Background
The coronavirus disease 2019 (COVID-19) outbreak was initially reported in Wuhan, China. COVID-19 is an infectious disease caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) [
1]. The virus quickly spread throughout the world, including Taiwan. As of September 2021, greater than 224.5 million confirmed cases of COVID-19 and over 4.6 million deaths worldwide have been reported [
2] with 16,093 confirmed cases and 839 deaths in Taiwan. Notably, the COVID-19 outbreak was quite modest in Taiwan compared with other countries, and the highest daily case number was 27 in 2020 [
3].
Many countries have adopted non-pharmaceutical and pharmaceutical approaches to control the COVID-19, including quarantine, physical distancing, hygiene measures and vaccine, [
4]. However, new variants are emerging due to the delayed arrival of a vaccine and vaccine hesitancy [
5‐
7]. As the result, the virus is still causing global turmoil and has not yet been effectively controlled.
The common transmission routes of COVID-19 include direct transmission (cough, sneeze, and droplet transmission) and contact transmission (contact with oral, nasal, and eye mucous membranes) [
8,
9]. Inevitably, dental care workers represent a group at high risk of being infected with COVID-19. The dental care professionals’ work involves in-person communication with patients and routine dental clinical procedures. These type of work is associated with an increased opportunity for virus exposure via the described transmission routes [
10,
11]. Therefore, this risk may cause fear and worry among dental staffs, especially dentists [
12].
To prevent risk of the COVID-19 infection among dentists, many of disease control organization, including Taiwan Centers of Disease Control, have provided guidance for comprehensive preventive measures in the field of dentistry [
11,
13,
14]. Several studies have previously reported lack of knowledge, attitudes, and perceptions of dentists regarding viral infection control [
15‐
17], including COVID-19 [
18,
19].
Taiwan experienced a SARS outbreak with approximately 680 probable cases in 2003. A study reported different of attitudes regarding common protective measures against SARS infection among nurses during and after the epidemic [
20]. Furthermore, compliance with infection prevention and control is one of the important meth to minimize the risk of COVID-19 infection among healthcare, but different health professionals demonstrate different levels of compliance [
21]. As previously mentioned, the highly dangerous and contagious SARS-CoV-2 virus may have an impact on changing knowledge, attitude and behavior of communicable disease control among dentists in Taiwan.
Thus, the first aim of this study is to explore and compare of the knowledge, attitude, and behavior of infection control between two periods of time, namely, before and during the COVID-19 outbreak. Second, we aim to investigate factors associated with the change in infection control compliance among dentists.
Methods
First surge of COVID-19 in Taiwan
The epidemiological profile of confirmed COVID-19 cases from January to May, 2020 in Taiwan indicated the first surge with a peak on March 16th due to imported cases (see Additional file
1: Supplmental Figure 1). In total, 446 confirmed cases were noted during this period. After a series of containment measures, such as social distancing, there was a substantial decline in confirmed cases of COVID-19 until May, 2020 [
22]. Due to the fast response to COVID-19, routine dental care service has been remained fully functioning and accessible.
Study design
The differences in knowledge, attitude, and behavior of infection control among dentists before and after COVID-19 pandemic were assessed. Two investigations of knowledge, attitude, and infection control behaviors were conducted separately in 2018 and 2020. The investigation in 2018 (non-COVID-19 period) served as the control group. To obtain a nationally representative sample of dentists, a proportional random sampling method was used. The probabilities proportional to size (PPS) method was used to randomly select subjects from different, geographically distant areas of Taiwan: north, south, east, and west. The participating clinics were under no strict selection criteria, and mostly all clinics operate in a similar fashion. Based on 35% and 5% sampling fractions from hospital and clinics, respectively, a total of 400 dental institutions, including 60 dentistry hospitals and 340 dental clinics, were selected from 6965 dental institutions. We believe that our study sample was sufficiently random and representative given that clinics were chosen from six areas. An anonymous questionnaire was mailed to these dental institutions in May 2018 and April 2020, separately, and the dental institution randomly invited one dentist to complete the questionnaire in an anonymous manner. A second mailing was sent approximately one month later, and follow-up calls were made one week after the first and second mailings. We mailed questionnaires with an approximately US$3 honorarium to encourage the selected dentists to return the completed questionnaires.
