Knowledge, Attitude and Practice Towards COVID-19 in Ethiopia: A Systematic Review; 2020.

BACKGROUND: Novel coronavirus disease is a very fast spreading respiratory disease. This disease is becoming a public health emergency across the world. Despite many efforts by countries, organizations, and institutions to prevent and control, the pandemic remains a world health danger. Ethiopia is one of the countries which is severely affected by the pandemic. However, a systematic review of the knowledge, attitude, and practice about coronavirus disease in Ethiopia has not previously done. Thus, the main aim of this systematic review is to investigate the status of people's knowledge, attitude, and practice about coronavirus disease preventive measures in Ethiopia in 2020.
METHODS: Data were extracted based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. Studies were accessed through electronic web-based search from PubMed, Cochrane Library, Google, Google Scholar, and Embase. All statistical analyses were done using Stata version 11 software with a random-effects model.
RESULTS: A total of 11 studies with 3818 participants were included in this systematic review and the overall estimated status of the knowledge, attitude, and practice about coronavirus in Ethiopia are 61.78%, 72.39%, and 52.83%, respectively. According to region subgroup analysis, the highest estimated statuses of the knowledge, attitude, and practice are 74% in Tigray, 86.13% in Southern nations, nationalities, and Peoples' of the region, and 72% in Tigray region, respectively. Subgroup analysis was done based on the focused group and way of questionnaire administration.
CONCLUSION: This systematic review revealed people's knowledge, attitude, and practice about coronavirus disease preventive measures were generally more than 50%. However, government and every individual should address those behaviors stipulated by the World Health Organization and Center for Communicable Disease and Control guidelines to prevent coronavirus disease.

Background

Novel coronavirus disease 2019 (COVID-19) is a worldwide spreading respiratory disease caused by a positive sense of Ribonucleic Acid (RNA) virus, severe acute respiratory syndrome coronavirus (SARS 2-COV-2) virus.1 This disease was first classified as a zoonotic disease which is transmitted from animal to human, and from human to human through direct contact and airway droplets.2 Those patients who are confirmed with COVID-19 have a clinical symptom of fever, cough, shortness of breath, and sore throat within 14 days of the incubation period.3,4

According to a World Health Organization (WHO) report, COVID-19 has been a public health problem of international concern since January 30, 2020.5 Globally, there is an estimated number of nearly 46 million confirmed cases and 1.2 million deaths according to the WHO report on November 1, 2020.6 In Ethiopia, COVID-19 was announced on March 15, 2020, after an introduced case was reported. As the WHO report of African countries on November 1, 2020 indicated, there were 96,160 cases notified and over 1,469 deaths in Ethiopia.7

Following the pandemic nature of the disease, countries take different preventive measures such as: people's movement restriction, confinement at home, work at home, self-monitoring, public awareness, closure of schools, and different social services.8–11 Therefore, according to the WHO declaration, Ethiopia is also implementing those preventive measures to halt the pandemic nature of this disease.10,11 However, cases continue to exist.

Evidence shows that COVID-19 has no effective treatment but, early recognition of the symptoms of the disease like high-risk conditions, risky practices, prognosis, and timely looking for supportive care will suppress the virus propagation.12,13

Appropriate knowledge, attitude, and practice about COVID-19 preventive measures play an essential role to determine the public readiness to assent to behavioral change measures from health experts and have been recommended to control the spread of this disease.14

Even though there is a strong recognition of public health importance about COVID-19 by the Ethiopian government, there is still a need to emphasize community awareness creation and practice to stop the nationwide spread of the virus. So far, in Ethiopia, different studies have been done on the level of knowledge, attitude, and practice about COVID-19 preventive measures among the public. These levels of knowledge, attitude, and practice of the population ranged from 20% to 90.3%.10,11,15–23 Therefore, the findings of these different studies show that there is a high variability in the prevalence of the knowledge, attitude, and practice across the regions of the country.

