Introduction
Undernutrition is a major public health issue, and stunting is a well-established public health indicator of chronic malnutrition that accurately reflects prior nutritional history as well as current environmental and socioeconomic conditions [, ]. It’s a marker for a variety of pathological conditions linked to higher morbidity and mortality, reduced physical growth potential, decreased neurodevelopmental and cognitive function, and an increased chance of chronic disease in adulthood []. Malnutrition has an impact on human performance and health because it impairs physical growth, cognitive development, and physical labor capability [].
Every year, one million children die as a result of stunting around the world []. Long-term implications of stunting in infancy and early childhood include reduced cognition and school performance, stunted physical development, poor health, and loss of independence. In most underdeveloped nations, stunting is a major public health issue that raises the risk of sickness and death throughout infancy [, ]. It is a significant barrier to a child’s survival and development of full learning potential. This is why nutrition initiatives aimed at increasing childhood nutrition and encouraging linear growth [] are so important []. It also comes at a high price for Ethiopia’s economy and society [, ]. According to the cost of hunger report, about 67% of Ethiopia’s adult population was stunted as a kid, increasing the risk of various health problems and lower cognitive capacity, with stunting accounting for 16% of all Ethiopian primary school repetitions []. In Ethiopia’s food surplus areas, poor childhood feeding is the main risk factor []. Stunting is thought to be caused by malnutrition and is utilized as a public health indication of malnutrition (i.e., insufficient food and nutrients intake) []. It is caused by a number of different circumstances. These elements are interconnected and have a hierarchical relationship. Poor diet and disease are the primary determinants, both of which are caused by a number of underlying factors, including household food security, maternity and child care practices, access to health services, and a healthy environment. The basic socioeconomic and political situations have an impact on these underlying elements [, , , , ].
Stunting has a devastating and far-reaching impact on individuals and nations, ranging from impaired cognition, low school performance, and limited physical development to an increased risk of degenerative diseases like diabetes, as well as a negative impact on the economy by lowering working capacity and productivity [, , , ].
Undernutrition, including stunting, is definitely a substantial contributor to child death, disease, and disability []. Stunting has been linked to poor developmental outcomes in young children as well as poor academic performance in older children [].
Stunting is associated with child age, family size, mother’s education, father’s occupation, child’s immunization status, pre-lacteal feeding, and family planning utilization [, ]. It is also linked to household food insecurity, feeding frequency, low socioeconomic status, poor sanitation, maternal postnatal vitamin supplementation coverage, and healthcare seeking behaviors [, , ]. In the past, school-based health and nutrition programs were implemented to tackle nutritionally related problems among school-aged children, but they were fragmented and uncoordinated due to being implemented by different stakeholders, which led to inefficient and ineffective program delivery as well as poor results [].
Though there is a decline in the magnitude of undernutrition, in Ethiopia, about 44% of children under five are stunted and 10% are wasted []. However, literature is limited in its understanding of the magnitude of stunting in school-aged children. As a late complication of under-five stunting is obesity, determining the magnitude of stunting has a significant role in the prevention of obesity. Therefore, the aim of this study is to assess the prevalence of stunting and associated factors among children attending primary school (7–14 years) in public primary schools in Addis Ababa, Ethiopia.
Methods and Materials
Study design
An institutional based cross-sectional study was conducted among primary school students in Addis Ababa city.
Population
Source population
All school-aged children attending public primary schools in Addis Ababa city.
Study population
All school-aged children attending randomly selected public primary schools of Addis Ababa city.
Study units
Selected school-aged children fulfilling the inclusion criteria.
Eligible criteria
Inclusion criteria
A child who was attending public primary school from grade one to eight and age seven to fourteen in the selected school in Addis Ababa.
Exclusion criteria
Child with gross physical deformity difficult to measure their height, and those who are below seven was excluded from this study.
Sample size determination
Sample size was calculated using single population proportion formula with the consideration of proportion of stunting, p = 47%, 95% CI, 5% maximum tolerable error, n = 383. Adding 10% no response rate using a design effect of 1.5, the final sample size was 627.
Data Collection Methods
Data were collected using structured, pretested Amharic version questionnaires administered by health extension workers. The questionnaire was in six parts and included demographic characteristics of the child and the caregiver, the maternal condition during birth of the child, the housing quality and quality of water supply of the caretakers, and the dietary history of the child and the caregiver.
Data were collected in two phases. In the first phase, a self-administered questionnaire was sent to the parents or caretaker through the child or by the person taking the child home after class, then the child’s anthropometric data (height) was taken by data collectors.
