Abstract
Background: There is a rapid increase in the number of people with type II diabetes worldwide with many preventable cases. Diabetes control or prevention is partially influenced by the individual’s knowledge, attitude and practice toward the disease.
Objective: The aim of this study was to determine the general public knowledge, attitude and practice toward diabetes in the region of Hail, which is located northern of the Saudi capital.
Methodology: This is a cross-sectional study conducted during the period of March 2018 until September 2018. We randomly selected participants over the age of 18 years at different locations.
Results: A total of 738 participants (428 females and 310 males) with and an age range of 18–61 years and mean age of 35±12 were surveyed. The majority of the participants, regardless of education levels, residence and employment status showed high knowledge of diabetes (82%) and knew that physical activity can positively affect/prevent diabetes. Participant's age was found to have a significant association with participant's knowledge of diabetes with the ≥35 year old group knew the different types of diabetes (p<0.001) and knew that high carbohydrate consumption can increase the risk of diabetes (p<0.001), but only the younger group <18 year old's identified diabetes as a genetic disorder (p<0.001).
Conclusion: The high knowledge of the disease and its risk factors were not truly mirrored in the participant’s attitude and practice toward the disease. Therefore, it is quite essential for the local health authorities to implement awareness programs to improve public attitude and practice toward diabetes.
Keywords: knowledge, attitude, practice, diabetes mellitus, general population
Background
Diabetes mellitus (DM) is a chronic metabolic disorder that can affect the patients' quality of life and increases their risks of developing other diseases.1,2 Patients with diabetes are at higher risks of developing other health-related complications, including four times more likely to develop cardiovascular complications,3,4 fertility complications,5 and twice as likely to develop renal diseases as the general population.6
In 2013, the global prevalence of people with diabetes was estimated at 382 million and expected to rise to 592 million by 2035.7 However, reports for 2018 estimated that there are more than 500 million prevalent cases of type 2 diabetes worldwide, and the prevalence is comparable between high- and low-income countries.8
Currently, there are 23 million adults who have been diagnosed with diabetes in the US and it is estimated that the prevalence of diabetes will rise to 5.5% in 2025 as compared to 4% in the year 1995.9 However, the prevalence of diabetes is estimated to be significantly higher in other parts of the world including the Middle East, which would have the highest prevalence over the coming years due to rapid economic growth, development and changes in diet patterns.10 One of these countries is Saudi Arabia, which is witnessing a tremendous economical and developmental growth11 that is predicted to affect the lifestyle pattern and possibly increasing the prevalence of diabetes in the country. In 2010, the Saudi Arabian Ministry of Health reported that the number of people with diabetes in the country is to be approximately 2.5 million and continuing to rise at a highly increasing rate.12
Evidence suggests that the prevalence is affected by various factors such as sociodemographic, health knowledge and early diagnosis.13 Thus, it is quite essential to determine the level of general knowledge and to perhaps increase knowledge as part of controlling or reducing the prevalence. Therefore, the objective of the current study is to determine the knowledge, attitude and practice of the general population in Hail region, which is located in the northern part of Saudi Arabia toward diabetes, its treatment and management.
Methodology
Ethics approval
A submission, including full project proposal and consent forms, was made to the Scientific Research Ethical Committee (SREC) at the University of Hail in the Kingdom of Saudi Arabia. The Committee unconditionally approved the project and agreed to verbal consent to be used.
Calculating sample size
The following formula was used to determine the sample size at 99% CI:
where
n= sample size,
Z= Z statistic for a level of confidence,
P= standard deviation
d= margin of errors
For the level of confidence of 99%, which is conventional, Z value is 2.576.
, therefore 664 participants are needed to achieve the required CI.
Study design
This is a cross-sectional questionnaire-based study. Participants were randomly selected at shopping centers, recreational parks and outpatient clinics at local hospitals and were consented to participate after they were given full details of the study and its intended aims. The questionnaire was designed in English and then translated to the local spoken language Arabic by proficient speakers of both languages and was revised to be suitable to the general population.
