Background
Undernutrition contributes to half of all deaths and 28% of stunting in children worldwide [1]. In the developing countries, 52% and 34-62% of the school-age children are stunted and underweight, respectively [1,2]. If interventions are not carried out, it is estimated that close to one billion children will be physically and mentally impaired by 2020 [3,4]. As school age is a period of physical and mental development, prolonged undernutrition in this age group impairs their growth [5]. Undernutrition could also increase the susceptibility of children to disease [6]. Despite continued prevention efforts, child undernutrition remains a major public health problem in Sub Saharan Africa, including Ethiopia [1,2,7,8].
Factors including biology, economy, culture, environment and disease contribute to undernutrition [9]. Children are most vulnerable to undernutrition due to their low dietary intake, less access to food, inequitable distribution of food within households, improper food storage and preparation, dietary taboos and infections with pathogens [1]. Child undernutrition can be mitigated through nutritional information campaigns, broader access to maternal and child health care practices and availing affordable, diverse, and nutrient-rich food [9].
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The Federal Government of Ethiopia has been working to reduce undernutrition significantly through public education and providing nutritional supplements and financial support to vulnerable families. However, the risk factors of undernutrion are diverse and could potentially change in space and time. Thus, there is a need to determine the current nutritional status to review the pitfalls and design effective intervention strategies. This study described the prevalence of undernutrition and factors associated with the problem among school children living in Lideta Sub-City, Addis Ababa.
Methods
Study area and design
A community based cross-sectional study was conducted among school age children living in Woreda (District) 8, Lideta Sub-City, Addis Ababa, Ethiopia, in March 2014. Lideta Sub-City is one of the ten Sub-Cities in the city. Woreda 8 is one of the ten woredas in the Sub-City and comprises two Kebeles (villages), with a total population of 6,163. The woreda has two government hospitals and two health centers, in addition to private clinics. It also has one vocational and technical school, four primary schools and a kindergarten. Most of the adult males living in the woreda are employed or merchants while most adult females mothers are housewives. Members of the community differ in their ethnic background. School age children (5 to 14 years old) who lived in the sub city for at least 5 years and consented through their mothers or caregivers, participated in the study. Severely ill (i.e. not able to communicate or provide the required information due to illness) children were excluded from the study.
Data collection procedures
Based on 24% prevalence [10], 5% significance level (alpha), 1.5 design effect and 10% non-response rate [11], the sample size was estimated to be 462. This size was divided proportionally between the two Kebeles. The number of households in each Kebele was then divided by the respective sample size to determine the interval between consecutive study houses. Anthropometric measurements were made for each participating child. When the number of children in a house was greater than one, a child was randomly selected using lottery method. In the absence of an eligible child in the selected household, the next house was considered.
The mother/guardian or caregiver of each participating child was interviewed for potential determinants of child nutrition status, including socio-economy, demography, environment, health related issues and age of the child using a pre-tested structured questioner. The questionnaire was first developed in English and then translated to the Amharic language. Personal hygiene (e.g. presence or absence of dirt in finger nails, frequency of bathing in a week, occasions of hand washing, cleanness of hair, cleanness of clothes) of the child and cleanliness (e.g. environmental and sanitary facilities) of the child’s house were observed and documented using a checklist of items. Three medical nurses, having previous experience in similar data collection, participated in the survey.
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Data quality control
Data collectors were trained in relation to the study for one day. The questionnaire was pre-tested in an area where the study was not undertaken and errors were corrected accordingly. The weight of each child was measured using a calibrated digital balance. Each day, collected information was reviewed and errors were returned to data collectors for correction. Data validity and reliability was maintained through close supervision of data collectors by the first author.
Anthropometric measurement and nutritional status assessment
Each child was instructed to stand on the center of a digital balance. The digital balance had a vertical wooden bar with plastic tap attached to it. Weight and height of each child was measured after calibrating to the nearest 0.1 kg and 0.1 cm, respectively. Height was measured against a scale where a flat head piece (attached to the plastic tap at a right angle) touched the crown of the head and formed a right angle. Each child was measured while wearing light clothes after removing shoes, belt, cap or any other material that could interfere with their actual height and weight. Z-score was determined using the Anthro-Plus software [12]. Based on the Z-score, each child was grouped as undernourished or not undernourished [13]. A child was considered undernourished when either underweight (weight-for-age Z score or body mass index for-age Z score < −2) or stunted (height-for-age Z score < −2).
