Background
Evidence shows that 7.2 million children under the age of 5 years globally, and nearly half of it in sub-Saharan Africa lost their lives [
1] due to preventable childhood illnesses [
2]. Shortage of health workers is more likely to be associated with more childhood deaths, and many countries have implemented task-shifting, a mechanism within which less qualified health workers like community health workers (CHWs) are delegated to provide health services, to deal with the shortage of health workers [
3].
The government of Ethiopia launched the Health Extension Program (HEP) in 2003 to extend and expand health service coverage and utilization at the grass-root level, particularly in rural areas. The HEP has four major components (family health services, disease prevention and control, hygiene and environmental sanitation, and education and communication), and 17 HEP packages [
4‐
7]. Simultaneously with the development of the HEP, the government started to train the Health Extension Workers (HEWs) as part of implementation strategies.
The HEWs are mainly females who completed grade 10 and received training on the HEP packages [
8]; and they differ from the CHWs since they receive more advanced and comprehensive training and are employed within the government health system and obtain a monthly salary [
9]. They spend 75% of their time within the community performing home visits and outreach activities, and 25% of their time at the health posts providing preventive and limited curative services [
10]. Currently, there are 42,000 employed HEWs deployed all over the country [
11].
One of the four major components of HEP is the family health services. In this component, the HEWs get training on maternal and child health (MCH) care, family planning, immunization, adolescent reproductive health, and nutrition so as to enable them in providing health services to the community within their kebele, the lowest administrative unit within the country [
7]. Besides, the national policy change which supports the community-based treatment of childhood pneumonia scaled-up the integrated community case management (iCCM) within the HEP in 2009 [
12].
Evidence shows that CHWs are often able to perform health service activities like counseling, health education, behavioral change communication, health promotion, screening, treatment, and referral for diseases [
13‐
15]. In line with this, the implementation of the HEP has demonstrated promising achievements in increasing utilization of family planning, immunization, ANC services, and latrine; and improving knowledge and care-seeking behaviour [
10,
16‐
21]. However, the program did not establish a real success in reducing diarrhea and cough incidences, improving delivery and postnatal care services, and identifying the danger signs and symptoms and complications during pregnancy [
10,
22‐
27]. There is also a high degree of irrational drug prescription such as for antimicrobial drugs [
28,
29] that causes significant harm to patients [
30], and a claim that CHWs’ lack of knowledge and practice about drugs may increase the inappropriate use of it [
31].
The performance and successes of CHWs in prevention, promotion and curative services is influenced by factors associated with gender, marital status, age, and education [
32]; and regular and reliable support and supervision [
33]. Training, supplies and equipment, supervision, and transport access are the foremost factors that influence the performance of HEWs [
34,
35].
A few studies have assessed the HEWs’ knowledge and performance on antenatal care, data management knowledge, and handling of medicine [
16,
36,
37]. However, to the best of our knowledge, there is no evidence on the HEWs’ knowledge and practice on drug provision for childhood illness within the study area. This triggered us to see the HEWs’ knowledge and practice on drug provision for childhood illnesses like vaccine given at birth and/or orally, and drugs given for malaria and acute pneumonia. Therefore, this study aimed toward assessing the HEWs’ knowledge and practice on drug provision for childhood illnesses and factors associated with it.
Methods
Study design and setting
Institutional based cross-sectional study was conducted in West Gojjam zone to assess the HEWs’ knowledge and practice and associated factors on drug provision for childhood illnesses. The data were collected from February 25–March 30, 2016. The zone is located in the Amhara region, Northwest of Ethiopia. It is divided into 18 districts which are further sub-divided into 393 kebeles (31 urban and 362 rural) kebeles. In this zone, there were 7 Primary Hospitals, 102 Health Centers and 374 Health Posts. According to the 2015 Amhara National Regional Health Bureau report, the total number of HEWs in the Zone was 816 of which 789 HEWs are working in the rural areas.
Study population and sampling procedures
The study population of this study was all rural HEWs who have been working during the study period. All HEWs in the selected districts were eligible for the study. All voluntary rural HEWs who were working in the selected districts were included in the study whereas HEWs who were on maternity leave and sick leave were excluded from the study.
