key: cord-0769431-7zpdsq3n
authors: Shimizu, Yumi; Hirai, Kei; Ueda, Yutaka; Yagi, Asami; Ohtake, Fumio
title: Impact of the Threat of COVID-19 Infections on the Perceived Risk to HPV Vaccination
date: 2022-05-23
journal: Vaccines (Basel)
DOI: 10.3390/vaccines10050829
sha: 92e9f9d8f61a27cd950040974955c26ae49858a1
doc_id: 769431
cord_uid: 7zpdsq3n

Vaccination rates for human papillomavirus (HPV) in Japan are significantly lower than other countries, and Japanese people are reluctant to be vaccinated. Repeated daily reports of COVID-19 infections and restrictions have made people more health conscious and aware of the danger of infectious diseases. In this study, we used the health belief model (HBM) to examine perceived threats of cancer and infectious diseases and to ascertain whether the new COVID-19 vaccination in addition to these perceived threats would increase vaccination intention against cervical cancer. We conducted a cluster analysis to classify the segmentation regarding the perceived threat, and a logistic regression analysis to predict factors influencing people accepting vaccination. We received 1257 completed surveys during our research. We classified the participants into six clusters, and the logistic regression analysis indicated eight factors significantly associated with the willingness to get the HPV vaccine: reliable information sources such as doctors and social networking sites (SNS), the recognition of COVID-19 symptoms, the awareness of COVID-19 vaccination, the importance of HPV prevention through vaccination, one’s own intention of COVID-19 vaccination, their intention of COVID-19 vaccination toward children, and benefits of HPV vaccination. Further research on HPV and COVID-19 vaccination is encouraged.

While COVID-19 has attracted global attention, there are still some public health issues which remain unresolved in Japan. Cervical cancer is one such issue. Approximately 570,000 cases of, and 310,000 deaths owing to, cervical cancer are reported annually worldwide [1] . In Japan, there are about 10,000 patients with cervical cancer every year; cases have been detected earliest in the late 20s age group and seem to peak in the 50s age group [2] . Accordingly, in 2013, the Ministry of Health, Labour and Welfare (MHLW) decided to declare and administer the human papillomavirus (HPV) vaccine as a routine vaccination. However, due to excessive media reporting on some cases of alleged adverse reactions, after just three months of the vaccine's formal inclusion in Japan's national immunization programs, the "suspension of active recommendation" was enforced. Due to these circumstances, HPV vaccination rates have declined from 68.4-74.0% in the 1994-98 birth cohort to 0.6% in the 2000 birth cohort [3] ; in 2018, the HPV vaccination rate was only 1.3% [4] . On the other hand, in 2020, individual guidance excluding active recommendation began to be provided and the vaccination rate slightly increased [5] . In November 2021, it was decided to withdraw the suspension of active recommendations, and these are scheduled to resume in April 2022. However, a tendency to take a negative view toward 16-item 7-point scale (Likert scale recoded to "strongly disagree", "strongly agree," and "neither strongly agree nor strongly disagree") that asks about the subjective probability of illness for oneself and one's children (breast cancer, cervical cancer, colorectal cancer, and COVID-19 infection for women; lung cancer, stomach cancer, colorectal cancer, and COVID-19 infection for men) and the economic impact of each of the four illnesses on participants or their children

Literacy and beliefs about COVID-19, HPV vaccines, and cervical cancer screening 16-item 6-point scale (Likert scale recoded to "strongly disagree", "strongly agree") that assesses knowledge regarding cervical cancer, such as "cervical cancer is mainly transmitted through sexual intercourse" and beliefs such as "I think it is important to prevent COVID-19 by vaccination"4-item, 2-point scale (yes or no) about whether the respondent knows some news about vaccines, whether the respondent knows about adverse reactions toward HPV vaccines, and whether the vaccine is reliable and feasible 4. Experience of cancer screening 1-item 5-point scale (1. Examined within the last one year, 2. Examined within the last two years, 3. Examined more than two years ago, 4. Not ever, 5. Do not know)

