Respiratory Infectious Diseases and Adherence to Nonpharmacological Interventions for Overcoming COVID-19 Pandemic: A Self-Reported Study

Background The aim of the study was to examine changes in the frequency of respiratory diseases during the COVID-19 pandemic and to correlate the changes with nonpharmacological interventions for overcoming the pandemic. In addition, the study explored the predictors of adherence to nonpharmacological interventions among the Jordanian public. Method The study is survey-based and self-reported, using convenient sampling. The study was conducted during October–November of 2021. Results The study included 1714 participants. About one-quarter of participants reported decreases in the incidence of cold (21.9%), influenza (24.7%), respiratory infections other than cold and influenza (23.3%), tonsillitis (23.0%), and oral ulcers (23.5%). On the other hand, the majority reported no change in the incidence of the above infections (62.0–64.4%). Adherence of the sample to nonpharmacological interventions of COVID-19 was moderate. The percentages of people who always wear a mask, follow social distancing, and use sanitizing procedures were 47.1%, 37.8%, and 68.8% respectively. ANOVA test showed a significant correlation between the incidence of respiratory/oral infections and adherence to nonpharmacological interventions. The multiple regression test showed that people who followed COVID-19 news, have children, have a job, and being married were more adhered to nonpharmacological measures compared to others. Conclusion Implementation of nonpharmacological interventions used to overcome the COVID-19 pandemic can be applied to reduce other respiratory infections during their peak seasons.


Introduction
Since the COVID-19 pandemic began, governments have taken various nonpharmacological measures to prevent disease transmission and reduce mortality [1][2][3]. Among such efforts include mandatory face masks when in public, frequent hand-sanitizing, and handwashing, social distances, avoiding public gatherings, remote working, and public event cancellation [4,5]. In addition, reducing contact between individuals by reducing the duration and the number of times they come into contact hence reducing the basic reproducing number and the average number of individuals to whom an infected person can transmit the disease during the incubation period [6,7]. First countries that experienced the pandemic such as the Philippines, Spain, India, Italy, and Spain have implemented a control measure by locking down cities for months [1,8,9]. While other countries such as Turkey, Jordan, and Saudi Arabia had lockdowns running for four days to weeks [10][11][12].
Hypothetically, COVID-19 measures may also be effective in curbing the spread of other respiratory infectious diseases such as scarlet fever, seasonal influenza, severe acute respiratory illness, and outpatient pneumonia [13][14][15][16]. For instance, some respiratory infectious diseases such as seasonal influenza have a huge economic and health impact in the United States [17]. In specific, it causes high morbidity and mortality and increases direct and indirect medical costs because of loss of life [18,19]. Various studies have shown a significant decline in respiratory disease such as influenza transmission after implementing nonpharmacological interventions in mainland China and Hong Kong [20,21]. For example, the incidence rate of respiratory diseases such as influenza and flu in China during the 2019-2020 seasons was significantly reduced by 64% compared to past seasons [20].
ere was a similar decrease in influenza-related illnesses in the US during spring 2020 compared to past seasons [17,18]. Although current research has proved the reduction of the spread of respiratory disease due to COVID-19 control measures [22], it is challenging to determine an accurate quantification of the reduced influenza incidence rate in Jordan. Since respiratory disease activities exhibit substantial variations during peak timings and intensity across different seasons, estimating incidence rates of influence is unreliable. Besides, different types of respiratory diseases circulate simultaneously in a specific population with variable seasonal phasing [17]. Also, variations in regional respiratory diseases dynamics and nonpharmacological intervention implementation may have significant geographical disparities in incidence reduction, something that national-level analysis cannot determine [18,22]. e current investigation aimed to study changes in the frequency of respiratory diseases during the COVID-19 pandemic and to correlate the changes with nonpharmacological interventions for overcoming the pandemic. In addition, the study investigated the predictors of adherence to nonpharmacological interventions among the Jordanian people.

Study Design.
e study adopted a cross-sectional design to achieve the study objectives. Subjects were adults (age: ≥ 18 years old) living in Jordan during the pandemic. e study was conducted during Oct-Nov of 2021 and participants were invited to participate using social media platforms.