The sample size was determined using single population proportion formula by taking a proportion of 64% i.e. the proportion of HEWs who provided the correct treatment for children with pneumonia, diarrhea, malaria, and measles [
38], 95% CI, 5% margin of error, and 10% non-response rate.
N = (Zα/2)2*P*(1-p) /w2 = (1.96)2*0.64*(1–0.64)/0.025 = 354.04.
The final sample size was 354.04 + 35.404 (response rate) = 389.44 ≈ 389.
To select the study participants, the investigator purposely selected the West Gojjam zone considering the accessibility of transport and financial feasibility. Among the districts in the zone, seven districts (Yilmana Densa, Mecha, Sekela, Jabi Tehnan, Bahir Dar Zuria, Denbecha, and Debub Achefer) were included in the study. The list HEWs in the selected districts was obtained from the office of West Gojjam Zone. Then, the sample was allocated to the seven districts in which almost all HEWs in the selected districts were included in the study.
Study variables
Response variables
The response variables in this study were knowledge and practice of HEWs on drug provision to childhood illnesses. The overall score was calculated by adding up the scores for each respondent across all questions. Knowledge of HEWs was assessed using 10 questions on basic concepts of drug provision like rational use of drugs, route of administration, and treatment of choice; and HEWs who scored at least 8 points out of 10 were considered as having good knowledge. The practice of HEWs was also assessed using 15 questions like vaccine provision practice, referral practice, and drug control practice; and HEWs who scored at least 12 points out of 15 questions were considered as having good practice.
Explanatory variables
The socio-demographic characteristics of the study participants (age, marital status, educational status, religion, and work experience), health systems support (training, supervision, and drug and equipment supply), and organizational characteristics (availability essential drugs, medical equipment, national guideline, drug control systems, and patient registration books) were collected as explanatory variables. Rational drug use was defined as prescribing the right drug, the inadequate dose for the sufficient duration and appropriate to the clinical needs of the patient at the lowest cost. It was measured using a semi-structured questionnaire composed of 8 closed and 2 open-ended questions. The adequacy of training was measured based on length of stay on the job and formal course training, and contents of the childhood treatment training.
Data collection procedures
Data were collected using a pre-tested and structured questionnaire. The questionnaire was prepared by reviewing HEWs iCCM guideline [
13] and reviewing factors related to knowledge and practice in previous studies [
12,
16,
36,
37]. The questionnaire addressed questions related to knowledge and practice of HEWs on drug provision for childhood illnesses, and socio-demographic characteristics of the study participants, health system support, and organization characteristics (Supplementary file
1).
For data collection, six supervisors who were BSc nurses and six data collectors who were diploma nurses were trained about the basic techniques of data collection for 2 days. The questionnaire was pre-tested in Semen Achefer and Burie Zuria districts of the West Gojjam zone on 25 HEWs who did not participate in the study, and necessary modification was made. Then, data were collected during HEW’s monthly meeting held at common places near their work area. Such meetings were usually attended by six HEWs from three kebeles. The questionnaire was filled in immediately by HEWs in the presence of data collectors. The collected data were checked by the data collectors’ supervisors as well as the principal investigator.
Data processing and analysis
The data were entered using Epi info version 7 and exported to SPSS version 20 for analysis. Descriptive statistics were used for organizing, describing and summarizing the data. Both bivariable and multivariable logistic regression was run to determine the association between explanatory variables, and response variables. Initially, bivariable logistic regression was used to identify factors independently associated with the outcome variable at a
p-value of less than 0.25 based on previous evidence. David W. Hosmer and Stanley Lemeshow in their second edition book entitled “Applied Logistic Regression” recommended using a
P-value of less than 0.25 as a screening criterion for variable selection for the multivariable analysis [
39]. Other published articles used a
p-value of 0.2 as a cut-off point to select variables for the multivariable analysis [
40‐
43]. Therefore, in this study, variables having
P-value ≤0.25 in the bivariate analysis were considered for multivariable analysis. Besides, analysis of multicollinearity was performed (Supplementary file
2). Then multivariable logistic regression was used to control the effect of confounding factors. Statistical significance was determined using a 5% level of significance and odds ratio with 95% CI.
