Background
Diarrhea in children is defined as the occurrence of three or more loose or liquid stools per day by the World Health Organization (WHO). Frequent occurrence of formed stools is not diarrhea, nor is the passing of loose, “pasty” stools by breastfed babies [
1]. Diarrheal diseases are amongst the most prevalent health problems in under-five children accounting for 9% of all deaths worldwide in 2015 [
2]. The WHO revealed that worldwide, approximately 1.7 billion cases and 760,000 deaths of childhood diarrhea occur each year [
1]. Most childhood deaths from diarrhea occur among children less than 2 years of age living in poor settings of sub-Saharan Africa and South Asia [
2]. The Southeast Asian and African regions each contributed 26% of severe episodes of diarrhea in 2010 [
3]; as a result in the burden of diarrheal diseases in developing countries is greater than in developed countries [
3,
4]. According to UNICEF in 2016, the total annual childhood diarrhea deaths reduced by more than 50% (for the last 15 years, decreased from over 1.2 million to half a million) [
2]. This is miserable since the problem can be easily treated with oral rehydration therapy (ORS) [
3].
In poor settings of sub-Saharan Africa, 25 to 75% childhood illness and 50% childhood deaths occurred due to diarrhea [
3]. In poor settings of African region, rotavirus contributed the highest child deaths and is remained the main cause of diarrhea [
5]. The magnitude of childhood diarrhea in East Africa was 13–32% [
6‐
9]. Reports and studies on child mortality and morbidity in Ethiopia showed that diarrhea is a major public health problem [
10,
11]. The 2011 Ethiopian Demographic and Health Survey (EDHS) revealed that 13% of the Ethiopian children had diarrhea in the 2 weeks preceding the survey [
12,
13]. Other studies in different parts of Ethiopia indicated that the prevalence of childhood diarrhea was in the range of 13.5–30.5% [
14‐
22].
Multiple factors contribute to the occurrence of diarrhea among children under-five years of age. Childhood diarrhea was significantly associated with maternal related factors: low maternal education [
7,
17,
18,
20,
22,
23], mother’s age [
9], history of maternal diarrheal morbidity [
21], poor knowledge of mothers on diarrhea [
19] and rural residence [
22], Child related factors such as sex of child [
22], age of children [
7,
16,
18‐
20,
23] and malnutrition [
21] were statistically associated with childhood diarrhea.
Several studies reported that environmental conditions and behavioral practices; number of under-five children [
18,
21], latrine availability [
18,
24], supplementary feeding commencing time [
19,
23], mode of feeding [
21], improper child stool disposing methods [
18], mothers not practicing hand washing at important times [
17,
19,
20,
22], lack of safe water sources [
22,
24,
25], improper handling of water for drinking [
15,
23,
25], improper solid waste disposal methods [
16,
17], lowest wealth status [
19], and longer time elapsed to visit households by health extension workers [
19] were also significantly associated with childhood diarrhea. A systematic study conducted in Low and Middle Income Countries (LMICs) also revealed that diarrheal diseases are prevalent in areas with water scarcity, unsafe drinking water supply, poor hygiene, and lack of sanitation [
26].
According to EDHS 2011 report, under-five mortality in Tigray region was 85 per 1000 live births [
6]. A study conducted in Laelay Michew ditrict of Tigray regional state indicated the prevalence of diarrhea in the community was 17.7% [
22]. Despite the high prevalence of diarrhea and higher child mortality in the region, there is limited information about the determinants of childhood diarrhea. According to the study’s district health office report in 2015, diarrheal disease remains the second cause of morbidity and it continues an important public health problem despite the comprehensive health extension programs in place. Identifying the determinants of diarrhea is very important for effective implementation of child health intervention programs, for general assessment of resource requirements and intervention prioritizations. Therefore, this study has assessed the determinants of diarrhea among under-five children in Medebay Zana district, northwest Tigray, Ethiopia.