Questionnaire
The questionnaire used in the current study was developed to evaluate the participant’s KAP regarding diabetes, its risk factors and management. The questionnaire contained 6 questions divided into four sections. The first section collected demographic information of the participants. The second section contained questions about knowledge of DM. The third section collected information about the practices of participants toward disease and disease management including medication and the necessary lifestyle changes. The last section collected information about their general attitude toward diabetes. In order to validate the questionnaire, a pilot run was performed using a group of 25 randomly selected individuals. A total of 15 participants were recruited from Garden Shopping Center, and the remaining 10 participants were recruited from Hail General Hospital. The participants were informed of the study and consented to voluntarily participate. The final corrected version of the questionnaire was used for this study.
Study population (inclusion/exclusion)
Inclusion: We only included male and female ≥18 years of age. Exclusion: People who were less than 18 years old, mentally handicapped, those who did not consent to participate, participants with medical background (all health-related education) and those who had attended a diabetes education programs in the last 6 months were excluded from the study.
Data storage
All data collection forms were kept in a secure setting, only available to the principal investigator, and will be destroyed by the principal investigator after completion of the study, in accordance with the requirement of the SREC at the University of Hail.
Statistical analysis
Data were recorded on a data collection form and entered on a Microsoft Office Excel® (2010) spreadsheet. Statistical data analyses and tables were generated using Microsoft Office Excel® (2010). A Chi-squared test was used to test for significance, and a priori level of p<0.01 was considered statistically significant.
Results
Demographic data
A total of 754 questionnaires were collected, of which 16 questionnaires were excluded as some participants listed their age as less than 18 years and others have selected more than one answer for some of the questions, giving a response rate of 97.8%. Therefore, 738 questionnaires were included in the study.
Approximately, 60% of the respondents were from Hail urban region (446), of whom 428 were females (58%) compared to 310 males (42%), with the majority of the respondents in the 18–35 years' age group (76.6%). Interestingly, the respondents recorded close to 70% for both their educational background, completed high school and above, as well as being employed. These results are a true reflection of the age group being of working age as well as the educational level of the people in that region, as older respondents would have lower educational levels. The characteristics of the studied population are shown in Table 1.
Table 1.
Variables | N | Percentage |
---|---|---|
Gender | ||
Male | 310 | 42 |
Female | 428 | 58 |
Age, years (range 18–61) | ||
Mean ± SD* | 35±12 | |
18–34 | 566 | 76.6 |
35–60 | 171 | 23.2 |
>60 | 1 | 0.2 |
Level of education | ||
None | 106 | 14.4 |
Primary | 124 | 16.8 |
High school | 284 | 38.5 |
College | 224 | 30.3 |
Employment status | ||
Working | 502 | 68 |
Not working | 236 | 32 |
Residence | ||
Urban | 446 | 60.5 |
Rural | 292 | 39.5 |
Notes: The table shows the characteristics of the respondents. After consenting to participate in the study, participants were asked to provide the following information: gender, age, level of education, employment and residence. Level of education: none, represents those who did not attend school or did not complete 6 years of study; primary, those who completed more than 6 but less than 12 years of studies; high school, represents participants who have at least completed 12 years of studies; college, those who completed a diploma and above. *SD of the mean.
Knowledge assessment
Approximately, 84% of the respondents knew what diabetes is, but only 57% knew the different types. Interestingly, respondents in the ≥35 years' old age group scored significantly higher (p<0.001) in knowledge of the different types of diabetes as well as linking carbohydrate consumption with diabetes control (p<0.001) compared to the younger counterparts. While all respondents knew that exercise will improve/prevent diabetes, respondents in urban areas and those with college degrees recorded significantly higher when asked whether diabetes was a genetically linked disorder (p<0.001) (Table 2). A total of 47% of the respondents knew that uncontrolled diabetes will lead to affect other organs; however, the remainder either do not believe (20%) or do not know that uncontrolled diabetes can affect other organs (33%). Of those who knew the effect of diabetes on health, 24.5% thought that diabetes will lead to eye disease, 28% believed it affects the kidneys, 26% listed foot ulcers and 20% only believed that diabetes can cause heart problems (Figure 1).
