Feeding, caregiving practices, and developmental delay among children under five in lowland Nepal: a community-based cross-sectional survey

We conducted our study in Dhanusha district in Province 2 in the Terai (lowland) region of Nepal. The district covers 1180 km² and has a population of 754,777 [17]. According to the 2011 census, most people live in rural areas (89%) and over half of households are involved in agriculture [18]. The average household size is 5.5, with 35% having access to toilet facilities; only 13% having access to clean drinking water and 40% of women are illiterate [18]. The common language is Maithili and the main religion is Hinduism (89%), followed by Islam (9%).

We adapted the Nurturing Care Framework published in the Lancet series “Advancing ECD: from science to scale” [3] and limited to factors available in our data, to develop an analytical framework to structure the variables selected for the analysis (Fig. 1). Our study looks at three components of nurturing care: nutrition, responsive caregiving and early learning. The conceptual framework consisted of household-, parental- and child-level explanatory variables, which were assumed to influence IYCF and cognitive and socio-emotional caregiving practices directly or indirectly. The age and sex of the child were also considered to independently affect the developmental outcome (ECDI score). Groups of explanatory variables were entered in hierarchical order into a multivariable modelling procedure shown in Supplementary Fig. 2 and described below. We conducted the statistical analysis using STATA 16.1.

We used descriptive statistics to assess household, parental and child characteristics and the prevalence of feeding and caregiving practices across the sample. First, we assessed the association between variables within the three categories with the outcome variables using univariable analyses. Then, we examined the role of factors using multivariable mixed-effects logistic regression. As a standard approach, we used p < 0.2 as a threshold to select candidate variables from the univariable analyses to enter the multivariable regression models [25, 32]. All multivariable models were adjusted for study design by adding cluster (VDC) as a random effect, trial arm as a fixed effect and for non-modifiable explanatory variables child age and sex. Similarly, we pre-identified essential predictors of feeding practices (mother’s age and education) [25, 26] and caregiving (mother’s education and household wealth index) [27‐29] and included them in all multivariable models.

We ran three different multivariable logistic regression models separately for each outcome variable (except the ever breastfed indicator since almost all children were breastfed). Model 1 included household-level variables with p < 0.2 in univariable analyses. We retained household variables with p < 0.05 in Model 1 in the second set of multivariable models (Model 2). Model 2 included household variables kept from Model 1 and parental-level variables with p < 0.2 in univariable analyses. The final fully adjusted model (Model 3) included household and parental-level variables with p < 0.05 in Model 2. We report the Adjusted Odds Ratio (AOR) for variables retained in Model 3 with 95% Confidence Interval (CI). A p-value < 0.05 was considered statistically significant in all models. Finally, we used a Venn diagram to present the cluster of factors associated with both optimal feeding and cognitive and socio-emotional caregiving practices.

All participants completed the follow-up survey. Participant characteristics are summarised in Table 2. In the year preceding the 6-week questionnaire, 64% of mothers reported adequate household food provisioning for up to 12 months. Over half (51%) had a family member working away, and most lived in households with more than six members (77%). Only 14% of mothers and children had access to health care. Almost a third (31%) were from the most disadvantaged groups (Dalits/Muslims), and nearly all were Hindu (88%). Mothers’ mean age was 26.5 years. Only 19% of mothers had attended school and 82% of them could not read or read with some difficulty. Nearly two-thirds of fathers (64%) had not attended school. Around a third of mothers were primiparous (32%); over a third had not received antenatal visits, and home delivery was common (78%). There were more boys (54%) than girls (47%) in our sample.