Results
Socio-demographic characteristics
A total of 1763 under-five children (250 with diarrhea and 1513 without diarrhea) were identified during a house to house survey. Of these, 600 under five children (200 cases and 400 controls) with their respective mothers or caregivers were sampled for this study with a response rate of 99.5% in both study groups. In the current study more than 95% of the index children, 190 (95.5%) cases and 392 (98.5%) controls were from their real mothers. More than half of the mothers/caregivers in both groups; 106 (53.3%) cases and 217 (54.5%) controls were in the age group of 25–34 years.
Regarding head of households, 184 (92.5%) cases and 379 (95.2%) controls were headed by males. Majority of the children’s mothers/caregivers in both study groups; 173 (86.9%) cases and 267 (67.1%) controls had low educational level. Majority of mothers/caregivers in both groups, 177 (88.9%) cases and 346 (86.9%) controls were housewives or farmers by occupation. Mothers/caregivers were interviewed for their perceived economic status; nearly 90% in both groups; 185 (93.0%) cases and 358 (89.9%) controls reported that they had lower relative wealth to others.
Among these studied children, 70 (35.2%) cases and 109 (27.4%) controls were found in the age group of 12–23 and 91 (45.7%) cases and 157 (39.4%) controls were in the age group of 24 and above months (Table
1).
Table 1
Socio-demographic characteristics of respondents in Medebay Zana District, Northwest Tigray, Ethiopia, 2015 (n = 597; cases: 199 and controls: 398)
Maternal relation with child |
Caregiver | 9 (4.5) | 6 (1.5) |
Mother | 190 (95.5) | 392 (98.5) |
Maternal/Caregiver age | | |
15–24 | 29 (14.6) | 64 (16.1) |
25–34 | 106 (53.3) | 217 (54.5) |
35 and above | 64 (32.2) | 117 (29.4) |
Head of household | | |
Female | 15 (7.5) | 19 (4.8) |
Male | 184 (92.5) | 379 (95.2) |
Maternal educational status (n = 582) | | |
Low educational level | 185 (95.5) | 343 (88.4) |
High educational level | 9 (4.5) | 45 (11.6) |
Maternal/Caregiver occupation | | |
House wife or Farmer | 177 (88.9) | 346 (86.9) |
Self or paid employee | 22 (11.1) | 52 (13.1) |
Relative wealth to others | | |
Lower relative wealth | 185 (93.0) | 358 (89.9) |
Higher relative wealth | 14 (7.0) | 40 (10.1) |
Gender of the child | | |
Male | 100 (50.3) | 195 (49.0) |
Female | 99 (49.7) | 203 (51.0) |
Age of the child in month | | |
< 6 | 5 (2.5) | 56 (14.1) |
6–11 | 33 (16.6) | 76 (19.1) |
12–23 | 70 (35.2) | 109 (27.4) |
24 and above | 91 (45.7) | 157 (39.4) |
No of under five in the household | | |
2 or less | 173 (86.9) | 383 (96.2) |
3+ | 26 (13.1) | 15 (3.8) |
Child birth order | | |
1 | 48 (24.1) | 99 (24.9) |
2–3 | 101 (50.8) | 176 (44.2) |
4–5 | 24 (12.1) | 82 (20.6) |
6+ | 26 (13.1) | 41 (10.3) |
Maternal/caregiver and child characteristics and caring practices
Concerning place of delivery of the index child, more than a one third, 93 (46.7%) cases and 126 (31.7%) controls were delivered at home. Less than 5% of the studied children; 6 (3.0%) cases and 19 (4.8%) controls were never been immunized. Regarding feeding practice; 27 (13.6%) cases and 18 (4.5%) controls for exclusive breast and 72 (36.2%) cases and 105 (26.4%) controls for complementary feeding did not follow the recommend practices. This study assessed about maternal/caregiver history of diarrheal disease in the previous 2 weeks preceding the survey; 29 (14.6%) cases and 31 (7.8%) controls had diarrheal disease (Table
2).