Hence, the aim of this systematic review was to indicate the status of the knowledge, attitude, and practice about COVID-19 prevention measures among the different regions of the country.

Measurements of the Results

Research Question

What is the estimated prevalence status of the knowledge, attitude, and practice towards COVID-19 preventive measures?

The primary aim of this systematic review is to determine the status of knowledge, attitude, and practice towards COVID-19 preventive measures presented as a percentage of the overall participants in Ethiopia.

The study was conducted using tools that were taken from WHO resources and other similar papers.24,25

Knowledge was measured by items containing prevention, transmission, sign and symptoms, severity, and treatment of the COVID-19. Below the mean was considered as poor knowledge whereas greater than or equal to the mean was considered as good knowledge about COVID-19.

Similarly, attitude was measured by three questions about self-efficacy, collective efficacy, and stigma. So, below the mean was considered as unfavorable attitude whereas greater than or equal to the mean was considered as a favorable attitude about COVID-19.

In the same way, the practice instruments had issues on how often the respondent washes his/her hands with soap, avoid non-essential travel, keep 2-meter social distancing, avoid social gatherings, and avoid touching eyes, nose, and mouth with unwashed (unsanitized) hands. Below the mean was considered as poor practice level whereas greater than or equal to the mean was considered as good practice level about COVID-19.

Methods

Data Bases and Searching Strategy

The preferred reporting items for systematic reviews and meta-analysis (PRISMA) guidelines were used to report the result of this systematic review (). We searched the data through PubMed, Cochrane Library, Google, Google Scholar, and the Embase database for all available studies from June 1 to August 30, 2020, using Medical Subject Headings (MeSH) and free-text terms. The detailed search strategy is presented in . In this systematic review the searching was developed using “AND” and “OR”. The gray literature was also searched from the Ethiopian university's research repository online library. In addition, a manual search of the reference lists included was performed so as to address all the evidence. We defined the participants, exposure, comparator, outcome(s), and type of study as “PECO (T)”. The PECO (T) statement provides the framework for the identification and selection of studies for inclusion.26 As we were looking for prevalence studies, we only considered participants and the outcomes.

Inclusion and Exclusion Criteria

The studies were included in this systematic review if and only if they met the following criteria: (1) participants who are all adults aged ≥18, (2) studies that clearly reported the proportion of knowledge, attitude, and practice on CVID-19 preventive measures, (3) studies which were conducted in Ethiopia, (4) cross-sectional observational studies, and (5) both published and unpublished including pre-print studies at any time. The field was limited to “title/abstract”, and those studies with no clear report of the outcome, program evaluation studies, studies done outside of Ethiopia, letter to editors, case reports, study protocols, reviews, interventional studies, and citations without full text were excluded from the review. The PRISMA flow chart for the selection of studies is shown in Figure 1, Figure 2, Figure 3, Figure 4.

Figure 1

Flow chart of study selection for systematic review of the prevalence of KAP towards COVID-19 preventive measures in Ethiopia, 2020.

Figure 2

Forest plot showing the pooled prevalence of knowledge towards COVID-19 preventive measures in Ethiopia, 2020.

Figure 3

Forest plot showing the pooled prevalence of attitude towards COVID-19 preventive measures in Ethiopia, 2020.

Figure 4

Forest plot showing the pooled prevalence of practice towards COVID-19 preventive measures in Ethiopia, 2020.

Study Selection and Quality Assessment

All the retrieved studies were exported to Endnote version 7 (Thomason Reuters, London). Reference manager and duplicated studies were carefully removed. Two investigators (BGY and HKA) independently screened the titles and abstracts which were followed by a full-text review to determine the eligibility of each study. Any disagreement was solved by consensus with the presence of a third investigator, CKM.

The quality of each study was evaluated by using Joanna Briggs Institute (JBI). Quality appraisal criteria adapted for studies reporting prevalence data and cross-sectional studies.27 Papers with scores of five and above out of a total of nine were involved in the final systematic review.