Intention of vaccination 6-item 6-point scale (Likert scale recoded to "strongly disagree" and "strongly agree") about whether the respondents vaccinate or allow their child to be vaccinated in varied vaccination situations (no risk of side effects, common side effects, unknown/serious side effects) in the case of the COVID-19 vaccine. A 3-item, 6-point scale (Likert scale recoded to "strongly disagree", "strongly agree") that evaluates whether the respondents vaccinate or allow their child to be vaccinated in the aforementioned circumstances, in the case of the HPV vaccine 6. Discussion between husband and wife / parent and child 4-item 2-point scale (yes or no) on whether there is discussion about the HPV and COVID-19 vaccines 

Benefit/barrier 30-item 7-point scale (Likert scale recoded to "strongly disagree," "strongly agree," and "neither strongly agree nor strongly disagree"); 5 items-each about benefits and barriers on two types of vaccination (COVID-19 and HPV) and screening behavior (cervical cancer)

Health literacy (9-item 6-point scale: Likert scale recoded to "strongly disagree" and "strongly agree"), means of getting health information (12- 

Since cancer types differed in men and women (men: stomach, lung, and colorectal cancer; women: breast, cervical, and colorectal cancer), the values for each type were standardized and integrated into a single value for "cancer." The COVID-19 data which were also separated by gender were standardized and merged into one value "COVID-19." Next, descriptive statistics regarded each perceived threat toward cancer and COVID-19. Then, correlation analysis was conducted to reveal the relationship between each perceived threat toward cancer and COVID-19.

Second, this study conducted cluster analysis on the perceived seriousness and perceived susceptibility toward cervical cancer and COVID-19. This study integrated the cancer and COVID-19 data, performed cluster analysis, and examined the characteristics of each cluster.

Finally, a multivariable logistic regression analysis (forced enter and forward selection with likelihood ratio) was applied to examine whether the intention to HPV vaccination can be predicted from other variables, such as the HBM included in each cluster. Each of the 5 items concerning benefits of and resistance toward HPV and COVID-19 vaccination and cancer screening are also standardized and integrated into six values each. To conduct logistic regression analysis, dummy items for both the nominal scale and vaccination intention were created.

All analyses were conducted using IBM SPSS Statistics (ver. 26). p < 0.05 was considered statistically significant.

The survey was conducted after obtaining approval from the Ethics Committee of the Department of Education, Graduate School of Human Sciences, Osaka University (No. 20067). All participants signed up with the research company prior to the beginning of the online survey, at which point they have already given their informed consent. The participants who fulfilled the conditions required by the research company read an explanation of the purpose of the survey and were informed that they could withdraw from the survey at any time. Their response constitutes their consent to participate in the survey. This process has been approved by the Ethics Committee. 

The attributes of the participants are shown in Table 2 . Of the total respondents, 66% underwent cancer screening, 81.8% had been vaccinated against influenza, and 3.1% of female subjects had received the HPV vaccine. Further, 65.7% and 67.7% of respondents would consider-for their children-the COVID-19 and HPV vaccine, respectively. 

The correlation analysis was conducted for self-susceptibility/child-susceptibility and self-seriousness/child-seriousness toward cancer and COVID-19 (Table 3) . Correlation analysis is a technique that reveals the relationship between variables, that is, how similar the movements of two variables are. It means that if susceptibility or seriousness in cancer is high, the susceptibility and seriousness of COVID-19 is also high. Pearson's correlation coefficient was calculated, and significant correlations were found in all values. This clearly shows that there is an association between each of the variables.

Cluster analysis with Ward's method was performed using the scores of eight items each for "self-susceptibility," "child-susceptibility," "economic impact of self-susceptibility (self-seriousness)," and "economic impact of child-susceptibility (child-seriousness)" for cancer and COVID-19; six clusters were obtained ( Figure 1 ). There were 227, 299, 58, 117, 254, and 302 respondents in the first, second, third, fourth, fifth, and sixth clusters, respectively. A Chi-square statistic was conducted to examine the bias in the headcount ratio; the result was significant (χ 2 = 240.389, df = 5, p < 0.001). 8.Child + Seriousness 0.261 ** 0.295 ** 0.626 ** 0.758 ** 0.286 ** 0.372 ** 0.737 ** The correlation coefficient is significant (two-sided) at the 1% level.