Table 2
Maternal and child characteristics and caring practices of the respondents in Medebay Zana District, Northwest Tigray, Ethiopia, 2015 (n = 597; cases: 199 and controls: 398)
Place of delivery |
Home | 93 (46.7) | 126 (31.7) |
Health facility | 106 (53.3) | 272 (68.3) |
Immunization status |
Never been immunized | 6 (3.0) | 19 (4.8) |
Immunized | 193 (97.0) | 379 (95.2) |
Duration the child exclusively breast fed |
Less or greater than 6 months | 27 (13.6) | 18 (4.5) |
= 6 months | 172 (86.4) | 380 (95.5 |
Time the child initiated complementary feeding |
Less or greater than 6 months | 72 (36.2) | 105 (26.4) |
Exactly at 6 months | 127 (63.8) | 293 (73.6) |
Maternal diarrhea in the last two weeks |
Yes | 29 (14.6) | 31 (7.8) |
No | 170 (85.4) | 367 (92.2) |
Environmental conditions and behavioral practices
A significant number of households in the study area; 139 (69.8%) cases and 186 (46.7%) controls have not had toilet facilities. Among the total households interviewed in this study, 122 (61.3%) cases’ households and 151 (37.9%) controls’ households had improper domestic solid waste disposal methods.
Safe and adequate water supply were assessed using household drinking water and distance to bring water; 122 (61.3%) cases and 151 (37.9%) controls used unprotected drinking water; similarly more than one third 74 (37.2%) cases and 171 (43.0%) controls have travelled a round trip distance of more than 30 min to fetch water. Majority of both groups; 168 (84.4%) cases and 295 (74.1%) controls did not use soap for hand washing at critical time. Concerning children’s stool disposal practice; 139 (69.8%) cases and 184 (46.2%) controls were not safe (Table
3).
Table 3
Environmental health conditions and behavioral practices of respondents in Medebay Zana District, Northwest Tigray, Ethiopia, 2015 (n = 597; cases: 199 and controls: 398)
Toilet facility in the household |
No facility | 139 (69.8) | 186 (46.7) |
Traditional or improved toilet | 60 (30.2) | 212 (53.3) |
Refuse disposal method |
Improper | 122 (61.3) | 151 (37.9) |
Proper | 77 (38.7) | 247 (62.1) |
Type of floor of house made from |
Mud | 196 (98.5) | 385 (96.7) |
Cement | 3 (1.5) | 13 (3.3) |
Type of roof of house made from |
Thatched | 25 (12.6) | 41 (10.3) |
Corrugated iron sheet | 174 (87.4) | 357 (89.7) |
Main source of water |
Unprotected | 67 (33.7) | 70 (17.6) |
Protected | 132 (66.3) | 328 (82.4) |
Round trip distance to fetch water |
> 30 min | 74 (37.2) | 171 (43.0) |
= < 30 min | 125 (62.8) | 227 (57.0) |
Soap use for hand washing at critical time |
Yes | 31 (15.6) | 103 (25.9) |
No | 168 (84.4) | 295 (74.1) |
Method of child stool disposal |
Not safe | 139 (69.8) | 184 (46.2) |
Safe | 60 (30.2) | 214 (53.8) |
Determinants of childhood diarrhea
Finally, maternal educational status, age of index child, number of under-five children, exclusive breastfeeding, complementary feeding initiation time, maternal diarrhea in the last 2 weeks, type of toilet facility, domestic waste disposal methods and household drinking water were independent predictors of childhood diarrhea.
In the multivariable analysis, maternal educational status was associated with childhood diarrhea; children whose mothers had low educational level were three times more likely to develop diarrhea than children whose mothers had high educational level [AOR = 2.88, 95% CI (1.70, 4.88)]. The study revealed that the children’s exposure to diarrhea was increased when they completed their first 6 months of life and the risk was highest at the age of 12–23 months. Those children whose group of ages in months; 6–11 [AOR = 7.48, 95% CI (2.40, 23.32)], 12–23 [AOR = 11.64, 95% CI (3.86, 35.12)] and 24 and above [AOR = 8.97, 95% CI (3.01, 26.68)] were 7–12 times higher risk of developing diarrhea compared to those whose age were less than 6 months. When number of under-five children in the households increased, the risk of diarrhea also increased; children living in households who had three and above under five children were four folds more likely to experience diarrheal disease [AOR = 4.05 95% CI (1.91, 8.60)] compared to children living in households with two or less under five children.
