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Article

COVID-19 Vaccination Personas in Yemen: Insights from Three Rounds of a Cross-Sectional Survey

by
Zlatko Nikoloski
1,*,
Dennis Chimenya
2,
Abdullah Alshehari
2,
Hauwa Hassan
2,
Robert Bain
3,
Leonardo Menchini
3 and
Amaya Gillespie
3
1
London School of Economics and Political Science, Houghton Street, London WC2A 2AE, UK
2
UNICEF Yemen, Sana’a P.O. Box 725, Yemen
3
UNICEF Middle East and North Africa Regional Office, Amman 11821, Jordan
*
Author to whom correspondence should be addressed.
Vaccines 2023, 11(7), 1272; https://doi.org/10.3390/vaccines11071272
Submission received: 7 June 2023 / Revised: 10 July 2023 / Accepted: 19 July 2023 / Published: 21 July 2023
(This article belongs to the Special Issue Challenges and Future Trends of COVID-19 Vaccination)
Browse Figures
Review Reports Versions Notes

Abstract

:
We used three rounds of a repeated cross-sectional survey on COVID-19 vaccination conducted throughout the entire territory of Yemen to: (i) describe the demographic and socio-economic characteristics associated with willingness to be vaccinated; (ii) analyse the link between beliefs associated with COVID-19 vaccines and willingness to be vaccinated; and (iii) analyse the potential platforms that could be used to target vaccine hesitancy and improve vaccine coverage in Yemen. Over two-thirds of respondents were either unwilling or unsure about vaccination across the three rounds. We found that gender, age, and educational attainment were significant correlates of vaccination status. Respondents with better knowledge about the virus and with greater confidence in the capacity of the authorities (and their own) to deal with the virus were more likely to be willing to be vaccinated. Consistent with the health belief model, practising one (or more) COVID-19 preventative measures was associated with a higher willingness to get a COVID-19 vaccination. Respondents with more positive views towards COVID-19 vaccines were also more likely to be willing to be vaccinated. By contrast, respondents who believed that vaccines are associated with significant side effects were more likely to refuse vaccination. Finally, those who relied on community leaders/healthcare workers as a trusted channel for obtaining COVID-19-related information were more likely to be willing to be vaccinated. Strengthening the information about the COVID-19 vaccination (safety, effectiveness, side effects) and communicating it through community leaders/healthcare workers could help increase the COVID-19 vaccine coverage in Yemen.
Keywords:
COVID-19; vaccination; Yemen

1. Introduction

Yemen has been struck by a devastating civil war that has significantly impacted the country’s overall quality of life since 2011. The war has resulted in a significant number of deaths and many injuries, with many more forced to flee their homes due to the protracted hostilities. Reports of grave children’s rights violations and gender-based violence have increased [1]. In 2021, 20.7 million people (66% of the population) were estimated to be in need of humanitarian assistance. It was estimated that 16.2 million people (more than half of the population) were hungry in 2021, and over 15.4 million people (around half the population) were in need of support to access water and sanitation. Only about half (51%) of the healthcare facilities in Yemen are fully functional, and the health worker density is only 10 per 10,000 population, compared to the WHO benchmark of 22 per 10,000 [2]. About 20.1 million Yemenis (62%) are in need of health assistance. At least one child dies every ten minutes in Yemen due to preventable diseases. Furthermore, there are ongoing challenges, such as the lack of salaries for health personnel and difficulties importing medicines and other critical supplies [1].
Against this difficult background, the first COVID-19 case was registered in Yemen in April 2020, followed by warnings of a potentially catastrophic outbreak [3]. Since April 2020, the virus spread across the country, although the total number of infections and deaths due to COVID-19 was difficult to ascertain, given the poor capacity of the Yemeni healthcare system [4]. Nevertheless, a recent examination of burial activities based on satellite imagery in the governorate of Aden during the pandemic revealed that COVID-19 had had a significant, underreported impact [5].
The immunisation programme was launched on 20 April 2021 (covering 13 of the 21 governorates) [6]. Yemen received 360,000 doses of AstraZeneca COVID-19 vaccinations as the first batch under the COVAX programme, according to the WHO Yemen Situation Report for March 2021. However, as of September 2022, Yemen has one of the lowest COVID-19 vaccination coverage rates globally, with about 5% of adults in Yemen having received at least one dose of the COVID-19 vaccine [7]. Various barriers have prevented the country from increasing COVID-19 vaccination coverage, including pre-existing barriers such as vaccine hesitancy, lack of adequate supplies of vaccines in Yemen, and political instability [3]. The existing literature suggests that these barriers were amplified during the COVID-19 pandemic.

Studies

A study by Bitar et al. [8] relied on a sample of 484 participants and focused on two major questions: the main characteristics of misinformation and the main characteristics of vaccination hesitancy or rejection (the study was carried out before the immunisation campaign in Yemen had begun). University educated, higher income, employed, males living in urban areas were associated with lower misinformation about vaccination in general. In the same study, the acceptance rate for vaccination was 61% for free vaccines, and it decreased to 43% if participants had to purchase it. Females, respondents with lower monthly income, and those who believed that pharmaceutical companies made the virus for financial gains were more likely to reject the COVID-19 vaccination [8]. While beliefs were the main focus of the study by Bitar and colleagues [8], Noushad et al. [9] argued that severe shortage and lack of access to vaccines drove the low vaccination rates in the country. According to their study (conducted via WhatsApp survey to 5329 participants), over half of the respondents were willing to be vaccinated [9]. Finally, in a study by Bin Ghouth et al. [10], beliefs about the vaccine’s lack of safety and bad quality significantly contributed to a lower willingness to be vaccinated.
While there is some information on vaccination willingness and hesitancy in Yemen, the information is incomplete, as outlined above. To date, most of the existing evidence on vaccination uptake is based on one-off, small-scale surveys conducted using convenience sampling and are not representative of the population of Yemen. Against this background, this research paper aims to provide better understanding of the main correlates of vaccination intention and vaccination hesitancy, relying on a repeated cross-sectional survey conducted across Yemen. More specifically, the objective of this research paper is to describe three vaccination “personas” (willing, unwilling to be vaccinated, and unsure) in terms of (i) demographic and other individual characteristics (including knowledge and exposure to COVID-19); (ii) their main vaccination related beliefs (e.g., safety, side effects); and (iii) their preferred channels for reaching communities (e.g., community leaders, social media).

2. Methodology

2.1. Survey Instrument

We used three rounds of a survey titled “Rapid assessment of knowledge, attitudes and practices related to COVID-19” in Yemen. The survey was implemented in five rounds; however, this paper focuses on the last three rounds, where the questions on vaccination intention were asked (March 2021, August/September 2021 and April 2022).
There were about 1400 respondents per round across the entire country. The sample size was determined based on several factors, a population size of 14 million people (population at age > 17), a confidence level of 95%, and a margin of error of approximately 2.5%. The formula for calculating sample size:
Sample size= (z2 xp (1 − p)/e2)/1 + (z2 xp (1 − p)/e2 N)
N—population size, e—Margin of error (percentage in decimal form), z—z-score.
The three rounds of the survey followed a repeated cross-section format (rather than a longitudinal survey format); thus, the same individuals did not appear in all three rounds of the survey.
The survey was administered over the phone in the south of the country and face-to-face in the northern part. In the north of the country, for the selection of the enumeration areas, governorates were identified to serve as primary sampling units (PSUs); based on this, governorates were implicitly stratified to allow for a random selection of clusters while considering the ease of access during the selection (e.g., not a conflict-affected zone, no restrictions from authorities). In turn, a simple random selection was applied for selection to be interviewed in each governorate. By contrast, the interviews in the south were carried out over the phone. More specifically, random numbers were selected from a dataset of phone numbers in the south (noting that this method impacts upon the representativeness of the sample in the south). The application of these different data collection methods did not significantly impact the response rate across the country. In other words, the number of interviews conducted are equal to the specified sample size in each round, both in the south and in the north.
The objective of the survey was to: (i) describe the demographic and socio-economic characteristics associated with a willingness to be vaccinated; (ii) analyse the link between beliefs associated with COVID-19 vaccines and willingness to be vaccinated; and (iii) analyse the potential platforms that could be used in order to target vaccine hesitancy and improve vaccine coverage in Yemen. The survey instrument included items related to (i) knowledge of symptoms, transmission, and prevention; (ii) peoples’ sources of information; (iii) risk perception; (iv) information needs of respondents; (v) COVID-19-related stigma; and (vi) hesitancy or acceptance of COVID-19 vaccine. The questionnaire used for the data collection underwent a thorough review process, with input from several partners and counterparts, including the World Health Organisation as well as members of various United Nations and government coordination and decision-making bodies such as the COVID-19 task force and the risk communication and community engagement working group. Additionally, the questionnaire was pre-tested with selected participants to ensure clarity and relevance. The questionnaire is available upon request.