Data Extraction

Data were independently extracted by two authors (BGY and HKA) using a standardized data extraction format that was developed according to the 2014 Joanna Briggs Institute Reviewers’ Manual.28 The tool includes authors, study year, region, and study design, sample size, and the proportion of knowledge, attitude, and practice about COVID-19 prevention measures in Ethiopia. Articles that fulfilled the predefined criteria were used as a source of data for the final analysis. The two independent reviewers (BGY and HKA) extracted the data by using an Excel spreadsheet, and they cross-checked it to ensure consistency. Any discrepancy was solved through discussion with the presence of a third author (CKM) and the procedure was repeated to overcome the difference which resulted during extracting every single study. The information regarding author, year of publication, study design, sample size, proportion/prevalence of KAP was extracted.

Heterogeneity and Publication Bias

The percentage of total variation across studies due to heterogeneity was assessed by using I2 statistics.29 Therefore, the value of I2, 25%, 50%, and 75% represented low, moderate, and high heterogeneity, respectively. In the same way, a p-value less than 0.05 was used to declare heterogeneity. For the test result which indicates the presence of heterogeneity, a random effect model was used as a method of analysis since it reduces the heterogeneity of studies.30 Funnel plot and Egger’s regression test were done to check whether publication bias exists or not across studies.31 Visual examination of funnel plot asymmetry, Begg-Mazumdar Rank correlation tests, and Egger’s regression tests were also used to check for publication bias.31

Data Analysis

The overall status of knowledge, attitude, and practice was estimated using a random-effect model. Regional subgroup analysis was done to adjust the variation in the estimate status of the KAP towards COVID-19. STATA version 11 (Stata Corp, College Station, TX, USA) statistical software was used for all statistical analysis. In addition, the Begg and Egger’s weighted regression method was used to detect evidence of publication bias. Hence, a p-value of ≤0.05 was considered as indicating the presence of significant publication bias.

Results

Flow Chart

A total of 1410 studies were included in this literature review (Figure 1). We also added three gray pieces of literature that were not found in the search. Of these studies, 40 articles were duplicated records which were removed. Besides this, we excluded 1340 irrelevant articles when we reviewed the titles and abstracts. Furthermore, we removed 19 articles that do not fulfill the criteria when we assess the full text. Then, a total of 11 unique studies were eligible and enrolled for final review analysis.

Characteristics of Included Studies

A total of 11 studies with 3818 participants were included in this systematic review. Those are summarized in Table 1. The studies were conducted from March 2 to June 20, 2020 in different regions of the country. Of those 11 studies, four of them11,16,17,20 were from multicenters, two studies10,15 were from the Amhara region, three of them19,21,23 were from SNNPR, one study18 was from the Oromia region, and one study22 was from the Tigray region. All the studies enrolled in this systematic review were cross-sectional studies (Table 1).

Table 1

Characteristics of Studies Included in a Systematic Review of the Prevalence of Knowledge, Attitude, and Practice Towards COVID-19 in Ethiopia, 2020