Children who did not exclusively breastfeed experienced diarrheal disease at five times [AOR = 4.84, 95% CI (2.21, 10.60)] more likely compared to those who exclusively breast fed. This study also showed that children who initiated complementary feeding above 6 months of age were 1.78 times more likely to develop diarrhea [AOR = 1.78, 95% CI (1.09, 2.92)] compared to their counterpart. The likelihood of childhood diarrhea among children from mothers/caregivers who had diarrhea in last 2 weeks was increased by two folds [AOR = 2.10, 95% CI (1.09, 4.05)] compared to their counterpart.
Availability of toilet facility in the households was significantly associated with childhood diarrhea. Children from households who had no toilet facility had two times higher risk of having diarrhea than children from household who had traditional or improved toilet facility [AOR = 2.10, 95% CI (1.34, 3.30)]. Among the behavioral practices; domestic waste disposal methods was associated with childhood diarrhea. Children whose mothers/caregivers practiced improper domestic waste disposal methods were 2.29 times more likely to develop diarrhea than children whose mothers/caregivers practiced proper waste disposal [AOR = 2.29, 95% CI (1.53, 3.44)].
Children whose households consumed unprotected drinking water were two times more likely develop diarrhea [AOR = 1.83, 95% CI (91.12, 2.98)] compared to children whose households consumed protected water (Table
4).
Table 4
Bivariable and multivariable logistic regression analysis of factors associated with childhood diarrhea in Medebay Zana District, Northwest Tigray, Ethiopia, 2015 (n = 597; cases: 199 and controls: 398)
Maternal relation with child |
Caregiver | 9 (4.5) | 6 (1.5) | 3.09 (1.07, 8.82)* | – |
Mother | 190 (95.5) | 392 (98.5) | 1 | 1 |
Head of household |
Female | 15 (7.5) | 19 (4.8) | 1.63 (0.81, 3.27)+ | – |
Male | 184 (92.5) | 379 (95.2) | 1 | 1 |
Maternal educational status (n = 582) |
Low educational level | 185 (95.5) | 342 (88.4) | 3.27 (2.06, 5.18)*** | 2.88 (1.70, 4.88)*** |
High educational level | 9 (4.5) | 45 (11.6) | 1 | 1 |
Age of the child in month |
< 6 | 5 (2.5) | 56 (14.1) | 1 | 1 |
6–11 | 33 (16.6) | 76 (19.1) | 4.86 (1.77, 13.25)* | 7.48 (2.40, 23.32)* |
12–23 | 70 (35.2) | 109 (27.4) | 7.19 (2.75, 18.84)*** | 11.64 (3.86, 35.12)*** |
24 and above | 91 (45.7) | 157 (39.4) | 6.49 (2.51, 16.79)*** | 8.97 (3.01, 26.68)*** |
No of under five children in household |
2 or less | 173 (86.9) | 383 (96.2) | 1 | 1 |
3+ | 26 (13.1) | 15 (3.8) | 3.84 (1.98, 7.43)*** | 4.05 (1.91, 8.60)*** |
Child birth order |
1 | 48 (24.1) | 99 (24.9) | 1 | 1 |
2–3 | 101 (50.8) | 176 (44.2) | 1.18 (0.78, 1.81) | – |
4–5 | 24 (12.1) | 82 (20.6) | 0.60 (.34, 1.07)+ | – |
6+ | 26 (13.1) | 41 (10.3) | 1.31 (0.72, 2.38) | – |
Place of delivery |
Home | 93 (46.7) | 126 (31.7) | 1.89 (1.34, 2.69)*** | – |
Health facility | 106 (53.3) | 272 (68.3) | 1 | 1 |
Duration the child exclusively breast fed |
Not exclusive | 27 (13.6) | 18 (4.5) | 3.31 (1.78, 6.18)*** | 4.84 (2.21, 10.60)*** |
Up to 6 months | 172 (86.4) | 380 (95.5 | 1 | 1 |
Time initiated complementary feeding |
Initiated above 6 months of age | 72 (36.2) | 105 (26.4) | 1.58 (1.09, 2.28)* | 1.78 (1.09, 2.92)* |
Initiated at 6 months of age | 127 (63.8) | 293 (73.6) | 1 | 1 |
Maternal diarrhea in the last two weeks |
Yes | 29 (14.6) | 31 (7.8) | 2.02 (1.18, 3.46)* | 2.10 (1.09, 4.05)* |
No | 170 (85.4) | 367 (92.2) | 1 | 1 |