Data analysis
Data were entered into excel sheet and analyzed using STATA version 11. Frequency distribution tables were used to describe socio-demographic and nutritional status of the study participants. Bivariate and multivariate logistic regression analyses were used to quantify the magnitude of association between different factors and undernutrition. The explanatory variables included in the multivariate regression model were: I. Socio-economic and demographic characteristics of parents [age, sex, family size, parents’ average monthly income, education, occupation, religion and family decision maker], II. Child characteristics and health care practices [age, sex, illness/infection status (ill or not), personal hygiene (presence or absence of dirt in children’s finger nails, frequency of child bathing in a week, occasions of hand washing, cleanness of hair, cleanness of clothes), dietary intake (daily meal frequency), birth order, immunization status (immunized: yes, no), number of general breast milk feeding years], III. Environmental characteristics [source of drinking water, housing conditions (presence or absence of window, nature and cleanness of the floor), availability and cleanness of sanitary facilities such as latrine, hand washing facilities near the toilet, bathing rooms, garbage disposals]. The outcome variables included in the regression model were stunting, underweight and undernutrition. A p-value less than 0.05 was considered as statistically significant.
Ethical considerations
The study protocol was reviewed and approved by the Institutional Research Review Committee of the College of Medicine and Public Health, Debre Markos University. The objectives and protocol were discussed with the community leaders for clarification. Participation in the study was on a voluntary basis. Oral informed consent was obtained from every participant and his/her parent before conducting the survey. Privacy and confidentiality of the information was ensured. Severely malnourished children were referred to the nearest health facility and advice was given to their parents.
Results
Socio demographic characteristics
A total of 459 children (55.99% male) and their parents or caregivers were enrolled in the study (Tables 1 and 2). Most (98%) of the children were breastfed, among whom 14.6% and 43.8% were fed for less than 12 months and 12–24 months, respectively. Close to half of the children (49.0%) had daily meals of greater than three times a day prior to the survey. About 61.7% and 38.3% of the children had a history of illness/infection in the year and in the two weeks prior to the study period, respectively.
Table 1
Socio demographic characteristics of children and their families in Woreda 8, Lideta Sub-City, Addis Ababa, Ethiopia, March 2014
Variable | Categories | Number of observations | Relative frequency |
|---|---|---|---|
Marital status | Married | 369 | 80.4 |
Divorced | 33 | 7.2 | |
Widowed | 51 | 11.1 | |
Unmarried | 6 | 1.3 | |
Family size | 2-5 | 307 | 66.9 |
6-8 | 134 | 29.2 | |
>8 | 18 | 3.9 | |
Ethnicity of mother/caregiver | Oromo | 135 | 29.4 |
Amhara | 129 | 28.1 | |
Tigre | 84 | 18.3 | |
Gurage | 81 | 17.7 | |
Other | 30 | 6.5 | |
Religion of mother/caregiver | Orthodox | 318 | 69.9 |
Muslim | 75 | 16.3 | |
Protestant | 36 | 7.8 | |
Catholic | 27 | 5.9 | |
Others | 3 | 0.7 | |