Caregivers who could neither write nor read were instructed to seek assistance from their partner or somebody in the house to help them fill out the questionnaire.
Height was measured using standardized and calibrated equipment. The child’s was standing with his/her back against the measuring surface, with feet together flat on the floor, arms at side, and knees and back straight. Head, heels, buttocks, and shoulder blades touched the measuring surface. The child was looking straight ahead, and the headboard was slid gently down, compressing the hair. The height was written to the nearest 0.1 centimeter. The procedure was repeated a second time. Comparison was made between the two measurements. Accordingly, if the difference between the two measurement readings was within 0.1 centimeter, the second measurement was recorded. Otherwise, the average of the two measurements was taken.
Anthropometric-related data was transferred to anthro plus software, then it was exported to SPSS version 26. The Z-score of indexes, Height-for-Age Z-score (HAZ), was calculated using the World Health Organization (WHO) Multicenter Growth Reference Standard. The child was classified as stunted if his/her z score was less than –2SD and not stunted if Z score was ≥ –2SD.
To assure data quality, high emphasis was given in preparing data collection instruments. Due attention was given to selecting height measuring instruments and preparing questionnaires. Before starting the actual survey, the questionnaire was pretested on 45 individuals from the schools, which were not included in the study. The collected data were reviewed and checked for completeness before data entry. Incomplete data were discarded. The data entry format template was produced and programmed.
Variables
The main outcome variable was stunting (yes/no), reflecting failure to receive adequate nutrition over a long period, resulting in low height-for-age at < –2SD of median value of the National Center for Health Statistics (NCHS)/WHO international growth reference []. The independent variables were sociodemographic characteristics of the child (age, sex); sociodemographic characteristics of the caretaker/mother head of household; mother’s age, education, background, monthly income; mother’s occupation; environmental and hygiene related factors (type of house, type of water source, toilet availability); health service utilization (history of mother related to number of children, antenatal care (ANC) follow up, family planning (FP) use, place of delivery, immunization, deworming); nutrition-related characteristics (dietary history of children/caregiver, exclusive breastfeeding (EBF), time of complementary feeding start, duration of breastfeeding); and health care characteristics (infection).
Exclusive breastfeeding is giving no other food or drink, even water, except breast milk in the first six months of age.
Weaning feeding is when children make the transition from breast milk to another source of nourishment.
School-aged means a child who is 7 to 14 years old.
Pre-lacteal feeding is defined as administration of any substances other than breast milk to newborn babies during the first three days after birth.
Data management and analysis
After each questionnaire was checked for completeness, it was coded and entered using Epi-data version 3.1 Software. Then it was exported to SPSS version 26 for analysis. Data was cleaned to see completeness, presence of missing values, and outliers. Descriptive statistics (mean, frequencies, tables, and graphs) were used to summarize and describe the data. Both bi-variable and multivariable logistic regression analysis were used to check the association between the independent variables and the outcome variable (stunting). To test how well the model explains the data, Hosmer-Lemeshow Goodness of fit test was used. Bivariable analysis P-value of less than 0.2 were entered into the multi-variable logistic regression model. Both crude odds ratio (COR) and adjusted odds ratio (AOR) with 95% confidence level were computed to see the strength of associations. Multivariable logistic regression variables with P-value of less than 0.05 were declared significantly associated with stunting.
Results
Sociodemographic characteristics of participating children
The questionnaire was completed by 607 participants, giving a response rate of 96.8%. Nearly half (53.5%) of the study participants were female, and 547 (90.1%) of the study participants were less than 14 years old. The study also found that 468 (77.1%) mothers gave birth in health institutions (Table 1).
VARIABLE | RESPONSE | N | % |
---|---|---|---|
Sex of the child | Male | 282 | 46.5 |
Female | 325 | 53.5 | |
Age of the child | Less than 14 years | 547 | 90.1 |
Greater than 15 years | 60 | 9.9 | |
Birth weight | Less than 2500 mg | 150 | 24.7 |
2500–4000 mg | 429 | 70.7 | |
Greater than 4000 mg | 28 | 4.6 | |
Institution | 468 | 77.1 | |
Place of delivery | Home | 139 | 22.9 |
Maternal or caretaker characteristics
The study revealed that about 387 (63.8%) of the households were led by fathers. About 310 (51.1%) of the mothers were housewives and 223 (36.6%) could read and write. It also showed the household income of 358 (59%) respondents was less than 3000 EBR. The majority of the study participants (461 or 75%) had four to six live children in the household. It also revealed that 499 (82.2%) were below the age of 28 when giving birth (Table 2).