2.2. Statistical Analysis

We adopted a descriptive analysis of the main characteristics of three vaccination personas: (a) those willing; (b) unsure if they wanted to be vaccinated, and (c) those unwilling. In order to distil the three personas, we relied on the following question from the survey: “Would you be willing to get the COVID-19 vaccine when one becomes available in Yemen?”. Furthermore, the characteristics of the three personas were grouped into three major groups: (i) socio-demographic characteristics (e.g., age, gender, occupation), practising public health and social measures (PHSM), risk perception and trust in authorities); (ii) a second group relating to attitudes and beliefs towards the COVID-19 vaccines (e.g., beliefs in the vaccine safety and side effects); (iii) the final group of characteristics corresponding to the preferred channels for reaching different personas. As outlined above, in order to understand the characteristics of the different vaccination categories, we conducted a descriptive analysis, coupled with chi2 test of the difference between categorical variables. In carrying out the analysis, we focussed on the last round of the survey (round 5) and provide the analysis of the previous two rounds in Appendix A of the paper.

3. Results

3.1. Overall Description of the Sample

Table 1 provides a socio-demographic snapshot of the sample, across the three rounds. About one-third of respondents had completed secondary education and another quarter had completed some college degree, and roughly four-fifths of respondents were less than 50 years of age. Only a fraction of the sample had no or very little formal education. In round 5, about 7% of respondents could not read or write, while 15.6% had basic reading and writing skills. There were more males than females in the sample; more specifically, by the fifth round of the survey, about two-thirds of the sample consisted of males. Furthermore, the sample was almost equally split between the professions included in the study (educators, housewives, students, and office workers).
Between round 3 (March, 2021) and round 5 (April, 2022), the share of respondents who believed they could become infected with COVID-19 had increased. By the fifth round of the survey data, almost half of respondents stated they felt at risk of being infected by the virus. Over time, there was an increase in confidence regarding COVID-19 information provided by the authorities, coinciding with enhanced management of COVID-19. By the fifth round, over half of respondents reported confidence or total confidence in official COVID-19 information from the authorities. However, 14.6% of respondents still had no confidence and might resist authorities’ appeals for vaccine uptake. In addition, the reopening of the country, coupled with the relaxing of some of the stringent measures aimed at containing the virus, resulted in a reduction in the share of respondents practising various public health and social measures (PHSM). More specifically, by the fifth round, only about four percent of respondents practised social distancing (over the last four weeks), while about a third wore a mask in public, whereas handwashing seemed to be a more embedded habit with close to half of respondents (42.6%) still reporting washing their hands regularly with soap and warm water.
Figure 1 provides a summary of vaccination intention over time. There are a few important findings that stem from this analysis. While initially, the share of respondents not willing to be vaccinated had decreased (between rounds 3 and 4), there was very little change between rounds 4 and 5. More specifically, roughly 41% of respondents stated that they were not willing to receive the COVID-19 vaccination when it became available. Second, between rounds 3 and 4, there was an increase in the share of people willing to be vaccinated; however, it had reduced between rounds 4 and 5, at the expense of respondents who were not sure/undecided. By round 5, 28.2% of respondents were willing to be vaccinated, while 30.7% reported that they were unsure.
Figure 2 depicts the practice of various PHSM over time. There are a few major findings that stem from this chart. First, as the pandemic ebbed, the authorities were less stringent regarding enforcement of various measures to stop the transmission of the virus. Indeed, as the chart shows, the share of people practising PHSM over the last four weeks is roughly half compared to the share of the respondents practising the same type of PHSM in the previous ten months. In addition, there are visible differences in the prevalence of different PHSM. Handwashing (albeit measured only in rounds 4 and 5) is the most prevalent and sustained type of PHSM. For example, in round 5, just forty percent of respondents had practised handwashing in the last four weeks. Noting that handwashing pre-dated COVID-19 and is relevant well beyond COVID-19, its endurance over other PHSM was understandable. By contrast, about one-third of respondents reported mask-wearing (face covering). The rest of the PHSM were practised by a lower share of respondents, which had drastically dropped over time. This was particularly the case with measures such as not attending the mosque and avoiding social gatherings.

3.2. Vaccination Personas

3.2.1. Persona 1: Willing to Be Vaccinated

There is some scant evidence that those willing to get vaccinated were slightly younger (Table 2), although the relationship between age and willingness to vaccinate is statistically insignificant. Furthermore, about a third of those with college degrees and close to half of respondents with higher degrees tended to be willing to be vaccinated. Consistent with the established notion from other countries and studies of other health practices, men were more likely than women to be willing to receive a COVID-19 vaccination. About a third of those who felt at risk of becoming infected with the virus were willing to receive at least one dose of the vaccine. Table 2 also provides some evidence that this vaccination persona tended also to adhere to public health and social measures (PHSM). For example, more than a third of those who practised social distancing were willing to receive the COVID-19 vaccine. Similarly high was the share of these respondents who stayed away from the mosque and were willing to receive a vaccination.
Table 3 summarises the analysis of vaccination status and knowledge regarding COVID-19. There are a few conclusions that stem from the table. First, the willingness to be vaccinated increased as knowledge about protecting oneself from the virus increased. More specifically, 40.6% of those with excellent knowledge about how to protect themselves were willing to be vaccinated. Similarly, willingness to be vaccinated increased as trust in the official information from authorities and their ability to deal with the virus increased. In addition, willingness to be vaccinated is a function of risk perception of the dangers of the virus. For example, 40.3% of respondents who thought the virus was dangerous were willing to be vaccinated.
We next turned to the link between vaccination status and beliefs about COVID-19 vaccines (Table 4). Consistent with the existing research, positive beliefs about the vaccine are associated with a higher willingness to be vaccinated. Nearly half (48.2%) of respondents who thought that the vaccine is effective were willing to be vaccinated. Similar findings emerged when considering beliefs about side effects. The results from the previous two rounds are reported in Appendix A, Table A3, and they were consistent with the findings emerging from round 5.
Various sources of information could be used as a vehicle to increase vaccine acceptance and, thus, vaccine uptake. This, however, depends on what type of information source is most trusted vis-à-vis COVID-19 vaccines. Against this background, we next turned to the link between vaccination status and the most trusted source of information (Table 5). Half (50%) of respondents listing community leaders as the most trusted COVID-19 information source were willing to be vaccinated (Table 5). Similar findings emerged from the previous two rounds (Appendix A, Table A4). In addition, in some of the previous rounds (e.g., round 3) we also found evidence that those who listed community healthcare workers as a trusted source of information were more likely to be willing to receive a COVID-19 vaccination. This persona tends to trust communication materials and community leaders more than other personas trust these sources of information.