Educational status of mother/caregiver | Cannot read and write | 51 | 11.1 |
Can read and write only | 28 | 6.1 | |
Primary education | 191 | 41.6 | |
Secondary education | 151 | 32.9 | |
College and above | 33 | 7.2 | |
Other | 5 | 1.1 | |
Monthly income of the family (in Ethiopian Birr) | <1000 | 54 | 11.8 |
1000-2000 | 309 | 67.3 | |
>2000 | 96 | 20.9 | |
Maternal age | 20-35 | 267 | 58.9 |
36-45 | 147 | 32.5 | |
>45 | 39 | 8.6 | |
Maternal age at child birth | <20 | 78 | 16.9 |
20-30 | 321 | 69.9 | |
>30 | 60 | 13.1 | |
Age of children in years | 5-9 | 177 | 38.6 |
10-14 | 282 | 61.4 | |
Sex of children | Male | 257 | 55.9 |
Female | 202 | 44.0 | |
Working status of mother | House wife | 185 | 41.0 |
Employed | 266 | 59.0 |
Table 2
Child, maternal and environmental characteristics of in Woreda 8, Lideta Sub-City, Addis Ababa, Ethiopia, March 2014
Variable | Category | Number of observations | Relative frequency |
|---|---|---|---|
Frequency of infection/ illness in a year prior to the study period | No illness | 102 | 22.2 |
1 | 114 | 24.8 | |
>1 | 243 | 52.9 | |
Presence of illness/infection in the last two week | Yes | 176 | 38.3 |
No | 283 | 61.7 | |
Nature of the floor of the house | Cement/brick/ceramic | 351 | 76.5 |
Soil | 108 | 23.5 | |
Presence of dirt in finger nails | Yes | 216 | 47.1 |
No | 243 | 52.9 | |
Meal frequency in a day prior to data collection | >3 | 225 | 49.0 |
3 | 177 | 38.6 | |
<3 | 57 | 12.4 | |
Main source of power used for cooking | Electric | 332 | 72.3 |
Wood/kerosene | 127 | 27.7 | |
Duration of general breast feed(in months) | Not breast feed | 10 | 2.2 |
<12 | 67 | 14.6 | |
12-24 | 201 | 43.8 | |
>24 | 12 | 6.4 | |
Do not remember | 60 | 13.1 | |
Birth order | ≤2 | 321 | 69.9 |
>2 | 138 | 30.1 | |
Bath taking of the child | Daily | 18 | 3.9 |
2-4 times/week | 48 | 10.5 | |
Weekly | 393 | 85.6 | |
Presence of hand washing facility near the latrine | Yes | 177 | 39.6 |
No | 270 | 60.4 | |
Main decision maker of the household | Father | 204 | 44.7 |
Mother | 82 | 17.9 | |
Both by discussion | 138 | 30.1 | |
Not sure | 35 | 7.4 |
Undernutrition and its risk factors in school age children
Out of the 459 children, 30.9% were undernourished (stunted = 19.6%, underweight = 15.9%). Having a birth order greater than two, meal frequency at most three times a day, large family size (6–8), being born to a mother less than 20 years old, living in mud/soil floored house and being male were significantly associated with increased odds of undernutrition in the multivariate regression model (Table 3).
Table 3
Factors associated with undernutrition among school age children in Woreda 8, Lideta Sub-City, Addis Ababa, March, 2014
Variable | Categories | Undernutrition | Crude odds ratio (95% CI) | Adjusted odds¶ratio (95% CI) | |
|---|---|---|---|---|---|
Yes | No | ||||
Ethnicity | Oromo | 54 | 81 | 1 | 1 |
Amhara | 29 | 100 | 0.44 (0.25-0.74)** | 1.13 (0.39-3.27) | |
Tigre | 24 | 60 | 0.60 (0.33-1.08) | 0.19 (0.06-0.52) | |
Gurage | 25 | 56 | 0.67 (0.37-1.20) | 0.02 (0.01-0.17) | |
Religion | Orthodox | 93 | 225 | 1 | 1 |
Muslim | 18 | 57 | 0.76 (0.43-1.38) | 0.60 (0.21-1.73) | |
Protestant/Catholic or others | 30 | 36 | 2.01 (1.17-3.46)* | 1.75 (0.74-4.18) | |
Family size | 2-5 | 100 | 207 | 1 | 1 |
6-8 | 41 | 93 | 0.91 (0.58-1.41) | 3.23 (1.43-7.29)** | |
>8 | 7 | 18 | 0.81 (0.34-6.52) | 2.13 (0.97-8.91) | |
Child age | 5-9 | 39 | 138 | 1 | 1 |
