Adherence and non-adherence to wearing facemasks

It has become increasingly apparent that behavioral science is vital for understanding how pandemics can be optimally managed, and for understanding and addressing pandemic-related socially disruptive phenomena such as the reluctance or frank refusal to follow health guidelines such as the wearing of face masks [1, 2]. Historically, protective facemasks have played an important role in limiting the spread of infection during pandemics [2]. Mask wearing has long been regarded as vital for healthcare workers and has been recommended for people in the community, although there have been inconsistent messages from health authorities about mask wearing for the general public during the COVID-19 pandemic [3–5]. Early in the pandemic, some health authorities such as the World Health Organization (WHO) recommended that masks not be worn by the public and that masks should be reserved for health care workers and those infected with COVID-19 [5, 6]. At that time the WHO and other health authorities also averred that masks are ineffective for the general public, that masks provided a false sense of security, and that the wearing of masks would cause people to touch their faces, thereby increasing their chances of infection [5, 7]. Such concerns proved to be unfounded [7–9] and evidence steadily emerged to support the wearing of masks by members of the general public [10, 11]. Health authorities such as the WHO subsequently reversed their position on facemasks and recommended that masks be worn by the public when they were in public places, especially when social distancing was not possible [6].

The prevalence of mask wearing in the community increased as COVID-19 spread globally [6, 12]. In the US and Canada, which were the counties in which the present research was focused, mask wearing in the community increased dramatically in the months following the formal declaration on March 11, 2020 that COVID-19 had become a pandemic [13–16]. Surveys conducted from June to August, 2020 suggested that most (approximately 80–85%) of Canadian and American adults regularly wore masks [6, 14–17]. The increase in mask wearing was likely due to several factors including (a) the increasing prevalence of COVID-19, (b) reversal by health authorities on their earlier position, from dissuading to encouraging the public to wear masks, and (c) mask wearing had become increasingly mandatory in stores and on public transport. In the months after the pandemic was declared, the policy of mandatory masks appeared to gain acceptance among the general public. Surveys in July, 2020 suggested that most respondents (74%) found that a policy of mandatory mask wearing was personally acceptable [14], which was an increase from 37% in May [13].

Despite the importance of masks, some people object to wearing them. During the so-called Spanish flu pandemic (1918–1920), for example, opposition to wearing masks occurred in San Francisco in 1919, when authorities attempted to make it mandatory to wear masks in public places. The Anti-Mask League was formed, which was a short-lived protest movement in which the proponents argued that masks were ineffective, inconvenient, and that mandatory mask wearing violated their civil liberties [18, 19]. These anti-maskers were a vocal but small group, so most people followed the recommendations to wear masks in public [18, 19].

A similar situation has arisen during the COVID-19 pandemic. Estimates suggest that at the time the present research was conducted (July-August, 2020), about 10–15% of adults in the US and Canada rarely or never wore masks in public [14, 16, 17]. During the COVID-19 pandemic, there have been numerous anti-mask protest rallies, primarily in the US, Canada, Europe, and Australia, with some rallies drawing thousands of people [20–23]. Protest rallies have persisted despite high rates of infection and large numbers of deaths from COVID-19. Violence has erupted in some rallies as protesters clashed with counter-protesters or with police [21, 23–26]. Just as in 1919, the COVID-19 anti-mask protests were spurred by government plans to make masks mandatory. Some rallies were protests against mandatory masks, while others were broader, protesting against masks, social distancing, lockdown, and vaccines [22, 23, 27]. Protesters at some anti-masks rallies were joined by people espousing conspiracy theories, such as the unfounded belief that the threat of COVID-19 has been exaggerated by the government in order to control the populace [28].

Unlike the 1919 anti-mask movement, which was short-lived and limited to a single city, the anti-mask rallies during COVID-19 have taken place in many cities, sporadically arising without any evidence (at the time of writing) of petering out. The recurrence of such rallies is likely fueled by social media and news media coverage combined with strongly engrained anti-mask attitudes held by at least a small proportion of the population.

Very little is known about the motivations for mask non-adherence. Public opinion polls suggest that people with conservative political affiliations (Republicans in the US or Conservatives in Canada) are less likely to wear masks than people with liberal affiliations (Democrats or Liberals) [6, 15, 17, 29]. This may be partly because Republican political leaders were initially reluctant to wear masks, even mocking those who wore masks [6, 17], and because people with politically conservative ideologies tend to resist government regulatory efforts [30], such as attempts to make masks mandatory.

Several opinion polls have assessed reasons for not wearing masks, although the polls were limited in the number of reasons assessed. The most common of the assessed reasons for not wearing masks were: Not believing that masks are effective, finding masks uncomfortable, difficulty establishing the habit of mask wearing, and lack of concern about COVID-19 [14, 15, 17, 31]. Newspaper reports of protest rallies offer additional, anecdotal information on anti-masks sentiments. Several reasons for not wearing masks were suggested by news reports of anti-mask protests: Beliefs that masks violate civil liberties, beliefs that masks are ineffective and possibly harmful because masks make breathing difficult, and beliefs that the threat of COVID-19 has been exaggerated [3, 20, 22, 23, 32–38]. Despite the range of anti-mask attitudes, a common theme running through these reports is that protestors believe that mandatory masks are a violation of civil rights. In other words, anecdotal news reports suggest that the rallies are motivated, at least in part, by a phenomenon known as psychological reactance (PR).