3.2.2. Persona 2: Not Vaccinated and Undecided

As in the case above, here as well, age, gender, and education were the main correlates of this persona (not vaccinated and undecided). A large share of the unemployed (38%) were undecided regarding a possible vaccination, suggesting a link to employer encouragement being a strong incentive for vaccination. About a third of those with no opinion regarding potential infection with the virus were undecided regarding obtaining a vaccine. Furthermore, no discernible link emerged between practising PHSM and being undecided about potentially obtaining a COVID-19 vaccination. About a quarter of those who believed that the vaccine is effective were undecided regarding taking it (slightly lower compared to those who did not think that there were serious side effects if/when taking the vaccine). This persona appeared to draw information from a wide range of sources, which may be contradictory.

3.2.3. Persona 3: Not Willing to Get Vaccinated

As with the persona above, here as well, we found some evidence that this vaccination persona was older than the other categories. In addition, less educated by a significant margin. About two-thirds of respondents who could not read and write were not willing to get vaccinated. About half of women were unwilling to obtain a COVID-19 vaccine (about 15 percentage points higher than men). Almost two-thirds (63.5%) of respondents who stated that they did not believe they were likely to get infected with the virus were also unwilling to be vaccinated. Table 2 also provides the results of the link between vaccination status and practising different PHSM (wearing a mask in public, washing hands, keeping physical distance, and staying away from crowds/the mosque). The question on the PHSM practice was asked in reference to two time periods: 10 months ago and four weeks ago. The results of this analysis were unequivocal: those who did not practice PHSM were also less likely to be willing to be vaccinated. For example, 48.3% of respondents who claimed they did not wear a mask in public were unwilling to be vaccinated.
This vaccination persona was less knowledgeable about the COVID-19 virus (Table 3). For example, 81.4% of those with no knowledge were unwilling to obtain the vaccine. By the same token, this persona tended to believe that the virus is not dangerous. More specifically, 72.5% of those claiming the virus is not dangerous were unwilling to be vaccinated. Furthermore, this vaccination persona held negative attitudes and beliefs towards the vaccines. For example, about half (52%) of respondents who did not think that the vaccine is effective were unwilling to be vaccinated (Table 4). Finally, this group of people tended to trust their family and friends more than other personas for information regarding COVID-19.
As a complementary analysis, we also conducted the standard logit modelling analysis, where the three vaccination personas appeared as dependent variables in three separate models. The explanatory variables were grouped into three major groups: (i) socio-demographic variables (e.g., age, gender); (ii) practising some of the most common public health and social measures (e.g., wearing a mask, washing hands); and (iii) beliefs about the COVID-19 vaccines (e.g., effectiveness, side effects). The results are reported as Appendix A tables (Table A4, Table A5 and Table A6). The analysis supports the findings from the descriptive statistics; more specifically, certain demographic variables (e.g., gender) and variables capturing beliefs about COVID-19 vaccines explained the decision to obtain a COVID-19 vaccination.
In order to capture the PHSM/vaccination status nexus over time, we pooled the three waves together and used the three vaccination personas as dependent variables in three separate bivariate logit models (where the variables capturing different PHSM were used as independent variables). We repeated the analysis twice, first using PHSM practised over the last ten months and then over the last four weeks. The models also controlled for the survey wave (i.e., taking into account any temporal changes occurring over the three different waves). The findings (reported in Appendix A, Table A7 and Table A8) were unequivocal: those more willing to be vaccinated were also more willing to adhere to various PHSM (both over the last ten months as well as over the last four weeks).

4. Discussion

To the best of our knowledge, this is the first comprehensive attempt to describe various vaccination personas in Yemen, relying on a sample covering the entire country and spanning three points in time. In that respect, there are a few interesting findings that emerge from this study. First, our findings on the socio-demographic characteristics of vaccination willingness are consistent with the existing evidence. A recent paper using two waves of repeated cross-sectional surveys from the Middle East, North Africa, and Eastern Mediterranean region [11], for example, found that men, on average, were more likely to be vaccinated and to be willing to be vaccinated once vaccines were available to them. The same study also posits that men may be also advantaged by their higher level of mobility than women in parts of the region, and their higher engagement in formal employment, which may offer additional incentives for vaccination. The same study showed that women were disproportionately affected by misinformation about fertility, which also seemed to affect their willingness to be vaccinated. In addition, it has been argued that women are more likely to embrace conspiracy theories about the virus [12]. Other potential factors that can contribute to higher rates of vaccine hesitancy among females include the higher levels of fear of injections or side effects and the observation that the disease is more deadly in males [12]. Furthermore, in countries where men have greater access to healthcare services and the means to pay for vaccination than women, men may be more interested in the COVID-19 vaccination [13,14].
A study by Bitar et al. [7], also found that men were more likely to be willing to be vaccinated, while women were more likely to reject the vaccine. That study also finds that those with lower income are likely to reject the vaccines. While in our study, we did not have a variable capturing income, our variable on education attainment could be considered as a proxy for socio-economic status.
We also found that respondents who were practising some forms of preventative measures (e.g., wearing a mask, washing hands, practising social distancing) were more likely to be willing to obtain a vaccination. This finding supports the general health motivation construct in the health belief model [15], and aligns with social identity theory [16], which suggests that people who practise one health behaviour (such as vaccination) are more likely to practise others, such as PHSM in relation to the containment of COVID-19. Some of these associations were explored in a recent paper involving two rounds of repeated cross-sectional data on 14,000 respondents from the wider MENA region [11].
One of our principal findings relates to the link between vaccine beliefs and willingness to be vaccinated. To date, a large body of evidence stemming from the Middle East, North Africa, and Eastern Mediterranean region has also documented the link between vaccine beliefs and vaccination status. A study about vaccination among healthcare workers in Egypt, for example, found that the reasons for vaccine acceptance revolved around safety and effectiveness, while fear of side effects was the main reason for vaccine hesitancy [17]. Concerns about safety as well as a general lack of trust in the vaccines, were the main reason for vaccine hesitancy among healthcare workers in Sudan and Iraq [18,19]. Lack of trust in vaccine effectiveness and fear of side effects were the also main reasons for refusing to be vaccinated among the general population [17,20,21,22], while the belief in the effectiveness and benefits associated with the COVID-19 vaccination were the main reasons for vaccine acceptance [20,23].
These findings need to be interpreted within the broader context of the political situation in Yemen, which affected the availability of accurate information and vaccination services (including the availability of vaccines), particularly in the northern DFA (de facto authority)-controlled provinces. Across Yemen, a variety of misinformation about COVID-19 immunisation has taken root. The most frequently stated reasons for poor vaccination uptake by key informants in a study by Bin Ghouth and Al-Kaldy [9] were comparable to the findings of a sub-national survey carried out in early 2021 [24]. Some participants in that study saw the vaccination as a planned “scheme” that posed a danger to their health. Some individuals felt that the vaccination would cause death over time rather than instantly. Some claimed that the vaccine effort is a plot to create Muslim infertility [25]. Others said that the West was supplying Yemen with inadequate vaccinations [26]. People in the northern regions, on the other hand, did not see COVID-19 as a danger [24].
Finally, we found that respondents using certain sources of information (e.g., community leaders and volunteers) were more likely to be willing to be vaccinated. Compared to the regional average, trust in health workers is lower in Yemen, which can reasonably be expected to have an impact on vaccine uptake; the research in the area of vaccine demand generation has distilled two approaches. The first, more passive one, has relied on the use of mass media (TV and radio) and printed materials (banners, leaflets, posters) [27]. The second approach involved deeper face-to-face engagement with households and individual caregivers—often by trained volunteers from the community using interpersonal communication and behaviour change approaches. The success of this approach relies on extensive efforts by the community outreach workers to directly interact with the community as well as with individual caregivers. Even though the second approach is more labour intensive (and more expensive), it may also yield higher returns per contact when it comes to vaccination uptake, especially given the lower trust in health workers in Yemen.
There are some limitations associated with this research. First, the analysis is descriptive and only explores the correlation between vaccination status and the variables of interest. Correlations may be confounded by other observed and unobserved variables. In that respect, we cannot infer any direct causal links by using this methodological approach. Second, some questions changed over the course of the five rounds (e.g., additional categories were added to the most trusted source of information question), which may have some implications on the overall responses collected through this question. As the estimation and projection of demographic data in Yemen is of poor quality, the survey did not develop survey weights. More specifically, the results were not weighted for survey weights to address the representativeness of the sample. These limitations notwithstanding, there are some broad conclusions that stem from this research. First, we found that gender and socio-demographic status (e.g., education attainment) were significant correlates of vaccination status, consistent with existing knowledge. Second, respondents with better knowledge about the virus and with better confidence in authorities’ (and their own) capacity to deal with the virus were more likely to be willing to be vaccinated. Consistent with the health belief model, practising one (or more) preventative measures in relation to COVID-19 was associated with a higher willingness to get a COVID-19 vaccination. In addition, beliefs around the COVID-19 vaccines were also linked to willingness (or lack of willingness) to obtain a vaccination. Finally, those who relied on community leaders/healthcare workers as trusted sources of COVID-19-related information were more willing to be vaccinated.
Finally, there are some broad policy recommendations that stem from this research effort. Any focus on individual motivation for vaccination relies on the basic requirement that adequate vaccination services are made available to all communities. That said, outreach to communities and a localised focus on the needs of those who are undecided about vaccination can be effective in increasing uptake, thereby also increasing the social norm around being vaccinated. Supplying them with information about the COVID-19 vaccines (e.g., safety, effectiveness, and side effects) and access to trusted and skilled health workers could mitigate fears and increase confidence in the vaccines. Identifying vaccination champions among families/communities could further allay some of the fears associated with vaccines (e.g., fears of side effects). Religious leaders and other community leaders (including females) can have a strong influence on communities in Yemen, both positively and negatively—and should be considered key partners, especially in terms of understanding and addressing the needs of local communities.