Cluster analysis with Ward's method was performed using the scores each for "self-susceptibility," "child-susceptibility," "economic impact of se ity (self-seriousness)," and "economic impact of child-susceptibility (childfor cancer and COVID-19; six clusters were obtained ( Figure 1 ). There wer 117, 254, and 302 respondents in the first, second, third, fourth, fifth, and s respectively. A Chi-square statistic was conducted to examine the bias in t ratio; the result was significant (χ 2 = 240.389, df = 5, p < 0.001). Next, an analysis of variance-using the six clusters as independent the eight items of self-susceptibility, child-susceptibility, self-seriousness, a ousness as dependent variables-was conducted. Significant group diff found for all eight items: self-susceptibility toward "cancer" (F [5, 1256] 0.001), child-susceptibility toward "cancer" (F [5, 1256] Next, an analysis of variance-using the six clusters as independent variables and the eight items of self-susceptibility, child-susceptibility, self-seriousness, and child-seriousness as dependent variables-was conducted. Significant group differences were found for all eight items: self-susceptibility toward "cancer" (F [5, 1256] =100.763, p < 0.001), childsusceptibility toward "cancer" (F [5, 1256] = 119.352, p < 0.001), self-seriousness toward "cancer" (F [5, 1256] = 374.079, p < 0.001), child-seriousness toward "cancer" (F [5, 1256] = 381.571, p < 0.001), self-susceptibility toward "COVID-19" (F [5, 1256] = 343.798, p < 0.001), childsusceptibility toward "COVID-19" (F [5, 1256] = 323.701, p < 0.001), self-seriousness toward "COVID-19" (F [5, 1256] = 430.107, p < 0.001), and child-seriousness toward "COVID-19" (F [5, 1256] =424.536, p < 0.001). Results of multiple comparisons by Tukey's honestly significant difference method (5% level) are given in Table 4 .

Based on the characteristics of each group, the six groups were named as follows: The first cluster was designated the "high seriousness group" because it was concerned only with the seriousness (economic impact) of cancer and COVID-19. The second cluster was named the "low seriousness group" because no particular concern was expressed about perceived seriousness. The third cluster was entitled the "indifferent group" because no concern was shown for either morbidity or severity. The fourth cluster was called the "high general anxiety group" because both morbidity and severity were generally high. The fifth cluster was classified the "high susceptibility group" because they were only concerned about morbidity. The sixth cluster was labeled the "moderate group" because it was intermediate and did not fall into either of the two categories. A clustered bar graph is shown in Figure 2 . It compares the mean of each categories separated by type of disease (cancer or COVID-19 infection), target (child or self), and threat (susceptibility and seriousness). Based on the characteristics of each group, the six groups were named as follows: The first cluster was designated the "high seriousness group" because it was concerned only with the seriousness (economic impact) of cancer and COVID-19. The second cluster was named the "low seriousness group" because no particular concern was expressed about perceived seriousness. The third cluster was entitled the "indifferent group" because no concern was shown for either morbidity or severity. The fourth cluster was called the "high general anxiety group" because both morbidity and severity were generally high. The fifth cluster was classified the "high susceptibility group" because they were only concerned about morbidity. The sixth cluster was labeled the "moderate group" because it was intermediate and did not fall into either of the two categories. A clustered bar graph is shown in Figure 2 . It compares the mean of each categories separated by type of disease (cancer or COVID-19 infection), target (child or self), and threat (susceptibility and seriousness). 

This study sequentially introduced groups of variables-including demographic variables, perceived threat variables, sociopsychological variables, cues to action variables, and benefits and barrier variables-into the HBM. Hence, we conducted logistic regression analysis for this model to calculate the adjusted odds ratio (OR)-with 95% confidence interval (CI)-for the intention of HPV vaccination. The logistic regression model was performed with adjustments for all potential factors as listed in Table 1 . The intention to vaccinate against HPV in the presence of common adverse reactions was used as an explanatory variable. Attributes such as knowledge about COVID-19 and HPV, media contact, discussion between partners, discussion between parent and child, psychological factors, intention of COVID-19 vaccination, cancer screening, advantages and disadvantages of vaccination or cancer screening, and six types of perceived threat categorized by cluster analysis were added as adjustment variables. First, attribute items were inserted into the first block as adjustment variables using the forced imputation method; then, the 

