinal study The old and the new: Vaccine hesitancy in the era of the Web 2.0. Challenges and opportunities Knowledge and attitudes on pediatric vaccinations and intention to vaccinate in a sample of pregnant women from the City of Rome The COVID-19 Vaccine Communication Handbook. A Practical Guide for Improving Vaccine Communication and Fighting Misinformation Measuring the impact of COVID-19 vaccine misinformation on vaccination intent in the UK and USA Italian Medicines Agency (AIFA). COVID-19 Vaccine Surveillance Report #3 Vaccination willingness, vaccine hesitancy, and estimated coverage at the first round of COVID-19 vaccination in China: A national cross-sectional study Factors influencing Covid-19 vaccine acceptance across subgroups in the United States: Evidence from a conjoint experiment University students' perspectives, planned uptake, and hesitancy regarding the COVID-19 vaccine: A multi-methods study Vaccine acceptance and its influencing factors: An online crosssectional study among international college students studying in china Initial impact of SARS-Cov-2 vaccination on healthcare workers in Italy-Update on the 28th of How public health professionals view mandatory vaccination in italy-A cross-sectional survey Effect of the mandatory vaccination law on measles and rubella incidence and vaccination coverage in Italy (2013-2019). Hum. Vaccines Immunother. 2021. Epub ahead of print Italian Ministry of Health What is the Prevalence of Low Health Literacy in European Union Member States? A Systematic Review and Meta-analysis Slow progress in measles and rubella elimination in Italy Human papillomavirus infection and vaccination: Knowledge and attitudes among young males in Italy. Hum. Vaccines Immunother Towards elimination of measles and rubella in Italy: Progress and challenges Associations of COVID-19 risk perception with vaccine hesitancy over time for Italian residents COVID-19 risk perception: A longitudinal analysis of its predictors and associations with health protective behaviours in the United Kingdom Guidelines for the Implementation of Non-Pharmaceutical Interventions against COVID-19 Van den Broucke, S.; Aujoulat, I. Determinants of adherence to COVID-19 measures among the Belgian population: An application of the protection motivation theory Let me choose my COVID-19 vaccine Determinants of COVID-19 vaccine preference: A survey study in Japan. SSM Pop Health 2021, 15, 100902 The power of choice: Experimental evidence that freedom to choose a vaccine against COVID-19 improves willingness to be vaccinated We would like to thank Sapienza University students for their participation in the survey. The authors declare no conflict of interest.