Author Contributions

Conceptualization, Z.N., A.G. and R.B.; methodology, Z.N., A.G. and R.B.; software, Z.N.; validation, R.B.; formal analysis, Z.N.; investigation, Z.N.; resources, A.A., H.H. and D.C.; data curation, Z.N.; writing—original draft preparation, Z.N., A.G., R.B. and L.M.; writing—review and editing, Z.N., A.G., R.B., L.M., A.A., H.H. and D.C.; visualization, Z.N.; supervision, A.G.; project administration, H.H. and A.A.; funding acquisition, A.G. All authors have read and agreed to the published version of the manuscript.

Funding

UNICEF has received grants from GAVI, via the ACT-A funding stream under the COVID-19 global response to support risk communication and community engagement for vaccination uptake, part of which supports the interventions reported herein.

Institutional Review Board Statement

This study was conducted by UNICEF for the purpose of guiding and informing Risk Communication and Community Engagement Interventions conducted by humanitarian agencies in Yemen and not as part of a formal process for academic research. The humanitarian agencies involved in designing the study including WHO as well as members of various coordination and decision-making bodies such as the COVID-19 task force and the Risk Communication Community Engagement working group concluded that the study poses no risk to participants given the aspects the study is researching and that no personal identifiable information about participants will be collected.