Toilet facility in the household |
No facility | 139 (69.8) | 186 (46.7) | 2.64 (1.84, 3.79)*** | 2.10 (1.34, 3.30)*** |
Traditional or improved toilet | 60 (30.2) | 212 (53.3) | 1 | 1 |
Domestic solid waste disposal methods |
Improper | 122 (61.3) | 151 (37.9) | 2.59 (1.83, 3.68)*** | 2.29 (1.53, 3.44)*** |
Proper | 77 (38.7) | 247 (62.1) | 1 | 1 |
Household drinking water |
Unprotected | 67 (33.7) | 70 (17.6) | 2.38 (1.61, 3.52)*** | 1.83 (1.12, 2.98)* |
Protected | 132 (66.3) | 328 (82.4) | 1 | 1 |
Round trip distance to fetch water |
> 30 min | 74 (37.2) | 171 (43.0) | 0.79 (0.55, 1.11)+ | – |
= < 30 min | 125 (62.8) | 227 (57.0) | 1 | 1 |
Soap use for hand washing at critical time |
Yes | 31 (15.6) | 103 (25.9) | 1 | 1 |
No | 168 (84.4) | 295 (74.1) | 1.89 (1.21, 2.95)** | – |
Discussion
This study has revealed the determinants of diarrhea among under-five children. Maternal educational status, age of index child, number of under-five children in households, exclusive breastfeeding, complementary feeding, maternal/caregiver diarrhea, availability of toilet facilities in households, domestic solid waste disposal methods and household drinking water were found to be statistically associated with childhood diarrhea. This study indicated that children whose mothers had low educational level were three times more likely to concede diarrhea compared to children whose mothers had higher educational level. This finding is consistent with several studies conducted across the world; in Ethiopia [
14,
17,
18,
20,
30], in Uganda [
7], Ghana [
31] and Salvador, north-eastern Brazil [
32]. This could be explained by maternal educational status persuades the personal and environmental hygienic practices, child feeding and caring practices, improving living conditions and reducing resistance for new ways of delivery for prevention and control of communicable diseases interventions like health extension programs.
Concerning the age of index children; older age children were more likely to develop childhood diarrhea compared to younger children, 0–5 months of age. Similar findings have been reported from Ethiopia [
14,
16,
19,
20,
23,
30], Ghana [
33], Tanzania [
34], Egypt [
35], Uganda [
7]. In this study, the very young children 0–5 months particularly those who exclusively breastfed; more than 85% of cases and controls children were exclusively breastfeed and these children are usually safe and protected from exposure of contaminated agents, but the other age groups (6–11, 12–23 and 24 and above months of age) are exposed to different sources of infections because this is a period of excessive motilities while crawling or walking, tendency of placing in any objects to their mouths and particularly in weaning time; children are prone to diarrhea during consuming foods that are prepared unsanitary conditions.
In present study, children from households with more than three under-five children were four times at risk of diarrhea compared to two or less under-five children in the households. This result is in line with other findings done in Ethiopia [
16,
18,
21] and Pakistan [
36]. This is because when there are higher number of under-five children in the households; mothers/caregivers are influenced to provide adequate and timely childcare; similar evidence was documented in Dakahlia, Egypt that indicated this might be due to the inability of mother/caregiver to care for a large number of children [
35].