Questionnaire
The content of the questionnaire in this study was based on the questionnaire of the “Dental Infection Control Implementation and Cognitive Status Evaluation Survey” of the “2018 Commissioned Technology Research Project of the Ministry of Health and Welfare—Establishing a Self-evaluation Mechanism for Dental Infection Control Operations” in Taiwan. The questionnaire was slightly modified in 2020. All questions in the questionnaire were designed by three experts. The content of the questionnaire was reviewed and validated by the three expert reviewers. The experts conducted their review independently. Written informed consent was obtained from all study participants, and the survey was reviewed and approved by the Institutional Review Board of Taipei Medical University (TMU-JIRB: N201804006).
The questionnaire consists of four parts. The first part focuses on the characteristics of dentists and their practice settings, such as gender, age, length of dental practice experience, types of dental institutions serving, the number of dentists, dental assistants and dental chairs, and location of the medical institution. The second part assess the dentist’s awareness and attitude towards the implementation of infection control measures, including wearing personal protective equipment (PPE), such as glove, masks, hair cap, protective eye mask or face shields, and protective uniforms. The implementation of disinfection and sterilization protocols, such as sterilization of dental instruments, sterilization monitoring, surface disinfection of working tables, disinfection of impression materials, and periodic disinfection of waterlines, are also included in this section. The third section focuses on the risk of infection, the needlestick injury protocol, and information on infection control. The fourth section focuses on the dentist’s knowledge and attitude towards dental infectious diseases. To assess the respondent’s knowledge of infection control, we asked about the transmission routes of hepatitis B, C, and AIDS, proportion of hepatitis B carriers among Taiwanese adults, the relation between the rate of cirrhosis or hepatocellular carcinoma and hepatitis B infection, oral manifestations of AIDS, and the HIV screening time and window of transmission.
To assess their attitude, we asked about how the dental profession would respond if they treated a patient infected with hepatitis B or C or HIV. We also asked about their thoughts on the possibility of getting AIDS, Hepatitis B, or tuberculosis while performing dental work. We further asked about their flu vaccination status. In addition, COVID-19-related questions were added to the 2020 questionnaire.
Of the 400 questionnaires that were delivered to selected dental institutions in 2018, 276 (69%) were completed. In 2020, 400 questionnaires were delivered, and 251 dentists completed the survey with a response rate of 62.75%. No significant difference in demographic characteristics were noted between respondents of the 2018 and 2020 questionnaires according to a goodness-of-fit test (P > 0.05, data not shown). The goodness-of-fit test was conducted separately in 2018 and in 2020.
Statistical analysis
Categorical variables were summarized as frequencies and percentages, and chi-square tests were performed to compare differences between the 2018 and 2020 surveys. Multiple logistic regression was used to assess the associations between all variables and compliance with recommended infection control practices, and the odds ratios (ORs) and 95 percent confidence intervals (CIs) were reported. A P-value of < 0.05 was considered to be statistically significant. All analyses were performed using Statistical Analysis Software (SAS, version 9.4, SAS Institute Inc., Cary, NC, USA).
Discussion
The current study investigated the impact of COVID-19 on the knowledge, attitude and behaviors of infection control among dentists. The study also identified factors associated with compliance regarding behaviors to control the COVID-19 pandemic. Comparison of the responses to the surveys regarding infection control practices between 2018 and 2020, we found that knowledge of HIV infection and the window of HIV transmission was significantly increased in the pre-COVID-19 period compared with post-COVID-19 period. The use of PPE, hair caps, and protective eye mask or face shields was also greatly improved during the COVID-19 pandemic. The same phenomenon was also found regarding the practice of table surface disinfection and keeping the treatment table clear when not in use. The factors associated with the use of hair caps and protective eye mask or face shields differed between the pre- and post-COVID-19 periods.