VARIABLE | CATEGORY | FREQUENCY | PERCENTAGE |
---|---|---|---|
Head of household | Father | 387 | 63.8 |
Mother | 220 | 36.2 | |
Maternal occupation | Housewife | 310 | 51.1 |
Self-employed | 115 | 18.9 | |
Government employed | 117 | 19.3 | |
Day laborer | 65 | 10.3 | |
Maternal educational status | Can’t read and write | 75 | 12.4 |
Can read and write | 223 | 36.6 | |
Primary | 124 | 20.4 | |
Secondary | 109 | 18 | |
College and above | 76 | 12.5 | |
Monthly income (EBR) | Less than 3000 | 358 | 59 |
3001–6000 | 181 | 29.8 | |
6001–9000 | 33 | 5.4 | |
Greater than 9001 | 35 | 5.8 | |
Number of children | 1–3 | 461 | 75 |
4–6 | 133 | 21.9 | |
More than 7 | 13 | 2.1 | |
Maternal age when giving birth | Less than 28 years | 499 | 82.2 |
More than 28 years | 108 | 17.8 | |
Health care practice and feeding-related factors
The study also revealed that about 350 (57.7%) of the study participants had used family planning methods before pregnancy. Almost two thirds of the children received deworming, and three fourths of the children took vitamin A supplementation. A total of 517 people (85.2%) were fully immunized. Nearly 80% of the mothers had ANC follow-up during pregnancy, and 415 (68.4%) of the mothers used extra food during pregnancy. The major extra foods taken by the mothers during pregnancy were fruit and vegetables (29%) (Table 3).
VARIABLE | RESPONSE | N | % |
---|---|---|---|
Child dewormed | Yes | 367 | 60.5 |
No | 240 | 39.5 | |
Child take vitamin A | Yes | 461 | 75.9 |
No | 146 | 24.1 | |
Child complete immunization | Yes | 517 | 85.2 |
No | 90 | 14.8 | |
Family planning used before pregnancy | Yes | 257 | 42.3 |
No | 350 | 57.7 | |
ANC follow-up before giving birth | Yes | 479 | 78.9 |
No | 128 | 21.1 | |
Extra food during pregnancy | Yes | 415 | 68.4 |
No | 192 | 31.6 | |
Type of extra food | Cereals | 129 | 21.3 |
Meat and meat product | 85 | 14 | |
Fruit and vegetable | 176 | 29 | |
Fat and sweet | 7 | 1.2 | |
Milk and milk product | 80 | 13.2 | |
Environmental and hygiene-related factors
About 94.4% of the study participants lived in a house with a steel roof, while 342 (56.3%) lived in a house with a mud wall and floors. About 236 (38.9%) participants lived in a house with one room. Nearly two thirds of the study participants reported the toilet they had was made from cement, and about 80% of the study participants got water from a pipe. About 67.7% of the students had access to and sufficient water for daily use, and 48.4% of the household traveled less than 15 minutes to fetch water (Table 4).
VARIABLE | RESPONSE | N | % |
---|---|---|---|
Type of roof | Steel | 573 | 94.4 |
Clay | 34 | 5.6 | |
Wall and floor | Mud | 342 | 56.3 |
Cement | 265 | 43.7 | |
Number of rooms in the house | One | 236 | 38.9 |
Two | 169 | 27.8 | |
Three | 106 | 17.5 | |
Four | 96 | 15.8 | |
Type of toilet | Cement | 410 | 67.5 |
Wood | 71 | 11.7 | |
Other | 126 | 20.6 | |
Source of water | Ground water | 49 | 8.1 |
Pipe | 485 | 79.9 | |
Packed bottle | 61 | 10 | |
Spring | 12 | 2 | |
Access to and sufficient water for daily use | Yes | 408 | 67.2 |
No | 199 | 32.8 | |
Time to fetch water | Less than 15 min | 294 | 48.4 |
15–30 min | 160 | 26.4 | |
Greater than 30 min | 153 | 25.2 | |
Feeding habits
The study revealed that about 208 (34.3%) of the study participants were fed only breast milk for less than six months. In this study, about 267 (44%) mothers responded that they started complementary feeding at six months. The majority of the mothers started with milk and milk products (222, 36.6%). About 391 (64.4%) mothers fed their children one to three times a day, and about 220 (36.6%) mothers fed meat three to four times per week. The study revealed that 435 (71.5%) mothers were fasting before the birth of the child. About 239 (54.3%) mothers fasted only during the fasting season (Table 5).