This study sequentially introduced groups of variables-including demographic variables, perceived threat variables, sociopsychological variables, cues to action variables, and benefits and barrier variables-into the HBM. Hence, we conducted logistic regression analysis for this model to calculate the adjusted odds ratio (OR)-with 95% confidence interval (CI)-for the intention of HPV vaccination. The logistic regression model was performed with adjustments for all potential factors as listed in Table 1 . The intention to vaccinate against HPV in the presence of common adverse reactions was used as an explanatory variable. Attributes such as knowledge about COVID-19 and HPV, media contact, discussion between partners, discussion between parent and child, psychological factors, intention of COVID-19 vaccination, cancer screening, advantages and disadvantages of vaccination or cancer screening, and six types of perceived threat categorized by cluster analysis were added as adjustment variables. First, attribute items were inserted into the first block as adjustment variables using the forced imputation method; then, the abovementioned variables were inserted into the following blocks (in order) using the maximum likelihood method, and finally, the sixth cluster (moderate group) classified by cluster analysis was added to the last block using the forced imputation method as contrasting indicators. The results of all blocks are shown in Table 5 . The results showed that the following 14 explanatory variables were significant, out of which 8 were associated with an improved intention to vaccinate against cervical cancer: sources of information used to make COVID-19 judgments-family doctor's advice (OR = 1.57, CI = 1.06-2.32, p = 0.02), information from reputable social networking sites (SNS) (OR = 2.40, CI = 1.33-4.33, p = 0.00); realization that COVID-19 may spread even before symptoms such as cough and sore throat appear (OR = 1.16, CI = 1.00-1.34, p = 0.05); awareness of media reports about the development of a vaccine to prevent COVID-19 (OR = 4.09, CI = 2.08-8.06, p = 0.00); importance of HPV prevention by vaccination (OR =1.65, CI = 1.30-2.10, p = 0.00); intention to be vaccinated against COVID-19, "if there are common side effects, I will get myself vaccinated against COVID-19" (OR = 1.97, 1.29-3.00, p = 0.00), and "if there are common side effects, I will get my child vaccinated against COVID-19" (OR =4. 16 

The main purpose of this study was (1) to classify the patterns of threat perception toward cancer and COVID-19 and (2) to examine whether HBM variables, especially cues to action, as the intention for COVID-19 vaccination can explain the intention to vaccinate against cervical cancer. Figure 3 shows that the HBM variables could potentially influence the intention to get the HPV vaccine. against cervical cancer. Figure 3 shows that the HBM variables could potentially influence the intention to get the HPV vaccine. 

Even though the clusters were classified according to the combination of susceptibility to-and seriousness of-each disease, there are few differences in perceived threats between cancer and COVID-19. The cumulative incidence of cancers in Japanese people under 75 years of age was 32.5% for all body parts [2] . Although the infection rate of COVID-19 is high, the rates of severe disease and mortality are not as high as those of cancer. However, the results show that the perceived threat from COVID-19 and cancer does not significantly change, which shows that the COVID-19 infection is considered to be as much of a threat as cancer. One possible explanation of this might be social media's direct involvement with COVID-19 patients or constant contact with medical information. Furthermore, the loss of life from cervical cancer caused by HPV infection is years to decades away and is discounted compared to death from COVID-19 infection, which occurs right in front of our eyes. For these reasons, people worried about COVID-19 infections are also worried about contracting cancer, but not vice versa.

The results of the logistic regression analysis of the perceived threats showed that while those with lower perceived seriousness were more likely to have lower HPV vaccination intention, and that other perceived risk (segmentation) of contracting cancers or COVID-19 did not shape HPV vaccination intention. Our study cannot mention that there is clearly no evidence of an association between perceived threats and HPV vaccination intention; however, possible reasons for the lack of a specific relationship between most of perceived threats and HPV vaccination intention are discussed below. First, approximately 60% of the subjects wanted to be vaccinated against HPV and COVID-19, which seems to indicate a large subject bias. Second, the lack of significant differences between 

Even though the clusters were classified according to the combination of susceptibility to-and seriousness of-each disease, there are few differences in perceived threats between cancer and COVID-19. The cumulative incidence of cancers in Japanese people under 75 years of age was 32.5% for all body parts [2] . Although the infection rate of COVID-19 is high, the rates of severe disease and mortality are not as high as those of cancer. However, the results show that the perceived threat from COVID-19 and cancer does not significantly change, which shows that the COVID-19 infection is considered to be as much of a threat as cancer. One possible explanation of this might be social media's direct involvement with COVID-19 patients or constant contact with medical information. Furthermore, the loss of life from cervical cancer caused by HPV infection is years to decades away and is discounted compared to death from COVID-19 infection, which occurs right in front of our eyes. For these reasons, people worried about COVID-19 infections are also worried about contracting cancer, but not vice versa.

