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. 2017 Aug 23;17:182. doi: 10.1186/s12887-017-0934-5

Factors associated with diarrheal morbidity among under-five children in Jigjiga town, Somali Regional State, eastern Ethiopia: a cross-sectional study

Hailemichael Bizuneh 1,, Fentabil Getnet 2, Beyene Meressa 2, Yonatan Tegene 3,1, Getnet Worku 1
PMCID: PMC5568275  PMID: 28830462

Abstract

Background

The prevalence of underfive diarrhea in Somali Regional State, Ethiopia is one of the highest in the country. This study attempted to examine the multiple factors associated with underfive diarrhea and how they might influence its prevalence in Jigjiga, Somali regional state, Ethiopia.

Methods

A community based cross-sectional study was conducted from February 15 to 28, 2015. Multistage sampling technique was used to collect data from 492 mothers via household survey. A pre-tested, structured questionnaire was used to collect data through face-to-face interview. Ethical clearance was obtained before data collection. Stepwise multivariable logistic regression was used to calculate adjusted odds ratios.

Results

The two weeks prevalence of under five diarrhea in Jigjiga town was 14.6%. Up on multivariable analysis, maternal educational level of primary school and above was found to be protective against childhood diarrhea [AOR: 0.227(0.100–0.517)] whereas, unavailability of water [AOR: 2.124(1.231–3.664)] and lack of hand washing facility [AOR: 1.846(1.013–3.362)] were associated with diarrhea.

Conclusion

Poor water supply, lack of hand washing facilities and lack of formal maternal education were associated with underfive diarrhea in the study area. Improved access to water supply along with environmental health intervention programs designed to promote good hygiene behavior could be of paramount importance to alleviate burden of childhood diarrhea.

Electronic supplementary material

The online version of this article (doi:10.1186/s12887-017-0934-5) contains supplementary material, which is available to authorized users.

Keywords: Underfive, Diarrhea, Factors, Hygiene, Jigjiga, Ethiopia

Background

Diarrhea is one of the leading infectious causes of morbidity and mortality in underfive children [1, 2]. In 2015, it was estimated that 1.3 million deaths were caused by diarrheal diseases, of which 499,000 were underfive children [3]. Eventhough decline in diarrheal diseases is reported [4] Sub-sahran Africa, including Ethiopia, remains one of the highly affected regions [58].

The underfive mortality rate in Ethiopia, 88 per 1000, indicates that the effort towards reduction of underfive mortality in Ethiopia is still a long way ahead if the country is to achieve the Millennium Development Goal 4 target of reducing the underfive mortality rate by two-thirds between 1990 and 2015. In 2010, in Ethiopia, diarrhea was responsible for 8% of all under-5 mortality and 13% of morbidity amongst under five children. The proportion of children with diarrhea for whom advice or treatment was sought from a health care provider was only 32% [9, 10].

According to Ethiopian Demographic and Health Survey data for under-5 mortality, Somali regional state reported 93 deaths per 1000 live births and two weeks prevalence of diarrhea was 19.5%, which is the third highest in the country next to Gambella and Benishangul regional states. In Somali region, 54.4% of underfive children did not receive any form of treatment for diarrheal morbidity [10].

In Ethiopia, various strategies have been implemented to reduce child mortality from diarrhea. The Health Sector Development Program IV (2010/11–2014/15), which is a policy implementation strategic document that guides the development of sub national plans and sets the rule of engagement in the health sector, aimed to decrease under-five mortality rate from 101/1000 live births to 68/1000. In doing so, the Integrated Management of Childhood Illness approach, has been implemented as a major strategy. Despite the effort, underfive child mortality in the country remains one of the highest in sub-sahran Africa [11, 12].

Sociodemographic, household, environmental, and host characteristics play an important role in determining risk and recovery from diarrheal episodes. Many of the risk factors for contracting diarrheal illnesses are associated with poor socioeconomic conditions such as: lacking access to safe water and sanitation, poor hygiene practices, unsafe human waste disposal, limited access to health care, education, poor diet and housing conditions [2, 8, 13].