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

Data available upon request.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Table
Table A1. Round 3 and 4, vaccination status and demographic/socio-economic characteristics.
Table A1. Round 3 and 4, vaccination status and demographic/socio-economic characteristics.
Round 3Round 4
WillingNot WillingNot Sure WillingNot WillingNot Sure
%Number%Number%Numberchi2 p-Value %Number%Number%Numberchi2 p-Value
Age Age
 less than 2025.82344.94029.2260.3 less than 2029.83147.14923.1240.1
 21 to 3024.59945.818529.7120 21 to 3034.515337.516628.0124
 31 to 4025.811247.920826.3114 31 to 4031.813741.818026.5114
 41 to 5024.37144.513031.291 41 to 5037.79536.59225.865
 51 to 6015.01757.56527.431 51 to 6030.74350.77118.626
 61 to 7026.3552.61021.14 61 to 7021.4653.61525.07
 71 and above60.0340.020.00  71 and above0.000.000.00
Education Education
 can’t read and write15.51949.66135.043<0.001 can’t read and write18.72651.17130.242<0.001
 can read and write18.54550.612330.975 can read and write28.86346.110125.155
 basic26.44248.47725.240 basic34.76046.88118.532
 secondary23.09251.320525.8103 secondary34.513441.816223.792
 college degree28.311542.317229.5120 college degree36.516333.314930.2135
 masters or phd65.41715.4419.25 masters or phd60.62027.3912.14
Gender Gender
 female22.313946.028731.7198<0.001 female31.819139.023429.2175<0.001
 male26.019148.435525.6188 male34.427542.433923.2185
Occupation Occupation
 agricultural15.71955.46728.935<0.001 agricultural25.23749.77325.237<0.001
 educational27.95640.88231.363 educational42.310231.17526.664
 housewife20.16548.515731.5102 housewife30.58543.712225.872
 office33.15747.78219.233 office40.16732.95527.045
 student26.95243.58429.557 student28.55142.57629.152
 unemployed14.01353.85032.330 unemployed26.62148.13825.320
 handicraft20.82756.27323.130 handicraft32.86547.59419.739
 other33.14137.94729.036 other34.93836.74028.431
Likley to become sick with COVID-19 Likley to become sick with COVID-19
 I don’t know22.612538.521338.9215<0.001 I don’t know21.711043.321935.0177<0.001
 Yes29.316449.127521.6121 Yes44.730636.525018.8129
 No16.74162.915420.450 No24.05050.010426.054
Public Health and Social Measures over the last 10 monthsWillingNot willingNot sure Public Health and Social Measures over the last 10 monthsWillingNot willingNot sure
Practiced social distancing%number%number%numberchi2 p-valuePracticed social distancing%number%number%numberchi2 p-value
 No20.718950.946428.4259<0.001 No32.828944.038823.2205<0.001
 Yes31.614139.917828.5127 Yes34.217735.818530.0155
Worn a mask Worn a mask
 No14.57457.029228.5146<0.001 No23.49448.319428.4114<0.001
 Yes30.325641.435028.4240 Yes37.337238.037924.7246
Stayed away from the mosque Stayed away from the mosque
 No23.628148.758027.8331<0.001 No32.737242.147925.22860.2
 Yes29.54937.46233.155 Yes35.99435.99428.274
Wash hands
 No20.46256.317123.471<0.001
 Yes36.940436.740226.4289
Avoided social gatherings Avoided social gatherings
 No19.914054.738425.4178<0.001 No32.927643.836723.3195<0.001
 Yes29.019039.325831.7208 Yes33.919036.720629.4165
Public Health and Social Measures over the last 4 weeksWillingNot willingNot sure Public Health and Social Measures over the last 4 weeksWillingNot willingNot sure
Practiced social distancing%number%number%numberchi2 p-valuePracticed social distancing%number%number%numberchi2 p-value
 No21.223449.354329.5325<0.001 No32.440541.852325.93240.1
 Yes37.59638.79923.861 Yes41.56134.05024.536
Worn a mask Worn a mask
 No20.218552.047527.8254<0.001 No26.122744.738829.2254<0.001
 Yes32.714537.616729.7132 Yes45.123934.918520.0106
Stayed away from the mosque Stayed away from the mosque
 No23.931247.662128.5371<0.001 No33.145441.056225.93550.5
 Yes33.31838.92127.815 Yes42.91239.31117.95
Washed hands
 No21.114850.035028.9202<0.001
 Yes45.531831.922322.6158
Avoided social gatherings Avoided social gatherings
 No22.223250.252527.6289<0.001 No32.240442.853725.1315<0.001
 Yes31.49837.511731.197 Yes43.46225.23631.545
Table
Table A2. Round 3 and Round 4, vaccination status and knowledge regarding COVID-19.
Table A2. Round 3 and Round 4, vaccination status and knowledge regarding COVID-19.
Round 3Round 4
WillingNot WillingNot Sure WillingNot WillingNot Sure
Knowledge to protect yourself from the virus%number%number%numberchi2 p-valueKnowledge to protect yourself from the virus%number%number%numberchi2 p-value
 No knowledge6.0467.24526.918<0.001 No knowledge3.7159.31637.010<0.001
 needs improvement18.18953.326228.7141 needs improvement25.78348.315626.084
 good25.913345.323328.8148 good36.322441.825822.0136
 very good 32.55342.36925.241 very good 33.68635.29031.380
 excellent41.85127.13331.238 excellent41.17230.35328.650
Trust in the official information from the authorities Trust in the official information from the authorities
 No confidence9.03067.522623.679<0.001 No confidence23.34947.19929.562<0.001
 little confidence26.012742.320731.7155 little confidence35.615944.119720.491
 confident33.111442.414624.484 confident35.216238.017526.7123
 total confidence47.14124.12128.725 total confidence39.96329.84730.448
Trust in the ability of the health authorties to deal with the virus Trust in the ability of the health authorties to deal with the virus
 No confidence16.0 57.2 26.7 0.0 No confidence28.9 41.2 29.9 0.0
 little confidence28.6 41.2 30.2  little confidence38.9 41.4 19.8
 confident34.6 42.7 22.8  confident41.5 44.0 24.6
 total confidence56.8 16.2 27.0  total confidence39.5 35.5 25.0
Trust in your own ability to deal with the virus Trust in your own ability to deal with the virus
 No confidence17.64951.814430.685<0.001 No confidence26.812545.917827.3129<0.001
 little confidence22.611046.622730.8150 little confidence32.418538.919728.794
 confident31.011948.218520.880 confident35.17843.410921.561
 total confidence30.63433.33736.040 total confidence42.13032.82725.119
How dangerous do you think the COVID-19 virus is How dangerous do you think the COVID-19 virus is
 it is not dangerous7.91474.713317.431<0.001 it is not dangerous9.21262.68228.237<0.001
 more or less dangerous17.66250.117732.3114 more or less dangerous37.219744.623618.296
 very dangerous32.425338.730228.9226 very dangerous35.725533.924230.5218
Table
Table A3. Round 3 and Round 4, vaccination status and COVID-19 vaccine beliefs.
Table A3. Round 3 and Round 4, vaccination status and COVID-19 vaccine beliefs.
WillingNot WillingNot Sure WillingNot WillingNot Sure
Vaccine is effective%number%number%numberchi2 p-valueVaccine is effective%number%number%numberchi2 p-value
 No17.612753.638628.8207<0.001 No13.68552.332734.1213<0.001
 Yes61.515318.14520.551 Yes58.137026.516915.498
Vaccine has side effects Vaccine has side effects
 No39.422729.717130.9178<0.001 No52.831827.416519.8119<0.001
 Yes13.55366.226020.480 Yes20.813750.233129.1192
Table
Table A4. Round 3 and Round 4, vaccination status and most trusted COVID-19 information source.
Table A4. Round 3 and Round 4, vaccination status and most trusted COVID-19 information source.
Round 3Round 4
Most Trusted SourceWillingNot WillingNot Sure Most Trusted SourceWillingNot WillingNot Sure
%Number%Number%Numberchi2 p-value %Number%Number%Numberchi2 p-value
TV TV
 first mention26.413945.423928.1148<0.001 first mention37.127541.530821.4159<0.001
 second mention30.07644.711325.364 second mention23.33147.46329.339
 third mention22.61432.32045.228 third mention34.31225.7940.014
Radio Radio
 first mention25.86743.911430.4790.2 first mention33.34737.65329.1410.8
 second mention37.02734.32528.821 second mention32.51332.51335.014
 third mention31.81431.81436.416 third mention28.0748.01224.06
Whatsapp Whatsapp
 first mention24.52646.24929.3310.8 first mention36.76233.15630.2510.1
 second mention29.62948.04722.522 second mention25.23449.66725.234
 third mention28.03047.75124.326 third mention27.31243.21929.613