Table 2.
Question | Gender | Age group | Educational background | Employment | Residence | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Male n=310 (%) | Female n=428 (%) | 18–34 n=566 (%) | ≥35 n=172 (%) |
None n=106 (%) | Primary n=124 (%) | High school n=284 (%) | College n=224 (%) | Working n=502 (%) | Not working n=236 (%) | Urban n=446 (%) | Rural n=292 (%) | |
Do you know diabetes? | 81 | 83 | 85 | 91 | 80 | 75 | 81 | 84 | 91 | 88 | 85 | 82 |
Do you know the different types of diabetes? | 50.2 | 65.4 | 35.5 | 65.5 | 50.5 | 60 | 45 | 52 | 85 | 69 | 80 | 65 |
Is diabetes a genetic disease? | 25.5 | 38.5 | 39.5 | 35.5 | 30 | 25 | 19 | 61 | 35 | 50 | 72 | 55 |
Exercise will prevent diabetes | 56 | 51.6 | 68.5 | 75 | 56 | 70 | 52 | 59 | 85 | 90 | 92 | 85 |
Carbohydrate will increase diabetes | 40.5 | 55.5 | 30 | 63 | 29 | 51 | 35 | 50 | 69 | 75 | 80 | 61 |
Note: The table represents the participant’s general knowledge of diabetes per different variables, such as gender, age, educational background, employment and residence (rural or urban).
Attitude toward DM
After adjusting the respondent’s characteristic variables, residence, level of education and employment status were not associated with attitudes toward DM; however, respondents in the 18–34 years' old age group showed a significantly higher positive attitude toward therapeutic management of DM (OR 95% CI, 1.37 (0.85–2.21), p=0.01), than the older group. Furthermore, 302 respondents (40%) believed that the use of alternative medicines including herbs is more beneficial than the standard medication. A total of 150 (20%) believed that the long-term use of diabetes treatment is harmful. Interestingly, 25% (n=185) of the respondents believed that diabetes is a temporary disease and 30% (n=222) believed that medications can be immediately stopped once diabetes is controlled (Figure 2).
Practice assessment
Oof the 738 total respondents, 148 (20%) were diabetics for more than 5 years, with 55 reported to have checked their blood glucose levels (BGL) twice a year (37.1%), 91 reported to have checked once yearly (61.5%), and only two respondents claimed that they have never checked their BGL(1.4%). Approximately, 60% of the diabetic respondents (89) claimed to have attended at least one diabetes educational program since their first diagnosis, and 80% of those have adapted lifestyle changes to improve their BGLs. Interestingly, we found that men were twice as likely to adapt lifestyle changes as women, 78% compared with 40%, respectively. Educational levels, residence, and employment status were not associated with the practice (Table 3).
Table 3.
Males (%) | Females (%) | p | ||
---|---|---|---|---|
Checked BGL | Never | 1.4 | 0.0% | |
Once | 36.9 | 37.3 | 0.12 | |
Twice or more | 65 | 58 | 1.5 | |
Attended diabetes education centers | At least one | 49 | 70 | 0.02 |
Never | 51 | 30 | 0.19 | |
Adapted lifestyle changes | Yes | 78 | 40 | <0.001* |
No | 22 | 60 |
Notes: Participants with diabetes were asked several practice questions, including the frequency of measuring their blood glucose level since diagnosis, attending diabetes awareness centers, which are available throughout the region, or whether they believed in changing lifestyle effect on diabetes as well as their willingness to do so. *Significant.