The results of the logistic regression analysis of the perceived threats showed that while those with lower perceived seriousness were more likely to have lower HPV vaccination intention, and that other perceived risk (segmentation) of contracting cancers or COVID-19 did not shape HPV vaccination intention. Our study cannot mention that there is clearly no evidence of an association between perceived threats and HPV vaccination intention; however, possible reasons for the lack of a specific relationship between most of perceived threats and HPV vaccination intention are discussed below. First, approximately 60% of the subjects wanted to be vaccinated against HPV and COVID-19, which seems to indicate a large subject bias. Second, the lack of significant differences between cancer and COVID-19 in terms of susceptibility and severity in the results of the cluster analysis could also be a major factor differentiating those relationships. Finally, regardless of the severity or morbidity of the disease, when people are exposed to COVID-19 information through the media, they may experience a desire to vaccinate and thus protect themselves. Several Japanese people avoided HPV vaccination due to media influence; meanwhile, daily COVID-19 reports have strengthened the overall awareness of vaccination. For these reasons, no clear relationship could be derived between risk perception and HPV vaccination intention.

The results of the logistic regression analysis of the HPV vaccination intention showed that, as hypothesized, the high intention to vaccinate against COVID-19 was significantly associated with the intention to vaccinate against cervical cancer. This might be because repeated daily reports of COVID-19 infections and restrictions on behavior have made people feel more threatened by infectious diseases. In addition, since the government is encouraging health management within organizations, such as companies and schools, the increasing interest in health has created a more conducive environment for vaccination. Furthermore, as of November 2020, although no COVID-19 vaccine had been developed or inoculated, the prevalence of infections in Japan and worldwide had been reported extensively in the media, which may have induced a sense of anxiety and thus stimulated health awareness. Likewise, the Japan 2020 Summer Olympics were postponed, and the government supplied more COVID-19-related information. Under these circumstances, 65.7% of the respondents wanted their children to be vaccinated against COVID-19. With this improvement in health awareness, it is likely that those who want their children to receive the new COVID-19 vaccine also want them to receive the HPV vaccine.

Furthermore, people who consult family doctors and SNS to seek reliable information about COVID-19 tend to have an increased intention toward vaccination. This is because they trusted the opinions of their family physicians and other medical specialists even before the COVID-19. This could imply that people had pre-existing knowledge about the effectiveness of HPV vaccine because of their doctors' recommendations. Regarding SNS, due to the overwhelming quantity of information generated by consumer-generated media, which refers to any written or audio contents created by end users, has acquired the potential to shape collective knowledge and become an important social influencer, comparable to television and newspapers [15] . In Japan, after the Great East Japan Earthquake, SNS such as Twitter and LINE were used as communication tools and played an active role in confirming the safety of people in areas where the government was unable to do so [16] . Similarly, in the current situation, no one knows about the actual conditions of-or exact solutions to-COVID-19. Therefore, it is likely that information from doctors and SNS became a basis for decision making and influenced vaccination intentions. Additionally, we found that those aware of COVID-19 symptoms, COVID-19 vaccine development, and the importance of the HPV vaccination have more likelihood of willingness to get the HPV vaccination. Greater contact with SNS and medical professionals will increase awareness about disease information and the importance of vaccines. Accordingly, information from doctors and SNS can predispose people to realize the effectiveness of HPV vaccination.