Social media Social media
 first mention28.92641.13730.0270.6 first mention32.34139.45028.4360.9
 second mention29.02750.54720.419 second mention32.43334.33533.334
 third mention29.02744.14126.925 third mention29.82840.43829.828
Communication materials
 first mention36.42835.12728.6220.9
 second mention31.52837.13331.528
 third mention29.11636.42034.619
Health unit Health unit
 first mention24.83137.64737.647<0.001 first mention22.52252.05125.5250.1
 second mention23.01459.03618.011 second mention37.72633.32329.020
 third mention34.01627.71338.318 third mention30.81238.51530.812
Family Family
 first mention22.22040.03637.8340.7 first mention19.62746.46434.1470.1
 second mention18.71446.73534.726 second mention23.52048.24128.224
 third mention26.91841.82831.321 third mention8.1367.62524.39
Friends Friends
 first mention26.81544.62528.6160.4 first mention25.32143.43631.3261.0
 second mention27.41743.62729.018 second mention26.82246.33826.822
 third mention16.01245.33438.729 third mention19.4651.61629.09
Community health workers Community health workers
 first mention29.63748.06022.428<0.001 first mention32.04741.56126.5390.5
 second mention23.21940.23336.630 second mention36.83235.63127.624
 third mention46.52027.91225.611 third mention45.82231.31522.911
Volunteers Volunteers
 first mention34.74241.35024.0290.2 first mention34.22734.22731.7250.3
 second mention22.61454.83422.614 second mention33.31936.82129.817
 third mention39.22033.31727.514 third mention50.02020.0830.012
Community leaders Community leaders
 first mention27.6834.51037.9110.3 first mention25.0750.01425.070.2
 second mention10.0343.31346.714 second mention47.81134.8817.44
 third mention18.0950.02532.016 third mention18.8337.5643.87
Religious leaders Religious leaders
 first mention20.62043.34236.1350.1 first mention24.74047.57727.8450.6
 second mention20.01457.14022.916 second mention29.71143.21627.010
 third mention28.12350.04122.018 third mention28.42337.03034.628
Traditional healers Traditional healers
 first mention7.1128.6464.39<0.001 first mention22.2244.4433.330.2
 second mention0.0087.5712.51 second mention12.5275.01212.52
 third mention20.8541.71037.59 third mention38.9733.3627.85
A person from the community A person from the community
 first mention0.0050.0350.03<0.001 first mention25.0456.3918.830.7
 second mention0.00100.060.00 second mention18.2272.789.11
 third mention31.31025.0843.814 third mention20.7651.71527.68
Table
Table A5. Correlates of vaccination status: not vaccinated and willing.
Table A5. Correlates of vaccination status: not vaccinated and willing.
Logistic Regression
Willing to Get VaccinatedOdds RatiosSt. Err.t-Valuep-Value[95% ConfInterval]Sig
Age (relative to under 20)
21 to 301.1760.3870.490.6220.6172.241
31 to 401.0810.4150.200.8400.5092.294
41 to 500.8710.352−0.340.7330.3951.923
51 to 600.9160.438−0.180.8550.3592.338
61 to 701.0110.6740.020.9860.2743.732
71 and above2.8542.2391.340.1810.61313.278
Education (relative to cannot read and write)
Can read and write0.6460.319−0.890.3760.2451.702
Basic0.9390.477−0.130.9010.3472.540
Secondary0.8650.432−0.290.7710.3242.304
College degree1.2560.6550.440.6610.4523.490
Masters of PhD2.8871.7911.710.0880.8559.742*
Gender (relative to female)
Male2.6720.7623.450.0011.5294.671***
Occupation (relative to agriculture)
Education1.1140.5370.230.8220.4332.866
Housewife1.8380.9181.220.2230.6904.894
Office0.6070.288−1.050.2930.2391.539
Student1.4580.6950.790.4290.5733.711
Unemployed1.1720.7320.250.8000.3443.989
Handicraft0.8930.371−0.270.7860.3962.017
Other0.8470.441−0.320.7490.3062.348
Likely to become sick with COVID-19 (relative to do not know)
Yes1.0990.2190.470.6370.7431.624
No1.0070.3330.020.9840.5261.925
Practised social distancing in the last 10 months1.4780.3611.600.1100.9162.386
Wore face mask in the last ten months0.8720.238−0.500.6160.5111.488
Stayed away from mosque in the last ten months1.4220.4031.240.2140.8162.479
Washed hands in the last ten months2.9310.9533.310.0011.5505.542***
Avoided social events in the last ten months1.0970.2610.390.6990.6881.749
Practised social distancing in the last four weeks1.1480.5150.310.7590.4762.767
Wore face mask in the last four weeks0.8290.271−0.570.5670.4371.573
Stayed away from mosque in the last four weeks0.9120.476−0.170.8610.3282.538
Washed hands in the last four weeks0.5400.143−2.330.0200.3210.906**
Avoided social events in the last four weeks1.7360.6411.500.1350.8423.579
Trust in the official information (relative to no trust)
Little confidence0.7640.327−0.630.5300.3301.768
Confident1.5320.6820.960.3380.6403.668
Total confidence2.1181.0501.510.1300.8025.595
Trust in your own ability to deal with the virus (relative to no trust)1.000
Little confidence1.0740.3280.230.8140.5911.954
Confident1.3620.4440.950.3440.7192.580
Total confidence1.1560.5990.280.7800.4193.190
The virus is dangerous (relative to it is not)1.000
More or less dangerous4.7422.5122.940.0031.67913.391***
Very dangerous14.2337.6624.930.0004.95540.883***
Other22.19529.7732.310.0211.601307.662**
Vaccine is effective6.7991.6847.740.0004.18411.049***
Vaccine has side effects0.1620.031−9.520.0000.1110.235***
Constant0.0060.006−5.290.0000.0010.039***
Mean dependent var0.320SD dependent var0.467
Pseudo r-squared0.333Number of obs1128.000
Chi-square209.738Prob > chi20.000
Akaike crit. (AIC)1029.857Bayesian crit. (BIC)1246.070
*** p < 0.01, ** p < 0.05, * p < 0.1.
Table
Table A6. Correlates of vaccination status: not vaccinated and unwilling.
Table A6. Correlates of vaccination status: not vaccinated and unwilling.
Logistic Regression
Not Vaccinated and Not WillingOdds RatiosSt. Err.t-Valuep-Value[95% ConfInterval]Sig
Age (relative to under 20)1.000
21 to 301.0170.3400.050.9600.5281.958
31 to 401.0660.4050.170.8650.5072.244
41 to 501.0580.4180.140.8870.4882.294
51 to 601.2780.5510.570.5700.5482.976
61 to 700.8910.584−0.180.8600.2463.223
71 and above0.7900.691−0.270.7870.1424.389
Education (relative to cannot read and write)1.000
Can read and write0.9480.353−0.140.8870.4571.968
Basic0.7510.295−0.730.4660.3471.623
Secondary0.8100.307−0.560.5790.3851.704
College degree0.7000.287−0.870.3840.3141.563
Masters of PhD0.6110.305−0.990.3230.2301.624
Gender (relative to female)1.000
Male0.5870.123−2.540.0110.3890.886**
Occupation (relative to agriculture)1.000
Education0.6670.249−1.080.2780.3211.385
Housewife0.5830.213−1.480.1400.2851.193
Office0.9730.353−0.070.9400.4781.980
Student0.6520.257−1.080.2780.3001.413
Unemployed0.5940.258−1.200.2300.2541.390
Handicraft0.9290.276−0.250.8050.5191.664
Other0.6780.282−0.940.3500.3001.531
Likely to become sick with COVID-19 (relative to do not know)1.000
Yes1.1090.1840.620.5330.8011.535
No1.5620.3921.780.0760.9552.556*
Practised social distancing in the last 10 months0.7500.146−1.480.1390.5121.098
Wore face mask in the last ten months0.9890.206−0.050.9590.6581.487
Stayed away from mosque in the last ten months1.0270.2430.110.9090.6471.632
Washed hands in the last ten months0.5520.125−2.630.0080.3540.859***
Avoided social events in the last ten months0.6740.119−2.240.0250.4780.952**
Practised social distancing in the last four weeks1.7820.7911.300.1930.7474.252
Wore face mask in the last four weeks0.7640.195−1.050.2920.4631.261
Stayed away from mosque in the last four weeks1.9631.0431.270.2040.6935.559
Washed hands in the last four weeks1.2240.2481.000.3190.8231.820
Avoided social events in the last four weeks0.4480.180−2.000.0460.2030.985**
Trust in the official information (relative to no trust)1.000
Little confidence0.7950.223−0.820.4140.4591.378
Confident0.6110.174−1.730.0840.3491.068*
Total confidence0.5930.217−1.430.1540.2901.215
Trust in your own ability to deal with the virus (relative to no trust)1.000
Little confidence1.0350.2170.170.8690.6861.562
Confident0.8730.203−0.580.5590.5531.378
Total confidence0.8730.361−0.330.7420.3881.964
The virus is dangerous (relative to it is not)1.000