So far, few studies have been conducted to identify factors associated with underfive diarrhea in Ethiopia, but a study conducted in Somali Regional State and specifically Jigjiga town is lacking. As Somali region has the third highest underfive diarrheal morbidity and mortality rate in the country, a study which addresses the topic is much needed. This study attempted to examine the prevalence and factors associated with underfive diarrhea in Jigjiga, Ethiopia.

Methods

This study was a community based cross-sectional study conducted from February 15–28, 2015. Jigjiga is the capital town of Somali Regional State located in the eastern part of Ethiopia. The population of the town is estimated to be 159,300. The population is mainly of Somali extraction and most residents are Muslim. There is one referral and one zonal hospital, and two health centers in town.

Sample size was computed based on single population proportion formula assuming 95% confidence interval, 5% margin of error, prevalence (P) of 19.5% (two weeks prevalence of diarrhea among children under age five in Somali Regional State, Ethiopia) [10], a design effect of 2 (since multistage cluster sampling was used) and a non-response rate of 10% which gave a final sample size of 530.

A multistage sampling technique was used including Kebeles (administrative sub divisions of town) as first-stage units, and Ketenas (non-administrative sub divisions of kebeles) as second-stage units, and households as third-stage units. First, of the total 10 kebeles in the town, 5 kebeles were selected by lottery method. Then, ketenas were chosen from each of the 5 kebeles. The number of ketenas included was proportionally allocated to the size of the kebeles. Since the number of underfive children residing in the selected ketenas was not available, a census was conducted in all the selected ketenas to have a sampling frame. Based on this sampling frame obtained from the census, the final sample size of 530 was proportionally allocated among the ketenas. Systematic random sampling was used within each ketenas to select households for interview. In households with more than one under five index children or more than one mother or caregiver, lottery method was used to choose one. Two revisits to a household were made for respondents unavailable at the time of data collection. Inclusion criteria for the study participants were being an index underfive child, and a mother or care giver who is permanent resident of the town.

Operational definitions

  • Diarrhea – the presence three and more loose or liquid stools per day within two weeks period prior to survey

  • Dirt floor: floor made of earth, sand or dung

  • Non-dirt floor – floor made of wood planks, palm/bamboo, parquet/polished, vinyl or asphalt strips, ceramic tiles or cement

  • Hand washing: the physical removal of microorganisms from the hands using soap (plain or antimicrobial) and running water.

  • Improved water source: piped water, piped water to yard/plot, public tap or stand pipe, protected dug well and bottled water

  • Unimproved water sources: unprotected dug well, tanker-truck, surface water (river, pond and stream)

  • Proper solid waste disposal – burying or storing in a container and disposing in designed site

  • Improper solid waste disposal – burning, open field disposal

  • Improved liquid waste disposal – flush toilet, flush/pour to pit latrine, ventilated improved pit latrine and pit latrine with slab

  • Unimproved liquid waste disposal – flush to elsewhere, pit latrine without slab, bucket and no facility

  • Hand washing at critical times – washing hands before and after cooking foods, after latrine use, and before feeding child

The outcome variable was diarrhea and independent variables were composed of socio demographic variables, household and environmental, hygiene behavior and child feeding practices. A questionnaire adapted from World Health Organization (Core questions on drinking water and sanitation for household surveys) [14] composed of closed-ended questions was used in preparation of the instrument. The final questionnaire was translated to Somali language and back to English language to check for consistency. The questionnaire was pretested on 5% of the total sample size, i.e. 27 mothers of underfive children who resided in a Kebele outside the study area. Finally a pretested, structured questionnaire was used to conduct face-to-face interviews Additional file 1. Data collectors proficient in the local Somali language were trained by the researchers. On-field supervision of data collectors was carried out.