10-14 | 102 | 180 | 2.00(1.30-3.08)** | 1.31(0.65-2.66) | |
Child Sex | Male | 88 | 169 | 1 | 1 |
Female | 53 | 149 | 0.68 (0.46-1.02) | 0.44 (0.20-0.93)* | |
Maternal age at child birth | <20 | 40 | 38 | 1 | 1 |
20-30 | 77 | 244 | 0.29 (0.18-0.50)*** | 0.14 (0.06-0.51)*** | |
>30 | 24 | 36 | 0.63 (0.32-1.25) | 0.24 (0.18-1.18) | |
Floor of the house | Cement | 96 | 255 | 1 | 1 |
Soil | 45 | 63 | 1.89 (1.21-2.97)* | 2.43 (1.05-5.59)* | |
Source of power for cooking | Electric | 51 | 54 | 1 | 1 |
Wood/Kerosene | 90 | 264 | 0.36 (0.23-0.57)*** | 0.46 (0.20-1.08) | |
Meal frequency in a day | >3 | 56 | 169 | 1 | 1 |
≤3 | 85 | 149 | 1.72 (1.15-2.58)** | 1.77 (1.23-2.55)** | |
Birth order | ≤2 | 84 | 237 | 1 | 1 |
>2 | 57 | 81 | 1.99 (1.30-3.02)** | 2.14 (1.27-3.59)** | |
Factors associated with child stunting
The odds of stunting was significantly high in children living in a house having mud floor, birth order of >2, had at most 3 times daily meals, having employed and protestant or catholic mother (Table 3). Children born to mothers less than 20 years of age at the time of birth were associated with an increased risk of stunting (Table 4).
Table 4
Factors associated with stunting in school age children in Woreda 8 of Lideta sub-city, Addis Ababa, March, 2014
Variable | Categories | Stunting | Crude odds ratio (95% CI) | Adjusted odds ratio¶(95% CI) | |
|---|---|---|---|---|---|
Yes | No | ||||
Religion | Orthodox | 54 | 264 | 1 | 1 |
Muslim | 12 | 63 | 0.93 (0.47-1.84) | 1.25 (0.42-3.69) | |
Protestant/Catholic | 24 | 42 | 2.79 (1.56-4.99)** | 3.29 (1.15-9.39)* | |
Maternal educational status | No formal education | 18 | 61 | 1 | 1 |
Primary | 19 | 172 | 0.37 (0.18-0 .76)** | 1.99 (0.12-3.26) | |
Secondary and above | 53 | 131 | 1.37 (0.74-2.54) | 6.96 (2.94-16.46) | |
Frequency of illness/infection in a year prior to the study period | No infection | 12 | 90 | 1 | 1 |
1 | 18 | 96 | 1.41 (0.64-3.08) | 0.07 (0.01-0.46) | |
>1 | 60 | 183 | 2.46 (1.26-4.80)** | 1.34 (0.35-5.09) | |
Presence of dirt in finger | Yes | 55 | 161 | 1 | 1 |
No | 35 | 208 | 0.49 (0.31-0.79)** | 0.2 (0.37-1.18) | |
Floor material of the house | Ceramic | 48 | 303 | 1 | 1 |
Mud | 42 | 66 | 4.02 (2.46-6.57) | 7.94 (2.22, 28.36)*** | |
Birth order | ≤2 | 51 | 270 | 1 | 1 |
>2 | 39 | 99 | 2.09 (1.29-3.36)* | 5.43 (2.62-11.25)*** | |
Maternal age | 20-35 | 39 | 228 | 1 | 1 |
36-45 | 45 | 102 | 2.58 (1.58-4.20)*** | 4.43 (2.08-9.47)*** | |
>45 | 8 | 37 | 1.26 (0.40-2.70) | 1.72 (0.54-5.50) | |
Maternal age at child birth | <20 | 19 | 59 | 1 | 1 |
20-30 | 50 | 271 | 0.57 (0.31-1.04) | 0.09 (0.03-0.29)*** | |
>30 | 21 | 39 | 1.67 (0.79-3.51) | 0.24 (0.04-1.40) | |
Working status of mother | House wife | 28 | 157 | 1 | 1 |
Employed | 62 | 204 | 1.70 (1.04-2.79)* | 1.89 (1.38-5.03)* | |
Meal frequency in a day | >3 | 26 | 199 | 1 | 1 |
≤3 | 64 | 170 | 2.88 (1.75-4.75)*** | 4.62 (2.71-7.89)*** | |
Factors associated with child underweight
Information about factors associated with children being underweight is summarized in Table 5. The likelihood of being underweight was significantly higher among children 10–14 years old than among children 5–9 years old. Children with families of 6–8 members and having no hand washing facility were more likely to be underweight compared to those with less than 6 members and having said washing facility, respectively.