VARIABLE | RESPONSE | N | % |
---|---|---|---|
Length of time breastfeeding | Not at all | 24 | 4 |
6–24 month | 197 | 32.5 | |
Less than 6 months | 208 | 34.3 | |
Moer than 24 months | 176 | 29.3 | |
Complementary feeding starting time | Before six months | 90 | 14.8 |
At six months | 267 | 44 | |
After six months | 191 | 31.5 | |
At four months | 59 | 9.7 | |
Type of complementary feeding food | Cereals | 218 | 35.9 |
Meat and meat products | 33 | 5.4 | |
Fruits and vegetables | 129 | 21.3 | |
Fats and sweets | 5 | 8 | |
Milk and milk products | 222 | 36.6 | |
Daily feeding frequency | 1–3 times | 391 | 64.4 |
4–6 times | 158 | 26 | |
More than six times | 58 | 9.6 | |
Frequency of feeding meat | Daily | 39 | 6.4 |
3–4 times per week | 220 | 36.2 | |
Monthly | 348 | 57.3 | |
Frequency of feeding fats and sweets | Daily | 98 | 16.1 |
Monthly | 283 | 46.6 | |
3–4 times per week | 226 | 37.2 | |
Fasting before childbirth | Yes | 435 | 71.3 |
No | 172 | 28.3 | |
Time of fasting | During fasting season | 239 | 54.3 |
Wednesday and Friday | 201 | 45.7 | |
Comorbidity and feeding style
The study also found that 12.2% of the children involved in the study had a history of coughing prior to the two weeks of the study. In this study, 42 (6.9%) of the children had a history of diarrhea two weeks prior to the study. During childhood, nearly half of the mothers (323 or 53.2%) fed their children with a spoon.
Prevalence of stunting
Those respondents whose height for age was below 2 standard deviations were considered stunted. Of the 607 respondents, 108 (17.8.0%, with a 95% CI of 14.6–20.9) were stunted, and 499 (82.2%) were not stunted.
Factors associated with stunting
In order to see the association between the independent and dependent variables, both bivariable and multivariable logistic regression models were fitted. In the case of bivariable logistic regression, all independent variables were entered into the model separately in order to select the candidate variables to be entered into the final model. From all the variables entered into the model, 13 variables were selected for the final model with a p-value less than 0.2. Finally, 13 variables were entered into the multivariable logistic regression model. From those variables entered into the final model, only four variables maintained their significant association with the outcome variable with a p-value less than 0.05.
The study showed the likelihood of stunting in a male child is 38.4% lower than the likelihood of its counterpart [AOR = 0.616, 95% CI (0.34–0.96), p-value 0.032]. Children from households getting water from a pipe were 3.4 times more likely to be stunted compared with children whose houses accessed ground water [AOR = 3.4, 95% CI (1.12–1037), p-value 0.031]. Children who were not breastfed were 3.41 times more likely to be stunted compared with those breastfed more than 24 months [AOR = 3.41, 95% CI (1.09–10.07), p-value 0.036]. Children whose mothers could read and write were 2.11 times more likely to be stunted than those whose mothers had completed secondary school or higher [AOR = 2.11, 95% CI (1.15–38.88), p-value 0.016] (Table 6).