Discussion
The result of this study showed that 57.5% of HEWs had good knowledge of drug provision for childhood illness. The result is consistent with a study done in the Oromia region among 150 health posts (53%) [
38]. Besides, 66.8% of HEWs had a good practice on drug provision for childhood treatments which is in line with the result of a study done in the Oromia region (64%) [
44]. However, this study revealed that 42.5% HEWs had poor knowledge and 33.2% of HEWs had poor practice on drug provision for childhood illnesses. This is a considerable magnitude if we take the 42,000 HEWs currently employed in the country into consideration [
10] though the study was not assumed to represent the HEWs employed all over the country.
In this study, socio-demographic factors such as educational status, and work experience had a significant association with HEWs’ knowledge and practice on drug provision for childhood illnesses.
The HEWs who had a college diploma (10 + 4) level were more likely to have good knowledge and practice of drug provision than those who had certificate level (10 + 1) education. This result is in line with the study in Kenya and Nigeria that reported that the CHWs’ level of education tend to increase the level of general knowledge and hence positively influence the ability of their performance while a lower level of education is associated with lower delivery of health care service [
45,
46]. However, this finding is in contrast with the finding of the study in Western Uganda [
47]. This might be due to differences in socio-demographic characteristics of study participants.
The HEWs who had work experience of 7–9 years and 10–12 years were more likely to have good knowledge of drug provision than those who had work experience of 1–3 years. This might be due to HEWs who serve 7–9 and 10–12 years of experience had got better knowledge from their supervisors and the national guidelines than those who serve 1–3 years of experience [
48,
49]. In the same token, the current study revealed that 13.5% of HEWs were level-4 and above in educational status, of which 91.7 and 64.9% had work experience of 7 years and above and 64.9% had 10 years and above, respectively.
The study also revealed that health systems and support related factors such as supervision, availability of national guidelines, and training had a significant association with HEWs’ knowledge and practice on drug provision for childhood illnesses.
HEWs who were supervised quarterly and biannually were less likely to have good knowledge of drug provision than those who were supervised in the monthly interval. This result is consistent with a study done in Bangladeshi, and East and Southern Africa in which a high frequency of supervision was associated with a better understanding of working environments of CHWs [
14,
33]. HEWs who had no national guidelines in their health posts were less likely to have good knowledge than those who had national guidelines. This is consistent with the findings of the studies done on knowledge and practice of healthcare workers towards infection prevention in healthcare facilities of West Arsi District, and Debre Markos Referral Hospital in Ethiopia in which health facility factors such as availability of guidelines was associated with the knowledge of infection prevention [
48,
49],
HEWs who did not receive training were less likely to have a good practice of drug provision than those who were trained in childhood treatment which is in line with a study in Nepal [
14]. HEWs who were supervised biannually were less like to have a good practice on drug provision than those who were supervised monthly. This finding is consistent with studies conducted in Uganda and other low-income countries [
50,
51]. Besides, HEWs who had no national guidelines were less likely to have a good practice of drug provision than those who had national guidelines. This finding is in line with a study in Addis Ababa [
34].
Conclusion
The study indicated that a considerable number of HEWs had poor knowledge and practice on drug provision. Socio-demographic characteristics of HEWs such as education, and work experience; and health systems and support related factors such as frequency of supervision, training, and availability of national guidelines were factors associated with HEWs’ knowledge and practice on drug provision for childhood illnesses.
Therefore, designing an appropriate strategy to improve education status, improving supervision and availability of national godliness, and providing adequate refreshment training for HEWs focusing on basic concepts and practices of drug provision might improve the knowledge and practice of HEWs on drug provision for childhood illnesses.
Acknowledgments
We are very thankful to the Institute of Public Health, College of Medicine and Health Sciences, the University of Gondar for the approval of the ethical issue and its technical and financial support. We would also like to express our gratitude to West Gojjam Zone Health Department, District Health Offices officers, supervisors, data collectors and HEWs who participated in this study.
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