Regarding maternal/caregiver health and caring practices; child feeding practices were significantly associated with childhood diarrhea in which children who did not exclusively breastfeed and initiated complementary feeding above 6 months of age were five and two-folds at risk of diarrhea, respectively compared to their counterparts. These findings are in agreement with similar findings done elsewhere; duration of breast feeding [
14] in Mecha District, Ethiopia; exclusive breastfeeding protects hospitalization due to diarrhea. This study estimated that 53% of diarrhea hospitalizations occurred each month could have been prevented if all infants were exclusively breastfed [
37]. A study conducted in Amhara regional state, Ethiopia also revealed that complementary feeding initiated at inappropriate time increased the odds of childhood diarrhea [
19] and similar findings were reported from Kotebe area, Addis Ababa, Ethiopia [
23] and rural Zimbabwe [
38]. This is because breastfeeding and initiation of complementary feeding on 6th months provide protective factors that could help reduce various infections including diarrhea. They are also strengthening the immunity of children which indirectly reduces diarrhea causative organism(s) accidently introduced into supplementary foods during feeding practices and due to unhygienic procedures in the preparation of feeds, materials and types of water used.
This study revealed that maternal/caregiver history of diarrheal illness was significantly associated with childhood diarrhea. Children whose mothers/caregivers had diarrhea in the 2 weeks period preceding the survey were two times more likely to develop diarrhea than children whose mothers/caregivers had no diarrhea in the given period of time. Similar findings have been documented in Ethiopia [
14,
21,
39]. This is due mothers or care givers with diarrhea were considered as main source of childhood diarrhea in this case; they are also responsible in food preparation for their family and the immediate providers of childcare. Moreover, this could be due to the care of the child may be compromised if the mother herself is sick.
Out of the environmental and behavioral conditions considered in this study; availability of toilet facility, domestic solid waste disposal methods and household drinking water were significant risk factors for childhood diarrhea. In this study, children from households which had no toilet facilities were two times higher at risk of diarrhea than those from households with traditional or improved toilet.
The same results are found in developing countries; where in Ethiopia latrine facility availability as a community-level factor [
14,
19], not owned latrine in the case-control studies of derashe district and Wolaita Soddo town, Southern Ethiopia [
40,
41], and having a latrine within the compound in Tanzania [
42].
Households with latrine availabilities might be able to dispose human excretal safely and reduces the frequency of contacts of insects with feces. Latrine reduces fecal contamination of the household compound and community environment; as a result reduces susceptibility of family members to diarrheal morbidity.
Concerning domestic solid waste disposal methods, in the current study, children from those families who used improper domestic solid waste disposal were at 2.29 times risk in developing diarrhea compared to their counterparts. This is in line with similar studies conducted in Ethiopia [
16,
29] and in Salvador, north-eastern Brazil where garbage dump nearby [
32]. The possible explanation could be an improper disposal of refuse serves as a good source for breeding site of insects, in turn may bring pathogens from the refuse site to water and food.
In present study, children who had unprotected drinking water in their households were almost two folds at risk of concede diarrhea compared to those who had protected drinking water. This result is consistent with several studies’ findings done in Ethiopia [
40,
41], a case–control study conducted in Pakistan shown that water and sanitation extension program intervention decreased the odds of diarrhea in children [
43]. This is because unsafe water supply usually considers as a main source of water borne diseases including diarrhea.
Conclusion
This study has identified maternal educational status, age of index child, the number of under-five children in households, exclusive breast and complementary feeding practices, maternal/caregiver diarrhea, availability of toilet facility in households, domestic solid waste disposal methods, and household drinking water were found to be determinants for childhood diarrhea. Therefore, the findings have important policy implications for health intervention programs, insight the strengthening of health extension programs in terms of provision of better sanitation and hygiene practices, intensifying family planning services, and effective educational programs to improve individuals’ living standard conditions.