Data was entered, cleaned and analyzed using Statistical Package for Social Sciences. Descriptive statistics was used to present results. Crude and adjusted odds ratio with 95% confidence interval were also calculated in univariate and multivariable logistic regressions. In order to identify independent factors associated with the outcome, variables significantly associated on univariate analysis at a cut off point p value 0.3 were put in to multivariable model for further analysis. Backward stepwise regression was implemented to identify final adjusted odds ratios of independent factors associated with diarrhea at a cut-off point p-value 0.05.

Ethical consideration

All caregivers underwent informed consent for participation in the study. Ethical clearance was obtained from the Institutional Review Board of Jigjiga University, Directorate of Research, Publication and Technology Transfer.

Results

Out of the total of 530 mothers and underfive children targeted for the study, 492 mothers were interviewed. The mean age of mothers was 28.6 (±6.57) years, and 146 (29.7%) mothers had no formal education. Close to one-half (52.6%) of the households had a family size fewer than five with a mean of 5 (±2.06). Almost all (97.6%) of households used protected water sources such as public standpipes. Hand washing stand was not present in most (77.2%) of the households. In 117 (23.8%) of the households water was drawn from storage containers by dipping. In most (64.5%) of households latrines were shared with one or more neighbors. Out of which, 141 (44.3%) were shared with more than five households. Majority (94.3%) of the toilet facilities were improved. The mean age of index children was 22.53 (±1.48) months. Most (65.3%) of children were currently breast feeding, and 443 (90.4%) started complementary food after the age of six month. Hand washing at critical time was self-reported by 330 (67.1%) of mothers. The two weeks prevalence of diarrhea was 14.6% [Table 1].

Table 1.

Characteristics of children under age five, Jigjiga town, 2015

Variable Frequency Percent
Primary care giver’s characteristics
 Age
  15–24 146 29.6
  25–34 234 47.6
  35–49 112 22.8
 Educational status
  No education 146 29.7
  Primary and above 346 70.3
 Household size
  < 5 259 52.6
  5 and above 233 47.4
 Number of underfive children
  One 358 72.8
  Two and above 134 27.2
Child characteristics
 Age of index child
  < 6 49 10
  6–11 81 16.5
  12–23 125 25.4
  > 23 237 48.1
 Sex
  Male 250 50.8
  Female 242 49.2
Environmental characteristics
 Floor type
  Dirt 104 21.1
  Not dirt 388 78.9
 Source of water
  Protected 158 32.1
  Unprotected 334 67.9
 Water available all the time
  Yes 244 49.6
  No 248 50.4
 Method of water drawing
  Dipping 117 23.8
  Pouring 375 76.2
 Hand washing facility present
  Yes 112 22.8
  No 380 77.2
 Latrine availability
  Yes 478 97.1
  No 14 2.9
 Ownership of latrine
  Private 174 35.5
  Shared 318 64.5
 Shared with how many households (n = 318)
   < 5 177 55.7
   > 5 141 44.3
 Toilet facility
  Improved 479 97.3
  Non-improved 13 2.7
 Hand washing at critical times
  High 330 67.1
  Low 162 32.9
Feeding characteristics
 Currently breast feeding
  Yes 321 65.3
  No 171 34.7
 Age complementary food started
   < 6 (Not yet started) 41 8.3
  Before 6 month 8 1.6
 After 6 month 443 90.4
 Diarrhea in past two weeks
  Yes 72 14.6
  No 420 85.4

