1. Introduction
Coronavirus disease 2019 (COVID-19) is continuously spreading around the globe, despite the fact that exhaustive steps have been taken, including a universal vaccination campaign against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus, which is anticipated to be the most effective preventative strategy for restricting the pandemic’s spread [
1,
2]. The pandemic is likely to continue to cause an important rise in mortality [
3,
4] and disrupt global communities and economies while generating a worldwide public health disaster that continues to spread and cause severe economic and social consequences [
5,
6]. The increase in incidence has prompted the adoption of new treatment methods, but with little effectiveness [
7,
8,
9]. The development of a vaccine, in particular, was pursued as a more practical and effective means to prevent and terminate the spread of SARS-CoV-2 and its detrimental effects on healthcare systems and patients with special needs [
10,
11,
12].
In the past year, the public’s focus has been concentrated on the improvement and adoption of a vaccine that can serve as a reliable and cost-effective preventive tool against infections and severe disease forms, and a variety of COVID-19 vaccines are either in the clinical trials phase or have been approved for emergency use in many countries [
13,
14]. While some laboratories and private businesses have manufactured vaccines against SARS-CoV-2 using well-known methods, others have pursued the development of genetically engineered vaccines [
15]. Among the most popular ones, Pfizer/BioNTech (Reinbek, Germany), AstraZeneca (Oxford, UK), Moderna (Norwood, MA, USA), and Johnson & Johnson’s Janssen (New Brunswick, NJ, USA) COVID-19 vaccines are now approved and undergoing trials while being distributed all around the globe. Despite this, corporations were under immense pressure to accelerate the manufacturing process, which led to widespread skepticism over their effectiveness and safety [
16,
17,
18]. However, the urgency of the situation demanded the quick implementation of global immunization procedures.
With the development of effective COVID-19 vaccines, herd immunity must be achieved by the widespread vaccination of the entire population. In addition to vaccination safety, efficacy, and cost-efficiency, public acceptability is a major factor in determining overall effectiveness [
19]. Since the beginning of the vaccination campaign in late 2020, there have been more than 5 billion people fully vaccinated worldwide, accounting for a total of roughly 60% of the global population [
20]. In spite of strong warnings, the acceptability of the COVID-19 vaccination among the remaining 40% differs significantly across nations and groups, with distinct sociodemographic factors [
21]. Even among persons with chronic medical illnesses who are at a higher risk of negative consequences associated with SARS-CoV-2 infection, COVID-19 vaccination rates remain inadequate [
22,
23,
24]. Despite the availability of vaccination facilities, the phrase “vaccine reluctant” is widely used to characterize those who are uncertain about or unwilling to follow the guidelines [
25].
A spectrum of vaccine acceptability exists, ranging from a minority that vehemently opposes all vaccinations to a majority that is prepared to take all necessary immunizations [
26]. Vaccine-hesitant individuals are a heterogeneous group with varying levels of uncertainty and worries [
27,
28]. This group is of particular interest to public health services, as many vaccine-hesitant individuals may be influenced to change their attitudes and behaviors if their fears are handled effectively and systemic barriers to accessing health services are removed. Individuals who are not addressed about their vaccination refusal are not likely to adjust their beliefs. In order to restore society to its pre-pandemic state, it is essential to comprehend the factors that impact vaccination acceptance among various socioeconomic groups—particularly pregnant women, with their specific vulnerabilities [
29,
30,
31]. Therefore, the goal of this study was to investigate pregnant women’s perspectives on COVID-19 vaccination, with a particular focus on the variables behind COVID-19 vaccine acceptance, with the aim of addressing these factors to improve their acceptance.
2. Materials and Methods
2.1. Study Design and Participants
From 1 January 2022 to 1 May 2022, a cross-sectional study was conducted on pregnant outpatients at the Obstetrics and Gynecology Clinic of the Timisoara Municipal Emergency Hospital, associated with the University of Medicine and Pharmacy in Timisoara, Romania. Patients were told of the purpose and consequences of the research, and each patient signed a written informed consent form to be included in the present study. The surveys were delivered online, and data collection was performed based on complete answers received in parallel with paper records of the pregnant women followed at our clinic. All patients with a history of SARS-CoV-2 infection were excluded from the study, as well as incomplete questionnaires. Our research was conducted in accordance with the Helsinki Declaration’s guidelines for scientific studies involving human participants, and it was authorized by the Scientific Ethics Committee of the Timisoara Municipal Hospital on 23 December 2021 (code I-32467/23.12.2021).
2.2. Surveys and Variables
A convenience sampling strategy to calculate the appropriate sample size was employed, which was estimated to comprise at least 385 pregnant women, with a margin of error of 5% at a confidence level of 95%, and a vaccination rate estimate of 50% at the time of the research [
32]. Out of the 500 women who were requested to participate, 412 consented to participate in the research and fill out our questionnaires, of whom 67 failed to provide consistent and complete answers, leaving a total of 345 validated questionnaires. Out of the remaining pregnant women included in the study, 184 were vaccinated, and 161 were unvaccinated.