S.No	Author/s (Reference)	Stu. Year	Region	Quality	Focused Group	DA	Stu.Design	Sample Size	Prevalence(95% CI)
									K	A	P
1	Abay Woday et al10	April 15–25, 2020	Amhara	9	Student	IAQ	CS	408	69.6(65.14, 74.06)	56.6(51.79, 61.41)	65(60.37, 69.63)
2	Yonas Akalu et al15	March 2 to April 10, 2020	Amhara	8	Patients	IAQ	CS	404	66.1(61.48, 70.72)	–	52.7(47.83, 57.57)
3	Henok Dagne et al17	March 25 to April 4, 2020	MC	7	EP	OLB	CS	528	55.9(51.66, 60.14)	–	54(49.75, 58.25)
4	Daniel Bekele et al16	April 15–22, 2020	MC	8	Age ≥18	OLB	CS	341	78.8(74.46, 83.14)	–	–
5	Yohannes et al18	March 20–28, 2020	Oromia	7	Age ≥18	IAQ	CS	247	41.3 (35.2, 47.4)	–	–
6	Bedru Jemal et al11	April 15–25, 2020	MC	8	HCW	SAQ	CS	397	88.2(85, 91.37)	94.7(92.50, 96.90)	63.5(58.76, 68.24)
7	Edessa Negera et al20	May 20 to June 20, 2020	MC	9	Age ≥18	OLB	CS	1570	42.0(39.6, 44.4)	43.8(41.35, 46.25)	43(40.55, 45.45)
8	Nurdin Nasir et al21	March 8 to April 8, 2020	SNNPR	9	Age ≥18	IAQ	CS	528	76.5(72.88, 80.12)	81.8(78.51, 85.09	–
9	Biruk Wogayehu et al23	March 14 to April 5, 2020	SNNPR	8	Student	SAQ	CS	304	25(20.13, 29.87)	–	–
10	Simeneh Mola et al19	March 27 to 31, 2020	SNNPR	8	Age ≥18	IAQ	CS	585	–	90.3(87.90, 92.70)	20(16.76, 23.24)
11	Dagne Bahreet al22	March to April, 2020	Tigray	8	HCW	SAQ	CS	415	74(69.78, 78.22)	67(62.48, 71.52)	72(67.68, 76.32)

Abbreviations: A, attitude; MC, multicenter; CS, cross-sectional; OLB, online-based; SAQ, self-administered questionnaire; IAQ, interviewer-administered questionnaire; SNNPR, Southern Nation, Nationalities, and Peoples’ Region; K, knowledge; P, practice.

Knowledge, Attitude and Practice Towards COVID-19 (a Systematic Review)

The estimated status using the fixed-effect model demonstrated significant heterogeneity among the studies. By random-effects model, the estimated status of knowledge, attitude, and practice about COVID-19 preventive measures reported were 61.78% (95% CI (48.97%, 74.58%)), 72.39% (95% CI (54.02%, 90.77%)), and 52.83% (95% CI (39.26, 66.41%)), respectively. These figures show a significant heterogeneity among studies (I2= 99.1%, p ≤0.001), (I2= 98.6%, p ≤ 0.001), and (I2= 90.9%, p ≤0.001), respectively (Figures 2–4).

Subgroup analysis for knowledge: focused group, methods of questionnaire administered, and study area was used to check the possible heterogeneity among studies. Of the 10 studies, the highest estimated status of knowledge towards COVID-19 was among the age group greater than 18, 81.17% (67.26, 95.09), I2= 94.4%, p ≤ 0.001, whereas the least was among students in college 41.31% (3.60, 91.02), I2=99.4%, p ≤ 0.001 (Figure 5). Furthermore, we have done a subgroup analysis by way of a questionnaire administered, since there is heterogeneity. Hence, the highest estimated status of the knowledge subgroup analysis which was done using interviewer administered questionnaire (IAQ), 63.55% (50.69, 76.42), I2= 96.4%, p ≤ 0.001 while the lowast subgroup analysis was online-based, 58.83% (37.26, 80.43), I2= 99.1%, p ≤ 0.001 (). Again, the heterogeneity still existed. So, for the last, we performed subgroup analysis based on the study area but there is no evidence of heterogeneity. The greatest and least prevalences were 74% (95% CI: 69.78, 78.22), I2= 0%, and 41.3% (95% CI: 35.16%, 47.44%), I2= 0% from Tigray and Oromia regions, respectively.

Figure 5

Subgroup analysis by focused group on the prevalence of knowledge towards COVID-19 preventive measures in Ethiopia, 2020.