VARIABLE | CATEGORY | NUTRITIONAL STATUS | COR(95% CI) | AOR(95% CI) | |
---|---|---|---|---|---|
STUNTED (%) | NOT STUNTED (%) | ||||
Sex | Male | 61 (21.6) | 221 (78.4) | 1.62 (1.07–2.48) | 0.616 (0.34–0.96)* |
Female | 47 (14.5) | 278 (85.5) | 1.0 | 1.0 | |
Types of water source | Pipe | 93 (19.2) | 392 (80.8) | 0.267 (0.05–1.4) | 3.40 (1.12–10.37)* |
Packed bottle | 8 (13.1) | 53 (86.9) | 0.72 (0.19–2.78) | 3.15 (0.79–12.52) | |
Spring | 3 (25.0) | 9 (75) | 0.45 (0.10–2.03) | 3.37 (0.59–19.33) | |
Ground water | 4 (8.2) | 45 (91.8) | 1.0 | 1.0 | |
Duration of breast feeding | Not at all | 6 (25.0) | 18 (75) | 0.60 (0.22–1.64) | 3.41 (1.09–10.7)* |
<6 month | 33 (16.8) | 164 (83.2) | 0.81 (0.301–2.20) | 1.12 (0.62–2.03) | |
6–24 month | 44 (21.2) | 164 (78.8) | 0.49 (0.18–1.35) | 1.36 (0.77–2.40) | |
>24 months | 25 (14.0) | 153 (86) | 1.0 | 1.0 | |
Maternal education | Can’t read and write | 16 (21) | 59 (78.7) | 2.118 (1.04–4.33) | 1.69 (0.78–3.62) |
Can read and write | 51 (22.9) | 172 (77.1) | 2.32 (1.33–4.02) | 2.11 (1.15–3.88)* | |
Primary | 20 (16.1) | 104 (83.9) | 1.52 (0.78–2.90) | 1.19 (0.59–2.39) | |
Secondary + | 21 (11.1) | 164 (88.6) | 1.0 | 1.0 | |
Discussion
The study was intended to determine the magnitude of stunting and associated factors among school-aged children in public primary schools in Addis Ababa. The study showed that the prevalence of stunting was 108 (17.8.0%, with a 95% CI of 14.6–20.9). This finding is lower than the study conducted in India (38.4%) [], Wukero tawon (49.2%) [], Libo-Kemekem district (49.4%) [], Libo-Kemekem district (25.5%) [], Yiregalem (35%) [], West Gojam Zone (43.2%) [], and Gondar town, northwest Ethiopia (46.1%) []. The possible reason for this variation may be due to a difference in study methods and existing nutritional programs. In addition, socioeconomic differences between areas (rural vs. urban, for example) could explain the differences in the prevalence of undernutrition across Ethiopia. Moreover, there might be a difference in dietary patterns and dietary diversity as well. This result is almost similar when compared to the study conducted in Addis Ababa (19.6%) [], but which is higher when compared to the study conducted in Eastern Ethiopia (8.9) [] and Nepal (13%) []. This inconsistency might be due to the variability of risk factors in different geographic regions, plus socioeconomic status and dietary diversity.
The study also found that male children have higher proportion of stunting than their counter part. Males were stunted at a rate of 61.6% (AOR = 0.616, 95% CI (0.34–0.96), p-value 0.032). This is supported by the studies in Addis Ababa [], Harar, and Wollayeta []. This could be explained by height gain in females, which results in an increased height for age compared with their male counterparts.
The study showed that breastfeeding practice was significantly associated with stunting. This is supported by the fact that breastfeeding reduces consumption of complementary foods without an equivalent increase in human milk intake, thereby diminishing total energy intake []. It is also supported by the WHO recommendation, which explains that breastfed children over 12 months of age are less likely to become ill with some infectious agent []. It is also supported by breastfeeding. Decreased diarrheal incidence and increased breastfeeding were associated with an increase in length gain when dietary intake was low and diarrheal morbidity was high, implying that the likelihood of being stunted is high [].
The study revealed that the odds of stunting are higher among children whose mothers can read and write compared to those mothers who attend secondary school and above. This is supported by the studies conducted in different parts of the world [, , , , ]. This could be explained by the fact that women with a higher education, owing to their exposure to the outside world, are more aware of personal hygiene and of promotive and curative health care than uneducated or less-educated women. Education can also enable women to make independent decisions and to have greater access to household resources. This finding contradicts the finding from Gonder that revealed children of educated mothers were more likely to develop stunting than children whose mothers were housewives [].
In this study, there was a significant association between the source of water and stunting. Children from households getting water from a pipe were 3.4 times more likely to be stunted compared with children whose houses accessed ground water [AOR = 3.4, 95% CI (1.12–1037), p-value 0.031]. This could be explained by the fact that pipe water is surface water, and the likelihood of contamination in surface water is high, so children might suffer from infection.
Conclusion and Recommendations
Conclusions
Based on the findings of the current study, it can be concluded that the rate of stunting was high among school children in the study area, confirming that stunting still remains a public health problem in Addis Ababa, even though it was lower than the finding in 2014, which was 19.6% []. Lower educational status of the mother, exclusive breastfeeding, using ground water, and being a male child were predicators of stunting.
Recommendation
The study showed that using ground water is protective against stunting. This calls for researchers to conduct a clinical trial or other kind of analytical study. It also revealed that duration of breastfeeding is a predictor of stunting, so the government needs to reconsider maternity leave from four months to six months. Since there is significant association between maternal education and stunting the minister of education strengthens the strategies that lead to sustainable development goal 4 to ensure all girls and boys complete primary and secondary schooling by 2030.
Data Accessibility Statement
All data are already included in the manuscript.