Psychological reactance

People like to feel in control [39]. Relatedly, PR is a motivational response to rules, regulations, or attempts at persuasion that are perceived as threatening one’s sense of control, autonomy, or freedom of choice [40, 41]. The perceived threat motivates the person to assert their freedom by rejecting attempts at persuasion, rules, regulation, and other means of control. Thus, when PR is evoked it is characterized by counter-arguments and anger [42]. This might involve denying the existence of a threat [40, 43]; for example, denying the need to wear masks by denying the seriousness of the pandemic. Thus, PR is expected to be correlated with a denial or disregard for the seriousness of the COVID-19 pandemic.

The tendency to experience PR is a personality trait [44], which is correlated with a range of phenomena including antisocial and narcissistic personality traits [45, 46] and with political conservatism [47, 48]. The latter finding is not surprising given that conservative ideology, as compared to liberal ideology, strongly favors limited government intervention [30], and so government policies that threaten to restrict freedoms are likely to elicit PR [47]. Mass communication messages that try to persuade people to adopt a given behavior, such as wearing masks, can elicit PR, thereby undermining the impact of the message [41, 49]. Given these considerations, it is important to investigate whether PR is implicated in mask non-adherence during the COVID-19 pandemic.

Aims of the present study

Although most people have been adherent to wearing masks during the COVID-19 pandemic, opinion polls suggest that a small but significant proportion of people (10–15%) object to wearing masks. News reports, although anecdotal, suggest that people who object to wearing masks are a vocal minority, engaging in protest rallies that sometimes erupt in violence. Accordingly, non-adherence to wearing masks is a socially important phenomenon as well as one that is relevant to managing the COVID-19 pandemic. To date, the study of mask non-adherence during the COVID-19 pandemic has been largely limited, with some exceptions discussed later [50, 51], to a small number of opinion polls, with a limited assessment of anti-masks attitudes. The present study had three primary aims.

The first aim was to conduct a broad examination of anti-mask attitudes, to determine which attitudes are related to masks non-adherence, and to investigate how anti-mask attitudes are related to one another. Previous research on PR suggests that mask-related PR (i.e., objecting to being forced to wear masks) should be related to other anti-mask attitudes, because when a person with a high degree of PR is challenged regarding a given attitude (e.g., the belief that masks are ineffective), then that person will resist the efforts at belief change by generating counter-arguments to support the attitudes (e.g., generating counter-arguments to support the belief that masks are ineffective).

The second aim was to investigate how anti-mask attitudes are related to political conservatism. Previous research, as discussed above, suggests that the general propensity to PR is related to conservatism; but, it has yet to be empirically established whether mask-related PR is related to political conservatism. The final aim was to investigate how anti-mask attitudes are related to attitudes and behaviors that are associated with non-adherence to other pandemic-control measures during the COVID-19 pandemic, such as disregard for social distancing and anti-vaccination attitudes. Recent research provides evidence for a COVID-19 disregard “syndrome” [52]. This is not a syndrome in the medical sense of the term, but rather a constellation of inter-related attitudes and beliefs. People with this syndrome tend to (a) believe that the COVID-19 pandemic has been exaggerated, (b) see themselves as physically robust to any illness they may experience as a result of being infected with SARSCoV2, and (c) tend to disregard social distancing because they see it as unnecessary [52]. This syndrome is also associated with negative attitudes toward a potential vaccine for SARSCoV2 (i.e., beliefs that a vaccine is unnecessary or that the benefits of such a vaccine are outweighed by the potential risks) [52].

The first aim of this study was addressed by simple t-tests comparing anti-mask attitudes of people who were adherent versus non-adherent to wearing masks. The remaining aims were address by network analyses, which are well-suited for gaining insights into the complex interplay among variables. Network analysis provides important information about relationships among elements (nodes) in a network (e.g., sets of attitudes or behaviors). Network analysis assumes that nodes are inter-related because they are, in some way, causally linked with one another. In network analysis, the links are known as “edges.” The presence of statistically significant edges does not assume that nodes are influenced by some underlying factor such as a latent variable. Instead, network analysis assumes that nodes may directly influence one another [53]. In the present study, anti-mask attitudes were predicted to form a network of interconnected nodes. Given that PR theoretically amplifies the strength of other attitudes, mask-related PR was predicted to be one of the central nodes in the network of mask-related attitudes. Network analyses were also conducted to determine how the network of anti-mask attitudes is related to other variables: Political conservativism, the elements of the COVID-19 disregard syndrome, and SARSCoV2 anti-vaccination attitudes. If nodes causally influence one another, then changes in a central node are most likely to lead to changes in other nodes in the network through the spreading of activation. Central nodes, as compared to peripheral nodes, are defining features of a network. Identifying central nodes has the potential to inform which elements to target in interventions. As a caveat, note that network analyses in cross-sectional designs such as the present study are suggestive of, but do not establish causality. Significant edges might represent causal influences (either unidirectional or directional) but experimental designs are needed to establish causality. Accordingly, network analyses provide a source of hypotheses about causal links among variables in a network.