Factors associated with underfive diarrhea

Main variables which were significantly associated with underfive diarrhea upon univariate analysis were: lack of maternal education [COR: 0.227(0.100–0.517)], bigger family size [COR: 1.719(1.025–2.885)], lack of water [COR: 2.128 (1.263–3.585)], lack of hand washing stand [COR: 2.195(1.284–3.752)], latrine sharing [COR: 0.548(0.305–0.987)], drawing water by dipping [COR: 2.119(1.049–4.281)], child age groups 6–11 month [COR: 0.184(0.095–0.357)] and 12–23 months [COR: 0.408(0.212–0.787)]. After backward stepwise multivariable regression, variables significantly associated with the outcome variable were: lack of formal education of mothers, unavailability of water, and lack of hand washing facility. Children of mothers with primary education and above were less likely to have diarrhea [AOR: 0.227(0.100–0.517)]. In houses where water was not available all the time, the odds of diarrhea among children was doubled [AOR: 2.124(1.231–3.664)]. Presence of hand washing stand was a significant predictor as children in households with no hand washing stand were 1.846 times more likely to have diarrhea [AOR: 1.846(1.013–3.362)] [Table 2].

Table 2.

Multivariable analysis results of factors associated with diarrhea among underfive children in Jigjiga town, February, 2015

Variables Diarrhea Crude OR Adjusted OR P value
Yes No
Maternal age
 15–24 22 124 0.676(0.319–1.433)
 25–34 39 195 0.600(0.301–1.197)
 35–49 12 100 1.00
Maternal education
 No education 13 133 1.00 1.00 0.000
 Primary and above 59 287 0.475(0.252–0.897)* 0.227(0.100–0.517)*
Child age
 < 6 6 43 0.625(0.236–1.655)
 6–11 26 55 0.184(0.095–0.357)*
 12–23 22 103 0.408(0.212–0.787)*
 > 23 19 218 1.00
Number of underfive children
 One 50 308 1.00
 Two and above 23 111 0.783(0.457–1.344)
Family size
  < 5 46 213 1.00
  > 5 26 207 1.719(1.025–2.885)*
Water availability
 Yes 47 197 1.00 1.00 0.007
 No 25 223 2.128(1.263–3.585)* 2.124(1.231–3.664)*
Method of drawing water
 Dipping 10 107 2.119(1.049–4.281)*
 Pouring 62 313 1.00
Hand washing facility
 Yes 26 86 1.00 1.00
 No 46 334 2.195(1.284–3.752)* 1.846(1.013–3.362)* 0.045
Toilet facility
 Improved 70 409 1.00
 Non-improved 3 10 0.570(0.153–2.125)
Latrine shared
 < 5 41 136 0.548(0.305–0.987)*
 > 5 20 121 1.00

*P value <0.05

Discussion

This study identified socio-demographic and environmental factors associated with diarrhea among underfive children in the study area. Diarrhea was significantly associated with lack of formal maternal education, poor water supply and lack of hand washing facilities.

In this study, two weeks prevalence of diarrhea among underfive children was 14.6%. This prevalence is relatively lower as compared to findings of studies done in other parts of Ethiopia which reported higher prevalences such as: Nekemte (28.9%), Eastern Ethiopia (22.5%), Sheko district (25%), Gilgel Gibe research centre (30%) and West Gojam (18%) [1519]. This might be attributed to differences in socio demographic and environmental factors. As the studies were conducted in various parts of the country, important factors such as provision basic hygienic services which might strongly affect underfive diarrhea differ across settings. For instance, the latrine coverage in Nekemte town (91.8%) [15] is lower than that of Jigjiga’s (97.1%) and hand washing at critical times in Sheko was reported to be 61.5% [17] which is also lower than that of Jigjiga’s (67.1%).

Among socio-demographic variables studied, maternal education was found to be an independent predictor of diarrhea. Children of educated mothers were protected against diarrhea as compared to children of mothers with no formal education. This finding is consistent with studies conducted in Ethiopia, Uganda and Afghanistan where mothers’ education, especially at post-secondary level, reduced the probability of occurrence of diarrhea [1722]. This might be due to the fact that mothers who had formal education are prone to have more awareness on good hygiene behaviours, safe handling of water, point-of-use treatment, safe disposal of domestic waste, and good child feeding practices.