Subgroup analysis for attitude towards COVID-19 using methods of a questionnaire administered, focused group, and study areas was done. Of the 6 studies, the highest estimated status of attitude towards COVID-19 was with a self-administered questionnaire (SAQ) 80.92% (53.78, 108.07), I2= 99.1%, p ≤ 0.001 whereas, the lowest one was with online-based questionnaire administration 43.80% (41.35, 46.25), I2= 0% (). Furthermore, we carried out a subgroup analysis based on a focused group since heterogeneity existed. Hence, the highest estimated status of the attitude was among health care workers (HCW) 80.92% (53.78, 108.07), I2= 99.1%, p ≤ 0.001 but, the lowest one was among students 56.60% (51.78, 61.41) (). The final subgroup analysis we carried out was based on the study area. Highest estimate was 86.13% (77.80, 94.09), I2= 94%, p ≤ 0.001 from SNNPR and the lowest was 56.60% (51.79, 61.41) from the Amhara Region, with evidence of heterogeneity ().

Subgroup analysis for practices towards COVID-19 based on methods of a questionnaire administered focused group, and study areas has been done. Of the 7 studies, the highest estimated status of practice towards COVID-19 with SAQ was 67.81% (59.48, 76.14), I2= 85.2%, p ≤ 0.001. While the lowest was with IAQ 45.86% (16.97, 74.75), I2= 99.3%, p ≤ 0.001 (). Furthermore, we performed a subgroup analysis by focused group since heterogeneity existed. Hence, the highest estimated prevalence of the practice was among HCW 72% (67.68, 76.32), I2= 85.2%, p ≤ 0.001, but the lowest was among the age group of those older than 18 31.53% (8.99, 54.07), I2= 99.2%, p ≤ 0.001 (). Finally, we have carried out a subgroup analysis based on the study area. The most prevalent was 72% (67.80, 76.32%), I2= 98.9%, p ≤ 0.001 from the Tigray region whereas the lowest was from SNNPR, 20% (16.76, 23.24%), with evidence of heterogeneity ().

Publication Bias

The presence of publication bias was assessed using funnel plots and tests. In this systematic review, funnel plots and tests give evidence on publication bias for knowledge, attitude, and practice towards COVI-19 stated as follows. For knowledge, each article's effective size was allocated against the standard error, and visual inspection of the funnel plot suggests asymmetry. Since six studies lay on the right side and four studies on the left side of the line representing the estimated status () and this was corrected by filling (). The result of the publication bias by Eggers was not showing significant evidence of bias (p-value = 0.907). On the other hand, for attitude, each article's effective size was not allocated against the standard error, and visual inspection of the funnel plot suggests symmetry, as the two studies lay on the right side, the other two studies lay at the middle, and the final two studies lay on the left side of the line representing the estimated status (). The output of the publication bias by Eggers test was not showing significant evidence of bias (p-value = 0.658). Lastly, each article for practice towards COVID-19 effective size was allocated against the standard error and visual inspection of the funnel plot suggests asymmetry as five studies lay on the right side, one study lay at the middle, and one study lay on the left side of the line representing the pooled prevalence () and this was corrected by filling (). The finding of the publication bias by Eggers tests was not showing evidence of bias (p-value = 0.234).

Investigation of Heterogeneity

Heterogeneity in a systematic review is inevitable. This heterogeneity is because of the differences in; study quality, method, sample size, and inclusion criteria. In this review, the value of I2 is a definite sign of significant-high heterogeneity. So, we analyzed it using a random-effects model to adjust for the observed variability. Furthermore, the presence of heterogeneity was also assessed by subgroup analysis for knowledge, attitude, and practice. Heterogeneity for knowledge was due to study area differences. Besides this, the level of heterogeneity was high after subgroup analysis for attitude and practice about COVID-19. Thus, we further tried to investigate the sources of the heterogeneity. That was done using a meta-regression model (using sample size as covariates). Meta-regression is a more complex and preferable method than subgroup analysis. So, to check heterogeneity it has some advantages by assessing one or more covariates. The result of this analysis showed that the covariate was not significant. That was for the presence of heterogeneity (Tables 2 and 3).