There were three standardized questionnaires that were validated and translated into Romanian before being given to the participants, including the HADS (Hospital Anxiety and Depression Scale), SF-12 (Short-Form Health Survey), and CORE-OM (CORE Outcome Measure Questionnaire). The HADS test is a 14-item [
33] tool used to assess depression and anxiety, including 7 questions designed to measure sadness and 7 questions designed to measure anxiety. Increased scores suggest a rise in anxiety and depressive symptoms, and a score of 11 or above indicates a clinical diagnosis. The SF-12 is a regularly used tool for assessing general health and health outcomes [
34], and was originally used to assess health-related quality of life. The SF-12 is a 12-item physical and mental health assessment questionnaire. The summary scores for the physical and mental components were generated in line with predetermined criteria. A low score implies poor mental and physical health. The CORE-OM is a 34-item validated self-report questionnaire with a five-point scale ranging from “never” to “most of/always” [
35]. All four aspects of women’s wellbeing, concerns and symptoms, everyday functioning, and risk/harm are documented. Mean and total scores were calculated to determine the level of global psychological discomfort. A higher score suggests improved health and less global suffering in terms of wellbeing, problems and symptoms, and everyday functioning. A high risk or harm score is indicative of increased psychological distress. Another set of unstandardized questions was created by the researchers with the aim of evaluating the perceptions of pregnant women towards accepting the COVID-19 vaccines. All surveyed questions were categorical “yes” or “no”.
2.3. Statistical Analysis
To perform descriptive and inferential statistics, the IBM SPSS Statistics for Windows, Version 26.0 (Armonk, NY, USA, IBM Corp), was utilized. Means and standard deviations were employed to describe continuous data, while absolute values and percentages were utilized to represent categorical variables. Student’s t-test was used to compare the mean values of the data examined in this investigation. In a multivariate backward stepwise logistic regression analysis, all variables with statistically significant differences between groups were included. Chi-squared and Fisher’s tests were used for proportional comparisons between the two research groups. The significance threshold was established at alpha = 0.05.
4. Discussion
The present study managed to identify several factors that are believed to determine the acceptance of COVID-19 vaccines among pregnant women or to be associated with women who choose to vaccinate. To date, there have been several studies researching COVID-19 vaccination hesitancy and acceptance in the general population or among certain categories of people, while fewer had the purpose of studying the determining factors for acceptance among pregnant women in Romania, as a country with a COVID-19 vaccination campaign that did not develop adequately compared with the other countries in the European Union community. Therefore, as of May 2022, Malta had the highest COVID-19 immunization rate in Europe, having provided 248 doses per 100 persons, while Romania was the second-least vaccinated country in Europe, behind Bulgaria, with just 87 doses per 100 persons [
36].
Although several studies reported a higher vaccination acceptance among women compared to the opposite gender, pregnant women are more reluctant due to their pregnancy status and fears with regard to the implications vaccines might have for the unborn child. As such, a recent study by Citu et al. [
16] using the Vaccination Attitudes Examination (VAX) scale found that the pregnant women who completed the survey had much more reluctant responses than the non-pregnant group, with pregnant women recording significantly more hesitant responses (52% vs. 40%). They exhibited considerably higher average scores on all subscales of the VAX scale, and 78.1% attributed their COVID-19 vaccination choice to social media, compared to 64.0% of non-pregnant women. The independent risk variables for reluctance were found to be the lack of fear of COVID-19, a below-average level of income, trusting social media, a lack of belief in the existence of SARS-CoV-2, and a general lack of belief in vaccines and how they work.
Another research determined that numerous pregnant women understand the means of being safe and healthy but do not take the necessary precautions. The decision of a pregnant woman to participate in the vaccination campaign or take it seriously depends on her perceptions of the dangers caused by SARS-CoV-2 infection and the efficacy of immunization. Regardless of whether they were vulnerable, pregnant women who declined COVID-19 vaccines were observed to deny the danger of the virus or seeing any advantages from the immunizations currently in use. Acceptance was determined to be positively correlated with belief in vaccination’s advantages and self-reported patient outcomes [
37].
Since pregnancy is considered to be a medical condition, pregnant women cannot participate in clinical studies of COVID-19 vaccination [
38]. Thus, parents worry about the health of their unborn children due to the paucity of information about the safety and efficacy of the vaccine during pregnancy. The unknowns of the new mRNA vaccines have not been thoroughly evaluated during pregnancy in large cohorts of patients, and preliminary studies are insufficient to provide guidance for pregnant women, even though the medical advice is currently promoting vaccination [
39]. Similar findings were observed in our study, where unvaccinated respondents were more likely to answer that they do not trust the efficacy of these vaccines, and that they are more concerned about the side effects.
In order to overcome these obstacles, awareness initiatives must be strengthened in order to increase the possibility of acceptance among pregnant women. It is vital to increase the perception of risk and severity among both pregnant and non-pregnant women [
40]. It is vital that awareness campaigns address the concerns of pregnant women about the safety and efficacy of the vaccination during pregnancy, in order to reduce their perception of these obstacles [
41]. Concerning safety, the obstetric population must be reassured that COVID-19 vaccines are not live vaccines, which are generally avoided during pregnancy because they can harm the developing fetus, and that there should be no increased reaction beyond what is anticipated [
42].
The current research is restricted to a population-based analysis, so the findings of the questionnaires for pregnant women in Romania may not be relevant to other locations with different perceptions about SARS-CoV-2, as COVID-19 vaccination rates might vary significantly. Other country-specific factors that seemed to influence vaccination included rural origin, below-average income, and low levels of education, all of which are more frequent in Romania than in the rest of the EU. Other limitations include the study’s online design, as well as its failure to fulfill the estimated ideal sample size.