Discussion
There is a global increase in the prevalence of type II DMthat is predicted to rapidly rise over the next decade, particularly in developing countries. In 2014, the WHO reported that 8.5% of adults aged 18 years and older had diabetes and that this number is set to significantly increase.14
It is widely known that patient’s knowledge, attitude and practice toward a disease will significantly affect the treatment outcome.15 In fact, studies have shown a strong correlation between T2DM knowledge and hemoglobin A1C level.16 In the current study, we aimed to investigate the knowledge, attitude and practice of the general population in the region of Hail toward DM. We surveyed 738 participants, of which 58% were females, more than 76% of the participants were in the 18–35-year-old group and the majority were either studying or working full time, which is an expected percentage of a cohort in this age group.
Generally, participants showed high disease knowledge with 84% of the respondents showed good knowledge of diabetes, and they understand the benefit of exercise on controlling or preventing diabetes, but only the older age group (≥35 years old) were better informed of the different types of diabetes and the food that can adversely affect BGLs. Expectedly, knowledge analysis indicated that education level and residence (urban vs rural) can impact one’s knowledge about the diseases as college graduates and urban dwellers were the only groups who knew that diabetes was a genetically linked disease (Table 2). These differences may likely be due to two major reasons; first is the availability of education centers around the city and second is the large number of awareness campaigns that are carried out in schools and colleges.
Interestingly, the 18–35 years' old group showed a better attitude toward diabetes and its therapeutic management than the older cohort (Figure 2). This could be due to the widespread usage of herbal and natural remedies among people in the area, which is predominantly practiced among the older generation, thus explaining the positive attitude shown with the younger group.17 Another possible reason for an improved attitude within the young cohort is that the younger generation are better educated than the older cohort, and thus are more likely to have good awareness that led to better attitude and practice.
Contrary to previous reports in Saudi Arabia that claimed females were more willing than males to adapt to lifestyle changes,18 the current study found that males were more eager to adapt to lifestyle changes than females. While there might be several reasons that could explain the difference, we can speculate that the difference is due to the willingness of male participants in quitting smoking. Notably, smoking was listed as part of lifestyle changes; however, the region has a very low rate of female smokers, which may explain the high rate of lifestyle changes in the male cohort compared to the females.
Analysis of several studies that investigated the disease prevalence in Saudi Arabia showed a steady increase in the disease prevalence over the last decades including a study by Baghli et al that estimated the prevalence rate to be at 18.2% in 2004,19 and a study by Daghri et al, which was published less than 10 years after, estimated the prevalence to be at 31.6%.20 However, most recent official reports suggested diabetes prevalence to be at 18.5%,10,12 which is quite close to our current findings in the Hail region.
Limitations
The respondents were recruited at different sites including shopping centers, recreation sites and outpatient clinics, which could explain the high proportion of young participants. Also, the study is done in a relatively small region in the northern part of Saudi Arabia, which may not necessarily be a true reflection of the general public. The sample size is not representative of the studied region, which is estimated to have close to 2 million residence; however, participants were from wide geographic area and, thus we can consider it as a representative sample. Finally, the studied sample reported 20% prevalence of diabetes, which is comparable to that of the official reported figures of 18.5%.10
Conclusion
The results show that the majority of participants have a good general knowledge of diabetes, but poor attitude and practice toward its risk factors and management. Given the continual increase in the prevalence of the disease, urgent measures need to be implemented to improve disease control and management including awareness campaigns that aim to improve disease knowledge and management. Therefore, the current study can be used as a point of direction for future awareness campaigns in the Hail region with a particular focus on attitude and practice.
Acknowledgments
This work would not have been possible without the help of each participant. The authors appreciate the great help of the students who distributed and collected the surveys. Also, we would like to thank Prof Robert Smith for reviewing the manuscript.
Disclosure
The authors declare no conflicts of interest in this work.
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