Additionally, people who are unable to decide whether to vaccinate their children for cervical cancer are apt to exhibit decreased vaccination intention. Although their reasons for indecision are unclear, present bias seems to play a role. Decision making about medical care and health involves comparisons between the benefits of future health and current loss because of financial burden and the pain of treatment, in which an important role is played by the behavioral economics of time preferences. People who tend to discount future benefits and have a powerful procrastination tendency due to present bias may be less likely to engage in aggressive medical and healthcare behaviors [17, 18] . For example, the benefits of improved health or prevention of worsening disease through medical examinations or medication are more likely to be felt in the future. In such cases, future benefits are significantly discounted, and present costs are perceived to be large. As a result, health-related behavior is not seriously engaged in, and consequently, important medical decisions are delayed. Present bias also reduces people's likelihood to undergo screening tests and to take the influenza vaccine [19] . Therefore, people who are unable to decide may also be affected by present bias, which may lead to postponed decision-making, and thus decrease vaccination intention.

The greater the knowledge about HPV vaccination benefits, the higher the intentions to be vaccinated against HPV. The five major benefits of HPV vaccination are as follows: prevention of cervical cancer in children (increase life expectancy), reduction in the number of worries (reduce the psychological burden), less disruption of the child's daily life (work and future family) in the future, reduction in economic burden, and less isolation from the surrounding inoculation situation. These benefits mainly include protecting themselves and their children from physical and sociopsychological factors in the future.

In contrast, those aware of the adverse reaction of HPV vaccination and have a negative attitude toward cancer screening are likely to exhibit decreased vaccination intention. The five barriers to cancer screening are as follows: visiting a doctor will force them to face their disease-related anxiety; the screening tests are physically demanding; children are discouraged from receiving treatment because continual treatment is required; a lot of time is spent on treatment after cancer is diagnosed, thus affecting their planning for the future; children dislike screening. These items were composed based on physical and psychological risks, seemingly related to anticipatory anxiety and immediate concerns. In other words, it is highly likely that they have exhibit "present bias" and "loss aversion," undesirable decision-making tendencies to chase trivial immediate gains (immediate rewards) rather than large future gains (delayed rewards). Further, some studies demonstrated that risk-averse individuals are less likely to undergo breast cancer screening to avoid the risk from action [20, 21] . While breast cancer screening lowers the risk of delayed cancer detection, treatment may still fail, which indicates that screening does not eliminate the risks. Consequently, in situations where risks are involved, risk-averse individuals may not engage in proactive medical and health behaviors; the results of this study reflect this situation.

Vaccination and early medical examination are important for cervical cancer prevention. In this study, we found that the intention of HPV vaccination increased with the growth of health consciousness owing to the COVID-19 outbreak. This result generates important data for improving the HPV vaccination rate in Japan in the future. Further interventional studies-for example, wherein HPV and COVID-19 vaccination are simultaneously recommended-will be necessary in the future.

In contrast, the present results did not specify the relationship between all risk perceptions and vaccination intention in the HBM. The probability of adverse health effects in the form of risk assessment is important; however, this study failed to provide sufficient assessment to our model. Therefore, it is necessary to conduct further analysis by setting up a model for indirect influences, such as the intention to be vaccinated against new COVID-19 infections. In the future, we will also explore the tendency of present bias and avoidance risk. We can expect to see behavioral changes by making present or future benefits larger or present costs smaller. It has also been reported that HPV vaccination rates in some regions have increased (from 0.6% as of 2016 to 23.4% in 2020); this can be attributed to awareness-raising videos for young people by VTubers (virtual YouTuber) on YouTube and the use of these videos to raise awareness in schools [22] . We believe that further research that considers the influence of these SNS and other contributory factors is needed.

Furthermore, different communities in each region may have different perceptions of vaccines and their impact on vaccination intentions. Just as different urban and rural com-munities have different attitudes to infectious diseases, it is expected that their perceptions of vaccines will also differ. However, regional differences were not considered in this study. Therefore, future research should take these geographical divides into account.

In addition, since this study deals with the intention to inoculate, we consider it necessary to continue this project and include the impact on actual inoculation and consultation behavior. As of January 13, 2022, the COVID-19 vaccine has been developed, and the vaccination rate for the COVID-19 vaccine in Japan is as high as 79.0%, which is high compared to other countries. Moreover, it has been decided that the active recommendation of HPV vaccination be resumed in April 2022. With these changes in health awareness, we need to conduct additional research to determine whether the HPV vaccination intention has increased and whether there has been a change in the actual vaccination rate.