Sample

The sample consisted of 2,078 adults (age ≥18 years) from the United States (N = 1,036) and Canada (N = 1,042). The mean age was 54 years (SD = 14 years, range 18–94 years). Most (93%) were employed full- or part-time, most (82%) had completed full or partial college, and 40% were female. Most (70%) were White, with the remainder being Asian (13%), African American/Black (8%), Latino/Hispanic (4%), or other (4%). Only 2% of the sample reported being diagnosed with COVID-19.

Data collection procedures

Data were collected from July 20 to August 7, 2020, using an internet-based self-report survey delivered in English by Qualtrics, a commercial survey sampling and administration company. Qualtrics solicited the present sample as part of our ongoing research program [54, 55]. Qualtrics maintains a pool of potential participants who have agreed to be contacted in order to respond to surveys. Qualtrics selected and contacted participants to meet sampling quotas based on age, gender, ethnicity, socioeconomic status, and geographic region within each country. All respondents provided written informed consent prior to completing the survey. The research described in this article was approved by the Research Ethics Board of the University of Regina (REB# 2020–043). Filters were used to eliminate data from careless responders. Embedded in the assessment battery were four attention-check items (e.g., “This is an attention check, please select Strongly Agree”; “For our research, it is really important that you paid attention while responding to our survey. How attentive were you when responding?”: “Very Inattentive” to “Very Attentive”). Participants were included only if they provided correct responses to three or more of the four attention checks (e.g., “Strongly agree” or “Very attentive”), indicating that they were sufficiently attentive. In addition, at the end of the assessment battery, participants were asked to indicate whether, in their honest opinion, their data should be used. Those who responded “no” were excluded from data analysis, regardless of their score on the attention-check items.

Measures

Participants completed a battery of measures, including demographic questions. Adherence to wearing facemasks was assessed with a face-valid yes/no item: “Do you wear a facemask because of concerns about COVID-19?” Participants completed a 12-item scale, developed for the purpose of the present study, assessing negative attitudes about facemasks. The items, derived from previous descriptions of anti-mask attitudes [2, 14, 15, 17–19, 31, 56], are listed in Table 1. Each item was rated on a 7-point scale (1 = strongly disagree, 7 = strongly agree). Three scales, previously developed to assess the COVID Disregard Syndrome [52], were also administered: (a) Belief that the dangerousness of COVID-19 is exaggerated, (b) disregard for social distancing, and (c) belief that one has robust personal health against infection. Items on these scales were rated on a 5-point scale (0 = strongly disagree, 4 = strongly agree). These face-valid scales have good levels of reliability and validity [52]. Anti-vaccination attitudes toward a SARSCoV2 vaccine were measured using an adaptation of the Vaccination Attitudes Examination Scale [57], assessing vaccination attitudes specific to SARSCoV2 [58]. The items in this scale, each rated on a 6-point scale (0 = strongly disagree, 5 = strongly agree), assess mistrust of vaccine benefit, worries over unforeseen future effects of the vaccine, concerns about commercial profiteering from the vaccine, and preference for natural immunity. The scale has good levels of reliability and validity [57, 58]. Political conservatism was assessed with a single face-valid item: “In general, how would you describe your political views?” (1 = very liberal, 7 = very conservative).

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Table 1. Scores on measures of negative attitudes towards facemasks.

https://doi.org/10.1371/journal.pone.0246317.t001

Statistical procedures

For the network analyses, Glasso networks (regularized partial correlation networks) were computed using the R qgraph package [59]. Indices of centrality, also calculated with qgraph, were used to assess the relative importance of each node in the network [60]. Three indices of centrality were computed: Strength, betweenness, and closeness. Strength refers to how well a node is directly connected to other nodes in the network. Node strength is computed as the sum of the absolute values of edge weights (regularized partial correlations) that directly connect that node with other nodes. Closeness refers to how well a node is indirectly connected to other nodes in the network. Closeness is calculated by computing, for a given node, the inverse sum of edge weights for the shortest path between that node and each other node, and then summing the values for these paths. Betweenness refers to how important a given node is in the average path between two other nodes; that is, how often a given node is the most efficient (shortest) path between other nodes. This is an index of the importance of a given node in connecting nodes with one another. The stability (reliability) of the relative order of magnitude of edge weights and their strengths were tested by the correlation of stability coefficient, also calculated via bootnet [53]. Coefficients exceeding.50 suggest stable (reliable) results [53]. Due to the number of statistical tests conducted in this study, the α level was set at.01 instead of the conventional.05.