More or less dangerous0.4570.104−3.440.0010.2930.715***
Very dangerous0.2440.057−6.000.0000.1540.387***
Other0.1910.198−1.600.1100.0251.453
Vaccine is effective0.4840.084−4.190.0000.3450.680***
Vaccine has side effects1.4440.2352.260.0241.0501.986**
Constant10.0676.7703.430.0012.69437.610***
Mean dependent var0.362SD dependent var0.481
Pseudo r-squared0.150Number of obs1128.000
Chi-square170.972Prob > chi20.000
Akaike crit. (AIC)1340.615Bayesian crit. (BIC)1556.828
*** p < 0.01, ** p < 0.05, * p < 0.1.
Table
Table A7. Correlates of vaccination status: not vaccinated and not decided.
Table A7. Correlates of vaccination status: not vaccinated and not decided.
Logistic Regression
Not Vaccinated and Not DecidedOdds RatiosSt. Err.t-Valuep-Value[95% ConfInterval]Sig
Age (relative to under 20)1.000
21 to 300.9760.303−0.080.9370.5311.792
31 to 401.1130.3910.300.7610.5592.216
41 to 501.1910.4350.480.6330.5822.438
51 to 601.0700.4480.160.8720.4712.430
61 to 701.4120.9320.520.6020.3875.151
71 and above0.8300.686−0.230.8210.1644.197
Education (relative to cannot read and write)1.000
Can read and write1.7770.7181.420.1550.8043.924
Basic1.8300.7741.430.1530.7994.192
Secondary1.7670.7351.370.1710.7823.992
College degree1.6330.7241.100.2690.6843.894
Masters of PhD0.9040.509−0.180.8570.3002.726
Gender (relative to female)1.000
Male0.9520.188−0.250.8040.6461.402
Occupation (relative to agriculture)1.000
Education1.4420.5430.970.3310.6893.018
Housewife1.3200.4900.750.4540.6382.731
Office1.5030.5481.120.2630.7363.071
Student1.2710.5070.600.5480.5822.778
Unemployed1.6370.7651.050.2920.6554.089
Handicraft1.1770.3740.510.6090.6312.194
Other1.6830.7501.170.2430.7034.029
Likely to become sick with COVID-19 (relative to do not know)1.000
Yes0.7710.122−1.650.0990.5661.050*
No0.5220.137−2.470.0130.3110.874**
Practised social distancing in the last 10 months0.9280.182−0.380.7030.6321.362
Wore face mask in the last ten months1.2700.2631.160.2470.8471.905
Stayed away from mosque in the last ten months0.7900.201−0.930.3520.4801.299
Washed hands in the last ten months1.0250.2310.110.9140.6591.595
Avoided social events in the last ten months1.3110.2251.580.1150.9371.834
Practised social distancing in the last four weeks0.6830.274−0.950.3420.3111.499
Wore face mask in the last four weeks1.3480.3391.190.2340.8242.206
Stayed away from mosque in the last four weeks0.2580.204−1.710.0870.0551.218*
Washed hands in the last four weeks1.4270.2981.700.0880.9482.150*
Avoided social events in the last four weeks1.1120.3950.300.7660.5542.229
Trust in the official information (relative to no trust)1.000
Little confidence1.6130.4651.660.0970.9172.839*
Confident1.3610.3951.060.2890.7702.405
Total confidence1.0220.3970.060.9560.4772.188
Trust in your own ability to deal with the virus (relative to no trust)1.000
Little confidence0.9090.194−0.450.6560.5981.382
Confident0.8000.179−1.000.3190.5171.240
Total confidence1.1310.4970.280.7800.4772.678
The virus is dangerous (relative to it is not)1.000
More or less dangerous1.8130.4372.470.0141.1312.907**
Very dangerous1.3340.3301.170.2430.8222.166
Other1.9191.8500.680.4990.29012.695
Vaccine is effective0.5390.097−3.420.0010.3780.768***
Vaccine has side effects2.5360.4185.650.0001.8363.502***
Constant0.0720.049−3.900.0000.0190.270***
Mean dependent var0.318SD dependent var0.466
Pseudo r-squared0.077Number of obs1128.000
Chi-square104.632Prob > chi20.000
Akaike crit. (AIC)1388.300Bayesian crit. (BIC)1604.513
*** p < 0.01, ** p < 0.05, * p < 0.1.
Table
Table A8. Vaccination status and PHSM (over the last ten months) over time, pooled analysis.
Table A8. Vaccination status and PHSM (over the last ten months) over time, pooled analysis.
Logistic Regression
Willing to VaccinateCoef.St. Err.t-Valuep-Value[95% ConfInterval]Sig
Practised social distancing in the last 10 months1.1370.1191.220.2210.9261.395
Wore face mask in the last 10 months1.9420.2156.000.0001.5632.413***
Did not go to mosque in the last 10 months1.1920.1511.380.1670.9291.528
Avoided social events in the last 10 months0.9050.087−1.040.3000.7491.093
Washed hands in the last 10 months1.9100.2445.080.0001.4882.452***
Constant0.1720.023−13.320.0000.1330.223***
Mean dependent var0.307SD dependent var0.461
Pseudo r-squared0.035Number of obs2848.000
Chi-square113.752Prob > chi20.000
Akaike crit. (AIC)3404.417Bayesian crit. (BIC)3446.098
Not willing to vaccinateCoef.St. Err.t-valuep-value[95% ConfInterval]Sig
Practised social distancing in the last 10 months0.7900.076−2.440.0150.6540.955**
Wore face mask in the last 10 months0.6220.059−5.040.0000.5170.748***
Did not go to mosque in the last 10 months0.9200.114−0.670.5040.7221.174
Avoided social events in the last 10 months0.9140.083−0.990.3210.7651.092
Washed hands in the last 10 months0.5040.053−6.550.0000.4110.619***
Constant1.8860.1996.020.0001.5342.318***
Mean dependent var0.410SD dependent var0.492
Pseudo r-squared0.036Number of obs2848.000
Chi-square128.242Prob > chi20.000
Akaike crit. (AIC)3733.355Bayesian crit. (BIC)3775.035
UndecidedCoef.St. Err.t-valuep-value[95% ConfInterval]Sig
Practised social distancing in the last 10 months1.1470.1191.320.1850.9361.406
Wore face mask in the last 10 months0.9520.099−0.470.6350.7761.167
Did not go to mosque in the last 10 months0.8990.118−0.810.4200.6951.163
Avoided social events in the last 10 months1.2180.1172.050.0401.0091.470**
Washed hands in the last 10 months1.3050.1552.240.0251.0341.647**
Constant0.2590.031−11.140.0000.2040.329***
Mean dependent var0.283SD dependent var0.450
Pseudo r-squared0.007Number of obs2848.000
Chi-square22.641Prob > chi20.001
Akaike crit. (AIC)3382.133Bayesian crit. (BIC)3423.814
*** p < 0.01, ** p < 0.05, * p < 0.1.
Table
Table A9. Vaccination status and PHSM (over the last four weeks) over time, pooled analysis.
Table A9. Vaccination status and PHSM (over the last four weeks) over time, pooled analysis.
Logistic Regression
Willing to VaccinateCoef.St. Err.t-Valuep-Value[95% ConfInterval]Sig
Practised social distancing in the last 4 weeks1.1060.1910.580.5590.7881.553
Wore face mask in the last 4 weeks1.6650.1814.680.0001.3452.061***
Did not go to mosque in the last 4 weeks1.2590.4170.700.4870.6582.412
Avoided social events in the last 4 weeks1.2270.2061.220.2230.8831.706
Washed hands in the last 4 weeks1.8710.1995.880.0001.5182.305***
Constant0.2780.021−16.700.0000.2390.323***
Mean dependent var0.307SD dependent var0.461
Pseudo r-squared0.050Number of obs2848.000
Chi-square166.834Prob > chi20.000
Akaike crit. (AIC)3351.825Bayesian crit. (BIC)3393.506
Unwilling to vaccinateCoef.St. Err.t-valuep-value[95% ConfInterval]Sig
Practised social distancing in the last 4 weeks0.9240.159−0.460.6460.6591.295
Wore face mask in the last 4 weeks0.7740.084−2.370.0180.6260.957**
Did not go to mosque in the last 4 weeks1.4630.4861.150.2520.7632.804
Avoided social events in the last 4 weeks0.5810.107−2.940.0030.4050.835***
Washed hands in the last 4 weeks0.5610.056−5.800.0000.4620.682***
Constant1.0580.0720.830.4070.9261.209
Mean dependent var0.410SD dependent var0.492
Pseudo r-squared0.030Number of obs2848.000
Chi-square107.547Prob > chi20.000
Akaike crit. (AIC)3754.570Bayesian crit. (BIC)3796.251
UndecidedCoef.St. Err.t-valuep-value[95% ConfInterval]Sig
Practised social distancing in the last 4 weeks0.9790.184−0.110.9110.6781.414
Wore face mask in the last 4 weeks0.7550.088−2.410.0160.6010.949**
Did not go to mosque in the last 4 weeks0.4380.180−2.000.0450.1950.981**
Avoided social events in the last 4 weeks1.3730.2401.820.0690.9761.934*
Washed hands in the last 4 weeks1.0630.1160.560.5770.8581.315
Constant0.3660.028−13.060.0000.3150.426***
Mean dependent var0.283SD dependent var0.450
Pseudo r-squared0.007Number of obs2848.000
Chi-square22.906Prob > chi20.001
Akaike crit. (AIC)3382.811Bayesian crit. (BIC)3424.491
*** p < 0.01, ** p < 0.05, * p < 0.1.