Simultaneously, immunization stress-related responses (ISRRs), which appear after vaccination, cannot be overlooked. A certain number of adverse events have been reported as nocebo effects, which are not caused by the vaccine component, after vaccination. These nocebo effect reactions are caused by vaccination-related anxiety, and in 2019, the WHO proposed the concept of ISRRs [23] . ISRRs are reported to be more likely to occur when new immunizations are introduced and when changes occur in the routine vaccination program. Healthcare professionals need to be aware of ISRRs and respond quickly before these adverse reactions spread rapidly through the media and social media. Therefore, it will be necessary to incorporate the ISRRs perspective into cervical cancer vaccine awarenessraising activities in the future.

The HBM could partially predict each factor influencing people getting vaccinated against HPV. Our findings indicate that the intention of COVID-19 vaccination increases the likelihood of getting HPV vaccination. This study recognized the reliance on mass media (SNS) and medical doctors for COVID-19 information and considered these to be reliable sources. In contrast, those who trust SNS information and are aware of news reportage on cervical cancer and adverse reactions to it, are less likely to get the HPV vaccination. However, even though only 3% of the total female participants were vaccinated against cervical cancer, 65.7% wanted their children to be vaccinated against COVID-19, while 67.7% also wanted the HPV vaccination for themselves. This is probably because repeated daily reports of COVID-19 infections and restrictions have made people more health conscious and aware of the danger of infectious diseases. Although the bias of the subjects should be considered, this result is considered to be important data for improving the HPV vaccination rate in Japan in the future. However, the extent to which this vaccination intention is linked to actual health behaviors is not clear from the present study. Therefore, further research on actual health behaviors and further intervention studies, such as recommending simultaneous HPV and COVID-19 vaccination, will be necessary in the future.

ICO/IARC Information Centre on HPV and Cancer (HPV Information Centre). Human Papillomavirus and Related Diseases in the World (Summary Report 2

Labour and Welfare, Cancer and Disease Control Division Ministry of Health. Incidence and Incidence Rate by Age-Groups. Cancer Incident of Japan

Mapping global trends in vaccine confidence and investigating barriers to vaccine uptake: A large-scale retrospective temporal modelling study

Challenge to improve Japan's deplorable HPV vaccination rate by local government actions

Historical origins of The Health Belief Model

The Health Belief Model and Preventive Health Behavior

Survey on Female Nursing Students' Awareness of Cervical Cancer Prevention-In response to reports of adverse reactions to the vaccine

Psychological Reaction to Pandemic. In The Psychology of Pandemics: Preparing for the Next Global Outbreak of Infectious Disease

Getting Human Papillomavirus Vaccination Back on Track: Protecting Our National Investment in Human Papillomavirus Vaccination in the COVID-19 Era

Impact of reduced human papillomavirus vaccination coverage rates due to COVID-19 in the United States: A model-based analysis

Intent to get vaccinated against COVID-19 among reproductive-aged women in Texas. Hum. Vaccines Immunother

Disparity of Cervical Cancer Risk in Young Japanese Women: Bipolarized Status of HPV Vaccination and Cancer Screening. Vaccines

Toward a PeopleWeb

Multi-level functionality of social media in the aftermath of the Great East Japan Earthquake

Behavioral Economics in the Medical Field: Decision Bias and Nudge

Time discounting, present biases, and health-related behaviors: Evidence from Japan

The association between individual time preferences and health maintenance habits

Effects of risk and time preference and expected longevity on demand for medical tests

Impact of Risk Preferences on Breast Cancer Screening Behavior: Progress Report

Leaflet with Governor's Face and Video with VTuber: HPV Vaccination Rate Went from Less Than 1% to 23.4% by Those Methods

World Health Organization. Immunization Stress-Related Response: A Manual for Program Managers and Health Professionals to Prevent, Identify and Respond to Stress-Related Responses Following Immunization

A Psychological Reactance Scale: Development, Factor Structure and Reliability

Development of a Japanese version of the Perceived Vulnerability to Disease Scale

Development of a short form of the Japanese Big Five Scale, and a test of its reliability and validity

The following supporting information can be downloaded at: https:// www.mdpi.com/article/10.3390/vaccines10050829/s1, Table S1 : All questions in English [24] [25] [26] . 

The authors declare no conflict of interest in the collection, analyses, or interpretation of data, in the writing of the manuscript, or in the decision to publish the results.