Studies have shown that household and environmental factors contribute to childhood diarrhea in Ethiopia. Main factors include: lack of latrine, improper child stool disposal, improper refuse disposal, poor handling of water in households and lack of hand washing facilities [17, 18, 2224]. Similarly, in Jigjiga town, children living in households where water was not available were found to be at higher risk of having diarrhea. This is also in line with a studies conducted in low and middle income countries [7].

Quantity of water and convenience of the source are more important than quality of water for reducing diarrheal illnesses [7]. In this study area, most of the community primarily uses water from communal stand pipes. The water is delivered to households by plastic barrels pulled by donkey carts. Moreover, water sources in the town are often intermittent leaving the community without water and forced to use alternative unprotected sources. This lack of accessible and consistent water supply could serve as a disabling factor for mothers’ safe hygiene practices which could explain the higher prevalence of diarrhea in households without water.

In this study, lack of hand washing stand was a significant factor to predict diarrhea among under five children. This finding is similar to a study conducted in Eastern Ethiopia which reported a significant positive association between the availability of hand washing facility and childhood diarrhea [16]. In the current study, lack of consistent source of water supply could have served as a factor that exacerbated lack of hand washing facilities which in turn predicted diarrhea.

Possible limitations of the study include that it did not comprehensively address the possible factors associated with underfive diarrhea. Hygiene behaviour was assessed based on self report rather than observation. Self-report of diarrhea over a two week period could have underestimated true magnitude. It is also impossible to know if some risk factors preceded the outcome or changed because of it. In addition, due to lack of data on the distribution of pathogens among the children with diarrhea, the generalizability of the identified factors may apply only to other settings where the pathogen distribution is similar to the one in this study.

Conclusion

The study has mainly identified socio demographic and environmental factors associated with diarrhea among underfive children. The two week prevalence of diarrhea was found to be relatively low in the study area. Lower maternal educational level, unavailability of water and lack of hand washing facility were important factors associated with diarrhea. Provision of improved access to water supply to the community is important in tackling use of alternative unprotected water sources. Supportive supervision of households to construct hand washing stands using locally available materials and point-of-use water treatment methods can also help alleviate the problem. In addition, environmental health intervention program designed to promote mothers’ good hygiene behavior, safe handling of water and safe disposal of waste is crucial.

Acknowledgments

We would like to thank staffs of College of Medicine and Health Science, Jigjiga University for providing valuable comments to the study. Our gratitude goes to data collectors, and study participants who provided the necessary information.

Funding

Funding was obtained from Jigjiga University, Directorate of Research, Publication and Technology Transfer. The study’s sponsors had no role in study design, the collection, analysis, interpretation of data, or manuscript preparation.

Availability of data and materials

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

Additional file

Additional file 1: (82.5KB, doc)

Data collection tool. (DOC 82 kb)

Authors’ contributions

HB conceived and designed the study, analyzed and interpreted data, prepared manuscript. FG BM YT GW prepared data collection instrument, collected data, interpreted data and reviewed manuscript. All authors read and approved the final manuscript.

Ethics approval and consent to participate

Ethical clearance was obtained from the Institutional Review Board of Jigjiga University, Directorate of Research, Publication and Technology Transfer. All respondents underwent informed consent for participation in the study.

Members of Ethics Committee: Mr. Adugna Nigussie, Mr. Wubareg Seifu, Mr. Edao Tessa.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Footnotes

Electronic supplementary material

The online version of this article (doi:10.1186/s12887-017-0934-5) contains supplementary material, which is available to authorized users.

Contributor Information

Hailemichael Bizuneh, Email: hailemichaelbiz@gmail.com.

Fentabil Getnet, Email: b.infen4ever@gmail.com.

Beyene Meressa, Email: beyenemeressa@yahoo.com.

Yonatan Tegene, Email: yonteg.emi@gmail.com.

Getnet Worku, Email: wgetch@gmail.com.

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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Data Availability Statement

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.


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