Table 5
Factors associated with underweight among school age children in district 8, Lideta sub-city, Addis Ababa, Ethiopia, March, 2014
Variable | Category | Underweight | Crude odds ratio (95%CI) | Adjusted odds ratio¶(95%CI) | |
|---|---|---|---|---|---|
Yes | No | ||||
Family size | 2-5 | 43 | 264 | 1 | 1 |
6-8 | 29 | 105 | 1.65 (0.98-2.78) | 2.82 (1.45-5.48)** | |
>8 | 0 | 18 | NA | NA | |
Main decision maker | Father | 49 | 155 | 1 | 1 |
Mother | 10 | 72 | 0.44 (0.21-0.92)* | 0.39 (0.16-0.94)* | |
Both by discussion | 14 | 159 | 0.28 (0.14-0.59)*** | 0.11 (0.04-0.26)*** | |
Ethnicity of mother | Oromo | 31 | 104 | 1 | 1 |
Amhara | 11 | 118 | 0.31(0.15-0.65)** | 0.32 (0.13-0.79)* | |
Tigri | 21 | 63 | 0.12(0.59-2.11) | 1.72 (0.77-3.74) | |
Gurage | 4 | 77 | 0.17(0.59-0.51)** | 0.12 (0.04-0.42)** | |
Others | 6 | 24 | 0.84 (0.47-1.43) | 0.29 (0.08-1.12) | |
Maternal age | 20-35 | 49 | 221 | 1 | 1 |
>35 | 25 | 164 | 0.69 (0.43-1.27) | 0.38 (0.15-0.97)* | |
Maternal age at birth | <20 | 25 | 53 | 1 | 1 |
≥20 | 47 | 334 | 0.31 (0.11-0.39)*** | 0.35 (0.15-0.81)* | |
Birth order | ≤2 | 59 | 238 | 1 | 1 |
>2 | 39 | 123 | 1.28 (0.74-1.98) | 2.85 (1.35-6.02)** | |
Presence of hand washing facility | Yes | 39 | 240 | 1 | 1 |
No | 35 | 145 | 1.49 (0.95-2.67) | 2.08 (1.04-1.45)* | |
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Discussion
About 31% of the school age children living in Woreda 8, Lideta Sub-city, Addis Ababa in March 2014 were undernourished, among which 19.6% were stunted and 15.9% were underweight. Being male, born to a less than 20 years old mother, feeding at most 3 times a day, living in a mud floored house, higher (>2) birth order, having large family size (6–8) and having a protestant or catholic mother were associated with undernutrition.
Undernutriton, in school age children, was reported in the forms of stunting (11% to 42.7%) and underweight (7.2% to 59.7%) in different parts of Ethiopia [14-18]. A 24% stunting was also reported in Addis Ababa [10]. The discrepancies could result from differences in the study methods and existing undernutrition programs. In addition, socio-economic differences between areas (rural vs. urban, for example) could explain the differences in the prevalence of undernutrition across Ethiopia.