Sample and Participants.
Adults (over the age of 18) who live in Jordan and speak Arabic fluently met the inclusion criteria. e quota sampling strategy used was based on the participant's age and gender to ensure that the data collected was representative of Jordan's general population. G-Power 3.1., Universitat Kiel, Germany, was used to calculate the sample size for the study, which was based on the convenience/quota sample method, a small effect size, an alpha of 0.05, and a power of 0.95. e minimum number of subjects required was 1300. Out of the 2000 people who began the survey, 1714 completed the study. As a result, the final working number of research subjects was 1714.

Ethical Approval.
e study was approved by the Institutional Review Board of Hashemite University. Participants consented online before they started filling the study instrument.
e participants were assured that the questionnaire is anonymous, and the data will be used for research purposes, and they have the right to skip any question that they do not want to answer.

Study Instruments.
e study instrument was developed by the research team and was face validated by experts in the field. e instrument was pilot-tested on 30 participants to ensure its clarity and consistency. After revising the instrument based on the pilot study, the questionnaire was uploaded to Google forms. e questionnaire was divided into different parts. e first part was an introductory part that included information about the study, eligibility to participate, and an online informed consent. e second part asked questions related to the demographics of the participants such as age, education, sex, work status, health insurance, and others. e third part asked questions related to changes in the frequency of respiratory infections during the COVID-19 pandemic. ese include cold, influenza, tonsillitis, oral ulcer, and acute respiratory illnesses. For the participants to differentiate between the types of respiratory problems. e authors provided in detail for each respiratory problem within the survey. e respondents were given the choices "increase", "no change", and "decrease" when answering the questions to the third part. e last part asked questions related to the magnitude of adherence of the participants to nonpharmacological interventions against COVID-19 adopted in Jordan. e link of the questionnaire along with information about the study was distributed online through social media platforms. After the participants had responded to the questions. e researchers then check the data for consistency and completeness. Data cleaning was performed, and data were entered in computer using Excel datasheets.

Data Analysis.
e SPSS software version 25 was used to analyze the data. Descriptive statistics was used to describe demographical variables such as age, gender, education, income, and social status. ANOVA test was used to predict the difference in the incidence of many respiratory infectious diseases based on the degree of adherence to nonpharmacological measures. Multiple regression was used to find factors that impact degree of adherence to nonpharmacological measures against COVID-19.

Description of Changes in the Frequency of Respiratory
Diseases during the COVID-19 Pandemic. About a quarter of participants reported a decrease in respiratory and oral infections during the pandemic (Table 2). is includes cold (21.9%), influenza (24.7%), acute respiratory infections (23.3%), tonsillitis (23.0%), and oral ulcers (23.5%). Table 3 shows the adherence of the participants to nonpharmacological interventions during the COVID-19 pandemic. e findings showed that adherence ranged from moderate to high with mean adherence scores between 3.54 and 4.3 (Table 3). e number of participants who always wear a mask, follow social distancing, and use sanitizing/hand washing were 47.1%, 37.8%, and 68.8% respectively. e percentage of people who do not adhere to nonpharmacological interventions were less than 10%.

Correlation between Adherence and Respiratory Diseases.
ANOVA test was conducted to determine the correlation between changes in the frequency of infectious respiratory/ oral diseases and the mean score of adherence to nonpharmacological measures. All listed diseases in Table 4 were correlated significantly with adherence to nonpharmacological measures. e highest was for tonsilitis (F � 3.64, P � 0.004) and influenza (F � 3.023, P � 0.004).

Multivariate Regression Analysis of the Predictors of Adherence to Nonpharmacological Interventions during the COVID-19
Era. e regression model (Table 5) was significant (F � 6.78, P � 0.04). is means that many factors predicted adherence to nonpharmacological measures and these factors were following COVID-19 news (B � 0.099, P ≤ 0.001), having children (B � 0.092, P < 0.039), working status (B � .078, P � 0.008), and social status (B � 0.123, P < 0.04). is means that people who hear news frequently, have children, have a job, and are married adhere to nonpharmacological measure compared to others.