Table 2

Meta-Regression Analysis of Factors with the Heterogeneity of the Prevalence of Attitude Towards COVID-19 in Ethiopia, 2020

Heterogeneity Source	Coefficients	Std. Err.	t	P>t	[95% Conf. Interval]
Study year	0005851	0.0012888	0.45	0.673	−.0041633, 0.0029931
_cons	4.717234	1.110884	4.25	0.013	1.632927, 7.801541

Table 3

A Meta-Regression Analysis of Factors with the Heterogeneity of the Prevalence of Practice Towards COVID-19 in Ethiopia, 2020

Heterogeneity Source	Coefficients	Std. Err.	t	P>t	[95% Conf. Interval]
Study year	−277.768	422.587	0.66	0.540	1364.062, 808.5264
_cons	1699.084	1699.084	1.03	0.352	−2561.818, 5959.987

Sensitivity Analysis

The result indicated that no single study unduly influenced the overall estimate of knowledge, attitude, and practice towards COVID-19.

Discussion

Ethiopia is one of the thirteen countries which are considered a top priority by WHO with respect to the need for epidemic response preparedness against COVID-19.32 In Ethiopia, the first COVID-19 cases were announced on March 13, 2020.33 Since then, the number of cases has been raised to over 73,332 currently confirmed cases and over 1170 deaths.34 Thus, this systematic review analysis of knowledge, attitude, and practice study contributes to a better understanding of the current situation, challenges, and solutions for policy decision-makers.

This review stated that the existing finding of the 11 studies described the status of knowledge, attitude, and practice towards COVID-19. Various studies have indicated that, in Ethiopia, the prevalence of knowledge, attitude, and practice about COVID-19 ranged from 20% to 90.3%. This difference in the prevalence of knowledge, attitude, and practice among the different regions of the country can be justified because of the presence of availability of resources, measurement tools, sample size, sampling techniques, sources of information, and designs.

The results of 10 articles with 5122 participants showed that the estimated knowledge towards COVID-19 was 61.78% (95% CI (48.97, 74.58)). This finding is similar to the studies conducted in bi-national African countries 61.6%.35 However, this result is lower than studies done in China and Iran 90%.25,36 This may be because the developing countries use social media less than developed countries and minimize disruption caused by the coronavirus.

The findings of 6 articles with 3903 participants showed that the estimated attitude towards COVID-19 was 72.39% (95% CI (54.02, 90.77)). This finding is nearly the same as the studies conducted in China 73.8%.37 However, it is lower than study reports from India (97.3%).38 The discrepancy may be subjected to variation in the cut-values to measure the favorable and unfavorable attitude levels. Besides, the discrepancies may be due to differences in sample size, study design, population, and study settings.

The output of 7 articles with 4307 participants showed that the estimated preventive practice towards COVID-19 was 52.83% (95% CI (39.26, 66.41)). This finding was very different from a systematic review and meta-analysis result of 73%.39 The possible justifications might be study area and sample size (27,617) differences.

People’s knowledge, attitude, and practice towards COVID-19 are significant determinants of whether they are involved in pandemic-specific preventive behaviors. Scholars stated that elevated KAP towards COVID-19 preventive measures is definitely related to higher commitment in appropriate defensive behavior during the pandemic.40

Limitations

First, the bias may be there because the search was only in the English language. Secondly, the scarcity of data in some regions of Ethiopia may make it a problem to generalize the findings. Finally, used tools for measuring knowledge, attitude, and practice are quantitative. So, to focus on behavior change, qualitative work is necessary.

Conclusions

This systematic review revealed that the knowledge, attitude, and practice towards COVID-19 preventive measures were around 50% and not sufficient enough to combat this rapidly spreading virus. Health promotions through public education about COVID-19 preventive measures are highly recommended by the government in collaboration with healthcare organizations. Besides the government healthcare organizations, every individual should address those behaviors stipulated by the WHO and CDC guidelines to prevent COVID-19. Furthermore, nationwide studies are needed to understand the determinant factors for the knowledge, attitude, and practice towards COVID-19 preventive measures using meta-analysis.