Factors such as age, sex and birth order of the child were significantly associated with an increased risk of undernutrition. Undernutrition was common in children who were male, 10 to 14 years old with birth order greater than two. This is in agreement with the studies in different African countries, including Ethiopia [3,15,19-23]. Feeding practices, care and exposure to infection, which primarily determine the nutritional status of children, vary with age [24,25]. Children of age 10 to 14 years are more active and lose a greater amount of energy. Excess energy loss, together with lack of nutritious food, could make them undernourished. Indeed, it was the underweight children (compared to those that were overweight) who demonstrated a high level of physical activity [26]. This may have important public health implications to countries like Ethiopia which require a strategy to keep the energy balacne. Biological factors, inequalities in resource allocation within households and socio-cultural norms prevailing in the community could be responsible for the variation in the risk of undernutrition between males and females [14,27]. The higher prevalence of undrenutrition in children with higher birth orders (greater than two) compared to other children might be explained by the possibility that most Ethiopian parents give less attention, care and resource to older children when they give birth to new ones.
Children belonging to households with 6–8 members were more undernourished than those belonging to households with less than 6–8 members. Similar findings have been documented in other parts of the world [14,28,29]. A large number of household members could contribute to low levels of child care and dietary intake [30-32]. In line with this, undrenutrition was more common in children who had a meal frequency of at most 3 compared to those who had more than 3 per day. Stunting was more common in children living in houses with mud floor than in those living in the cement/brick/ceramic or wood floor, which is consistent with the study in Kenya [33]. The mud floor could indicate the poor socioeconomic status of the parents; this could contribute to the frequent undernutrition in the group. In addition, the mud floor surfaces could be conducive for the growth of pathogenic microorganisms which make children sick and undernourished [24].
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One of the strongest determinants of stunting was the mother’s occupation. Children having employed mothers were at greater risk of stunting than those having housewife mothers. This is similar with studies that reported increased prevalence of undernutrition among children whose mothers work outside of their home [34-36]. Mother’ care plays a major role in child nutrition as she is the closest to the child [37-39]. Thus, mothers who stayed at home could spend more time to care for their children.
Stunting was higher in children born to protestant or catholic mothers than to Orthodox or Muslim mothers. This could possibly result from differences in socioeconomics, exposure to infection and level of education. Further studies are needed to better understand why children with protestant or catholic mothers had a higher risk of undernutrition compared to children of orthodox religious mothers. The higher undernutrition risk in children born to mothers less than 20 years old could be due to low food intake by the mothers during pregnancy [40]. The low nutrient level of mothers, during pregnancy, could affect growth of the fetus and the baby during childhood [40]. In Ethiopia, undernutrition is higher in women 15 to 19 years old compared to women in the older ages [41]. In addition, women of less than 20 years of age are not usually employed and have less or no income to feed their children. Moreover, teenage pregnancy has been associated with adverse birth outcomes, including low birth weight and congenital malformations, that can later affect the nutritional status of the children [42,43].
Parental education was not associated with undernutrition in the current study as previously reported [44-46]. Similarly, prevalence of undernutrition did not differ significantly among households having different incomes. Although educated mothers are aware of child nutrition, they could fail to practice it due to cultural, ethnic and religious reasons [47].
The current study is cross-sectional in design which does not establish causal relationship between undernutrition and the socioeconomic, socio-demographic, environmental and household factors. In addition, respondents could fail to provide correct responses to some of the questions and, hence, might introduce recall bias to the data. The numbers of male and female children were not matched and their pubertal stage was not considered in the study which could also have some effect on the outcome.
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Conclusions
Undernutrition is prevalent among school age children living in Woreda 8, Lideta Sub-City, Addis Ababa, Ethiopia. Age, sex, birth order, daily meal frequency, maternal age and family size were major predictors of undernutrition in children. Employment, religious status of the mothers and floor type of child’s house were also associated with the nutritional status of children. In addition to improving economic status of the community, policy makers should consider making greater provisions for health education regarding child nutrition. Nutritional screening and supplementary feeding programs to undernourished children are vital.
Acknowledgements
We thank Debr Markos University and Gambi College of Health Science for giving financial support to conduct the study. We would also like to thank Werda 8 health extension workers for provision of information, facilities and support during data collection. We acknowledge Alnecia Rumphs of the Epidemiology Department, Robert Stemple College of Public Health, Florida International University for editing the language of the manuscript.
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
DD, AD & AA: Conceived and designed the study. DD: collected and analyzed the data. AD assisted data analysis. DD and AD drafted the manuscript. All authors read and approved the final manuscript.