Our study found a high level of knowledge on viral infection control (HIV/AIDS transmission) given that greater than 80% of dentists answered correctly in both time periods. The result is consistent with previous studies performed in different countries [
23,
24]. HIV has been recognized worldwide since its emerged in 1980, and several countries have implemented safety standards and developed regulatory organizations to ensure infection control practice and education, thus increasing awareness and knowledge of the importance of the disease control [
25]. One explanation of the high viral infection control knowledge in Taiwan is that Taiwan experienced the SARS epidemic in 2003. Education of infection control pertaining to the etiology of SARS was introduced, thereby increasing knowledge [
20].
We further demonstrated that knowledge of infection control was higher in the post-COVID 19 period compared with the pre-COVID-19 pandemic period. The rapid of distribution of news and reports from Taiwan’s mass media on SARS may have contributed to fears and attitudes about SARS control measures [
20]. We hypothesize that the global COVID-19 pandemic, which was widely reported on all sources of media around the world, could prompt people and health care workers to seek information on viral infection and standard preventive control measures. Our hypothesis is favored by our result regarding the increased number of Taiwanese dentists reporting correct responses regarding information regarding COVID-19 infection (94.76%) and concern (94%) of being infected with COVID-19. This finding is consistent with numerous studies from different nations that have also reported good COVID-19 knowledge among dentists, including those in Lebanon (91.3%), Pakistan (93.2%) and various continents (92.7) [
26‐
28]. In fact, previous studies claimed that greater than 70% of dentists used official government websites as the main source of information on COVID-19. This finding imply that dentists are now seeking COVID-19 knowledge [
26]. However, the rate of correct answers regarding the HIV/AIDS transmission window and COVID-19 disinfection protocols are quite unsatisfactory. This finding suggests ample room for improving knowledge.
The WHO has recommended the use of PPE, including surgical masks, non-surgical masks, gloves, goggles, face shields, gowns and N95 masks, in the context of COVID-19. In addition to standard PPE, hair caps are also used by dentists [
26,
29]. A study in Lebanon reported that 77.7% of dentists wore dental goggle, mask, gloves, face shields, head covers and feet covers [
26]. This finding is consistent with our study, which revealed that greater than 95% of dentists in Taiwan wore gloves, mask and protective uniforms. This finding is in contrast to that reported in Iran, where a low percentage of dentists wore PPE (44%). The low rate of PPE usage in Iran was due to an increased demand for masks, which caused increased prices and ultimately a shortage of masks [
30]. However, this situation was not observed in Taiwan [
10].
Interestingly, we found significant results regarding the use of caps and protective eye masks or face shields between pre-and post-COVID-19 period. According to previous reports, COVID-19 is transmitted through droplets and direct or indirect contact. In addition, the transmission route is not restricted to the respiratory tract, and the virus can enter the human body through the eyes [
31]. Therefore, the characteristics of COVID-19 transmission increased the numbers of dentists using hair caps, protective eye mask or face shields during the COVID-19 pandemic.
We also found that a greater number of dentists comply with environmental disinfection protocols (disinfection of working table surfaces and keeping treatment tables clear when not in use). This finding is not surprising given that studies have revealed that the virus that causes COVID-19 can persist for up to 2–10 days on inanimate surfaces, thus facilitating its spread via droplets and contaminated hands or surfaces [
32,
33]. We further investigated factors that were associated with wearing hair caps and eye mask/face shield. We observed that better compliance with wearing hair caps before the COVID-19 outbreak is significantly related to annual flu vaccination and the use of protective eye mask or face shields. After the COVID-19 outbreak, hospital setting, use of chemical indicators, half-cut compartments, and COVID-19 related information sources are factors that significantly affect the use of hair caps.