Discussion
e first incidence of COVID-19 was in China in December 2019. e virus quickly spread across the world, attracting global attention as an international public health crisis. Governments implemented various control measures such as compulsory masks in public, hand washing/sanitizing, social distancing, border controls, and the close of schools. ese control measures, or what is called nonpharmacological measures, were implemented to reduce the transmission of the virus. In theory, other transmissible respiratory infections can be also reduced in the communities by the implementation of such measures. e current study using a self-reporting survey investigated changes in the frequency of respiratory infections and the degree of adherence to nonpharmacological measures.
e results showed that about a quarter of participants reported a decrease in the frequency of respiratory/oral infections that include cold, influenza, oral ulcer, tonsillitis, and acute respiratory infections during the pandemic compared to previous years. is finding agrees with previous studies that reported a decrease in airborne infections such as pneumonia, enterovirus, mycobacterium, adenovirus, and tuberculosis during the pandemic. For example, a study conducted in Korea revealed that influenza transmission was declined by 27% to 39% during COVID-19 outbreaks. In another study from Taiwan, zero cases of measles were reported during the COVID-19 pandemic, which was attributed to pharmacological measures [23]. In Pakistan, a 50% reduction in measles was also reported during the pandemic compared to previous periods [24]. A survey conducted in Taiwan also revealed a significant drop in tuberculosis cases during the COVID-19 pandemic [25].
us, droplet aerosol precaution and preventive measures that have participated in containing COVID-19 transmission might lead to similar benefits by controlling other respiratory infectious diseases [18,22].
Among the control measures for the prevention of COVID-19 spread were social distancing, using masks in public, and frequent hand-sanitizing/washing [15,21]. In the current study, the adherence of the public to control International Journal of Clinical Practice 3 measures was moderate to high. e percentages of people who always wear a mask, implement social distance, and wash hands/sanitizing all the time were 47.1, 37.8%, and 68.8%, respectively. e people who do not adhere at all to precautions were less than 10%. In a study that was conducted in North America and Europe, adherence to social distancing was between 40% and 90% [26]. In a USA study, adherence to the Center for Disease Control and Prevention guideline was generally high with suboptimal adherence to social distancing and hygiene practices in younger adults [27]. Similar findings were reported in studies conducted in the United Kingdom, Kuwait, and China [2,28,29]. Among health care providers, a study found that using masks was 100%, and practicing hand washing/sanitizing was optimal     [30]. However, the public adherence to masks and hand washing is expected to be not optimum as in the case of healthcare workers. In our study, correlations between changes in the frequency of respiratory infectious diseases and adherence to nonpharmacological measures were reported. ese include cold, influenza, and tonsillitis. Various studies have shown a significant decline in respiratory diseases such as influenza transmission after the implementation of nonpharmacological interventions in mainland China and Hong Kong [20,30]. For example, the incidence rate of respiratory diseases such as influenza in China during the 2019-2020 seasons was significantly reduced by 64% compared to past seasons [20]. ere was a similar decrease in influenza-related illnesses in the US during spring 2020 compared to past seasons [17,18]. e current study reported several factors that predict adherence to nonpharmacological measures during the COVID-19 pandemic in Jordan. Among identified factors are following COVID-19 news, having children, working status, social status, and income. However, gender was not among the predictor factors. e age showed marginal significance with a P value of 0.053. In a previous study conducted in Croatia, women of older age were found more likely to adhere to the non-pharmacological measures of COVID-19 [31]. In a study that was conducted in Somalia, female gender, type of work, being a student, obtaining COVID-19 information from official sources, and higher education were strong predictors to nonpharmacological measures [32]. In a study from Uganda, living in a city, age, and receiving COVID-19 information from health workers were among predictors to nonpharmacological measures [33]. In a Canadian study, age, female gender, social status, having a job, and having children were more adherent to social distancing than others [34]. us, the predictors of adherence to different measures taken by the governments in the different populations might depend on the culture and the nature of the population. e present findings could be used by healthcare policymakers in Jordan to reduce the burden of infectious respiratory diseases in Jordan. Identification of predictors of adherence to nonpharmacological interventions provide feedback to health care authorities to implement better preventive interventions.

Limitations.
is study does have some limitations. For instance, this study employed a cross-sectional design, which limits the ability to provide a broad reference for a cause-andeffect relationship. Second, the data were self-reported, which reduces the study's reliability. Another limitation is the low response in comparison to the methods. However, it is worth noting that a low response rate is inherent in online self-administered surveys, where participants feel less obligated to complete the survey than in-person data collection methods.

Conclusion
In conclusion, the study reported the change in the frequency of respiratory/oral infections during the COVID-19 pandemic. Adherence to nonpharmacological interventions of COVID-19 can be useful to reduce other respiratory infections during their peak seasons.

Data Availability
e data used to support the findings of this study will be available from the corresponding author upon request.

Conflicts of Interest
e authors declare that they have no conflicts of interest.