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Vaccines 11 01272 g001 550
Figure 1. Vaccination status, over time, in %.
Figure 1. Vaccination status, over time, in %.
Vaccines 11 01272 g001
Vaccines 11 01272 g002 550
Figure 2. Selected PHSM, over time, in %.
Figure 2. Selected PHSM, over time, in %.
Vaccines 11 01272 g002
Table
Table 1. Descriptive statistics of the data used in the analysis.
Table 1. Descriptive statistics of the data used in the analysis.
Round 3 (March 2021)Round 4 (Aug/Sept 2021)Round 5 (April 2022)
%Number%Number%Number
Age
under 206.4897.41047.0101
21 to 3029.340831.644628.7416
31 to 4031.844330.743331.2452
41 to 5021.329618.125520.9303
51 to 609.112710.31459.4136
61 to 701.7232.1292.232
71 and above0.460.000.710
Education
cannot read and write10.014010.41477.2105
can read and write18.225515.622015.6226
basic12.016712.217314.9216
secondary28.740127.739131.0450
college degree29.340931.844927.8404
masters or PhD1.9262.3333.550
Gender
female46.665142.960634.1494
male53.474757.180766.0957
Occupation
agricultural9.012610.51498.9129
educational14.520317.124214.0203
housewife24.734519.928117.4252
office12.417311.816716.3237
student13.819312.717915.2220
unemployed6.9975.9844.160
handicraft9.713614.119919.0276
other8.91257.91125.174
Likely to become sick with COVID-19
I do not know40.755436.250638.0550
Yes41.356349.068549.8721
No18.124614.920812.3178
Trust in the official information from the authorities
no confidence26.833716.521014.6193
little confidence38.848935.144726.9356
confident27.434536.146050.7670
total confidence7.08812.41587.8103
PHSM in the last 10 months
practised social distancing32.844737.051721.4310
worn a mask62.384971.399774.31077
washed handsN/AN/A78.3109582.01188
PHSM in the last 4 weeks
practised social distancing18.925710.51473.957
worn a mask32.744637.953032.1464
washed handsN/AN/A50.069942.6617
Notes: PHSM—public health and social measures.
Table
Table 2. Round 5, vaccination status and socio-demographic characteristics.
Table 2. Round 5, vaccination status and socio-demographic characteristics.
WillingNot SureNot Willing
%Number%Number%Numberchi2 p-Value
Age
under 20373732323131<0.001
21 to 3033.413930.812835.8149
31 to 4029.313229.513341.2186
41 to 5021.565329746.5141
51 to 6018.42532.44449.367
61 to 7018.8625856.318
71 and above303303404
Education
cannot read and write14.31518.11967.671<0.001
can read and write18.14129.26652.7119
basic347329.86436.378
secondary28.712933.615137.8170
college degree31.312632.513136.2146
masters or PhD482428142412
Gender
female19.59629.914750.6249<0.001
male32.631231.129836.3347
Occupation
agricultural141828.73757.474<0.001
educational30.16134693673
housewife16.74228.77254.6137
office31.274358333.880
student38.88531.16830.166
unemployed201238.32341.725
handicraft30.88527.57641.7115
other41.931231735.126
Likely to become sick with COVID-19
I do not know20.911533.618545.5250<0.001
yes36.826530.922332.3233
no15.72820.83763.5113
Public Health and Social Measures over the last 10 monthsWillingNot sureNot willing
Practised social distancing%number%number%numberchi2 p-value
no25.929530.735043.4494<0.001
yes36.511330.79532.9102
Worn a mask
no13.24925.39461.6229<0.001
yes33.335932.635134.1367
Stayed away from the mosque
no26.73453140042.3547<0.001
yes40.16328.74531.249
Wash hands
no13.83624.16362.1162<0.001
yes31.337232.238236.5434
Avoided social gatherings
no26.426329.629544438<0.001
yes3214533.115034.9158
Public Health and Social Measures over the last 4 weeksWillingNot sureNot willing
Practised social distancing%number%number%numberchi2 p-value
no27.53833143141.5578<0.001
yes43.92524.61431.618
Worn a mask
no2120730.730248.3476<0.001
yes43.320130.814325.9120
Stayed away from the mosque
no27.73943144241.3589<0.001
yes58.31412.5329.27
Wash hands
no21.417829.724748.9407<0.001
yes37.323032.119830.6189
Avoided social gatherings
no27.23773143041.9581<0.001
yes50.83124.61524.615
Table
Table 3. Round 5, vaccination status and knowledge regarding COVID-19.
Table 3. Round 5, vaccination status and knowledge regarding COVID-19.
Willing Not SureNot Willing
Knowledge to Protect Yourself from the Virus%Number%Number%Numberchi2 p-Value
no knowledge2.3116.3781.435<0.001
needs improvement12.33227.37160.4157
good32.326533.727734279
very good 28.95434.86536.468
excellent40.65618.12541.357
Trust in the official information from the authorities
no confidence142722.84463.2122<0.001
little confidence18.56636.513044.9160
confident37.625231.521130.9207
total confidence42.74421.42235.937
Trust in your own ability to deal with the virus
no confidence19.52529.73850.865<0.001
little confidence16.35433.511150.2166
confident34.422631.220534.4226
total confidence41.27027.14631.854
How dangerous do you think the COVID-19 virus is
it is not dangerous2.6724.96672.5192<0.001
more or less dangerous29.51893321137.5240
very dangerous40.321031.116228.6149
Table
Table 4. Round 5, vaccination status and COVID-19 vaccine beliefs.
Table 4. Round 5, vaccination status and COVID-19 vaccine beliefs.
WillingNot SureNot Willing
Vaccine Is Effective%Number%Number%Numberchi2 p-Value
no10.36537.723852328<0.001
yes48.233925.818126183
Vaccine has side effects
no48.131722.915129191<0.001
yes12.98739.726847.7320
Table
Table 5. Round 5, vaccination status and most trusted COVID-19 information source.
Table 5. Round 5, vaccination status and most trusted COVID-19 information source.
Most Trusted SourceWillingNot SureNot Willing
%Number%Number%Numberchi2 p-Value
TV
first mention35.625228.420136255<0.001
second mention15.815393745.343
third mention22.6735.51141.913
Radio
first mention16.81937.24246520.56
second mention10.3337.91151.715
third mention28.6421.43507
Whatsapp
first mention33.14633.84733.1460.21
second mention28.62229.92341.632
third mention14.7535.3125017
Social media
first mention36.45134.34829.3410.21
second mention37.13931.43331.433
third mention21.21134.61844.223
Communication materials
first mention473127.31825.8170.16
second mention42.91835.71521.49
third mention20540104010
Health unit
first mention29.53122.92447.6500.32
second mention18.41626.42355.248
third mention301230124016
Family
first mention10.42324.35465.31450.07
second mention17.91727.42654.752
third mention23.79291147.418
Friends
first mention283022.42449.5530.03
second mention20.62124.52554.956
third mention6.7431.71961.737
Community health workers
first mention26.83732.64540.6560.29
second mention25.62128.12346.338
third mention21.31321.31357.435
Volunteers
first mention39.54323.92636.7400.35
second mention27.11924.31748.634
third mention33.31531.11435.616
Community leaders
first mention5082542540.07
second mention5.9147.1847.18
third mention2463284411
Religious leaders
first mention22.33733.75644730.52
second mention25.62224.4215043
third mention23.21925.62151.242
Traditional healers
first mention30.8415.4253.970.27
second mention253253506
third mention0045.5554.66
A person from the community
first mention44.4422.2233.330.2
second mention66.760033.33
third mention28.6835.71035.710
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Nikoloski, Z.; Chimenya, D.; Alshehari, A.; Hassan, H.; Bain, R.; Menchini, L.; Gillespie, A. COVID-19 Vaccination Personas in Yemen: Insights from Three Rounds of a Cross-Sectional Survey. Vaccines 2023, 11, 1272. https://doi.org/10.3390/vaccines11071272

AMA Style

Nikoloski Z, Chimenya D, Alshehari A, Hassan H, Bain R, Menchini L, Gillespie A. COVID-19 Vaccination Personas in Yemen: Insights from Three Rounds of a Cross-Sectional Survey. Vaccines. 2023; 11(7):1272. https://doi.org/10.3390/vaccines11071272

Chicago/Turabian Style

Nikoloski, Zlatko, Dennis Chimenya, Abdullah Alshehari, Hauwa Hassan, Robert Bain, Leonardo Menchini, and Amaya Gillespie. 2023. "COVID-19 Vaccination Personas in Yemen: Insights from Three Rounds of a Cross-Sectional Survey" Vaccines 11, no. 7: 1272. https://doi.org/10.3390/vaccines11071272

APA Style

Nikoloski, Z., Chimenya, D., Alshehari, A., Hassan, H., Bain, R., Menchini, L., & Gillespie, A. (2023). COVID-19 Vaccination Personas in Yemen: Insights from Three Rounds of a Cross-Sectional Survey. Vaccines, 11(7), 1272. https://doi.org/10.3390/vaccines11071272

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