During the SARS-CoV-2 outbreak, many of studies reported hospital-acquired COVID-19 infection [
34,
35], and most COVID-19 information was reported by television outlets. In addition, previous studies have shown that dentists have a better compliance rate for infection control in larger dental institutions (such as teaching institutions or hospitals). This finding may be explained by the fact that as the experience of the dental worker increases, the cumulative number of trainings related to infection control guidance also increases, which is likely to improve infection control compliance [
36,
37]. Thus, we found that individuals who worked in the hospital and did not receive information from the Dental Association were more likely to wear hair caps. In addition, those who use chemical indicators and half-cut compartments potentially considered themselves more vulnerable to COVID-19 infection and therefore used hair caps.
Our findings also show that the following factors are significantly related better compliance with wearing protective eye mask or face shields in the post-COVID-19 period: females, disinfection of impression materials, never treated AIDS patients, and use of hair caps and waterproof isolation gowns. Dentists are involved in many aerosol-generating procedures that represent one possible mode of transmission [
38]. Thus, dentist who wear hair caps and waterproof isolation gowns are more likely to wear of a face shield and protective eye mask.
In addition, our research results also show that better compliance with wearing a protective eye mask or face shield is significantly related to the following factors: female, disinfection of impression materials, and have not treated AIDS patients. Females exhibit better compliance for wearing basic protective barriers compared with males [
39]. Askarian et al. observed that dentists in Iran exhibit moderate to extremely high fears and anxiety of transmitting HIV to oneself or other patients and rejecting HIV/AIDS patients [
24,
40]. We believe that those dentists who have never treated AIDS patients in our study are aware and scared of being infected with HIV. Thus, these dentists consequently used protective eye mask or face shields.
Disinfection of impression materials is a control practice that is commonly used together with the use of hand hygiene protocols as well as PPE and protective clothes among staff members [
26]. This finding may imply that those who are willing to follow control measures also use PEE. This finding could support our result that disinfection of impression materials is associated with the use of eye protection and face shields.
Finally, Taiwan Centers of Disease Control issued the “Guidance for Dental Response to COVID-19 Infection Control Measures” in August 2020 to strengthen dentists’ compliance with infection control [
41]. The Science and Technology Research Project entitled “Establishing a self-assessment mechanism for dental infection control operations” was implemented in 2018. In addition, a dental self-assessment policy was added, and re-education training and on-site visits to dental medical institutions were held to enhance dentists’ awareness and implementation of infection control. Thus, in the context of Taiwan dental care, procedures have been implemented to maintain and ensure a proper response to the outbreak of infectious diseases.
Our study has some possible limitations. First, approximately 40% of dentists failed to return the questionnaire, which may lead to a nonresponse bias. We used a nationally representative sample of dentists to investigate changes in compliance with the recommended infection control measures to minimize deviation. In addition, although there is no statistically significant differences between the original regional sample and the regional sample returned for the 2020 survey based on the analysis of consistency according to the goodness of fit test. However, a statistically significant difference is noted between the regional distribution of the questionnaires returned in 2018 and the original sampling design (P = 0.02). The proportion of the questionnaire returned from the Central District is greater than the proportion of the original questionnaire. In contrast, the proportions of 2020 survey respondents from the Southern and Kaohsiung Pingtung districts are lower than that noted for the original survey, which may cause bias.
Second, research results may be affected by response bias given that the survey results are based on self-reported data. Third, recall bias may also occur given the retrospective nature of investigation. We investigated the events that occurred during the previous 12 months and reviewed the experience of the dental practice many years ago. Fourth, the COVID-19 pandemic was less serious in Taiwan compared with other countries. During the survey response period, no large-scale community infection cases were reported in Taiwan. Thus, these results should not be generalized to other countries. Finally, the surveys were separated by 2 years. During this two-year period, the government and dental organizations have successively introduced policies and continuing education courses to improve infection control. These new policies and courses may also affect the results 2 years later; thus, these results are not entirely due to the changes caused by the COVID-19.
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