Table 3 describes caregivers’ recall of breastfeeding practices for children sampled at median age 46 days and complementary feeding practices for children sampled at median age 38 months. Almost all children aged 0–12 months were ever breastfed (99%); however, only 16% were breastfed within 1 h of birth; 67% of children were fed colostrum and 53% were not given pre-lacteal feeding. Most children aged 0–5 months (89%) were exclusively breastfed for the 24-hours preceding the survey. Slightly more than half of children aged 7–59 months (56%) received complementary foods at 6–8 months. The median number of food groups consumed by children aged 7–23 months in the last 24-hours (at median age 14 months) was 3.4 and only 49% of children aged 7–23 months had achieved 24-hour MDD (≥4 items). Consumption of vegetables and fruits at 7–23 months was higher (69%) than animal-source foods (23%). Consumption of fruits and vegetables increased from 44% at 7–11 months to 80% at 12–23 months. Consumption of animal-source foods increased from 13 to 27% over the same age periods. After 24 months, a small gradual increase in consumption with age was found (Supplementary Fig. 3).

Table 4 and Supplementary Fig. 4 describe cognitive and socio-emotional caregiving practices for children aged 7–59 months. Most children (91%) used household objects as toys and 69% had toys from shops. Fewer children (12%) had homemade toys, and very few (7%) had three or more children’s books. The absence of books and mothers’ low literacy rates meant that few children aged 7–59 months were read to (14%). Reading (2%), storytelling (8%) and counting and drawing (5%) by caregivers were uncommon in the 7–23 months age group, but more common in the 24–59 months age group (19, 31, and 27%, respectively). More than two-thirds (69%) of children were never played with and most (72%) were never sung to by caregivers. Taking children outside (65%) was the most common activity and was primarily done by mothers; other activities such as reading (7%), playing (15%), counting, and drawing (13%) for children were done chiefly by their older siblings and storytelling and singing were done mainly by other adults (including grandparents) (13%). Only 11% of children aged 7–59 months received any kind of early stimulation or responsive care from any caregiver in the 3 days preceding the survey, and three-quarters of children (71%) received adequate supervision.

About three quarters (74%) of children aged 36–59 months did not participate in ECE, and over half (62%) were not on developmental track according to the ECDI score (Table 5). Supplementary Fig. 5 shows differences in ECDI scores by wealth quintile disaggregated by sex. A higher proportion of girls were on track than boys in the lowest (39% vs 30%), second (39% vs 29%), and fourth (48% vs 30%) wealth quintiles.

Figures 2 and 3 present the variables’ independent associations with each IYCF indicator. Supplementary Tables 4–11 provide numerical details of regression output.

The odds of breastfeeding initiation within 1 h of birth were greater in children whose mothers had four or more previous births (AOR 2.66; 95% CI 1.35, 5.23, ref.: one) and who were born in a health facility (AOR 4.53; 95% CI 3.09, 6.65, ref.: home). The odds of feeding colostrum were greater in children from the fourth quintile (AOR 1.69; 95% CI 1.10, 2.60, ref.: lowest quintile) and those born in a health facility (AOR 2.68; 95% CI 1.85, 3.88, ref.: home). The odds of not giving pre-lacteal feeding were greater in those born in a health facility (AOR 3.02; 95% CI 2.20, 4.14, ref.: home) and lower in children of older mothers (35–45 years, AOR 0.50; 95% CI 0.31, 0.81, ref.: 15- 24 years). The odds of breastfeeding initiation within 1 h of birth, feeding colostrum and not giving pre-lacteal feeding in the first days of life were lower as child’s age in months at the time of recall increased (see supplementary Table 4, 5 and 6). The odds of exclusive breastfeeding recalled over the past 24-hours before the survey when children were 0–5 months were greater in the highest wealth quintile (AOR 2.58; 95% CI 1.24, 5.39, ref.: lowest quintile) and, unexpectedly, lower for children who had access to health care (AOR 0.50; 95% CI 0.29, 0.85, ref.: no access).

The odds of children receiving complementary foods at 6–8 months age were greater in girls (AOR 1.29; 95% CI 1.01, 1.64, ref.: boys), in children of older mothers (35–45 years, AOR 1.95; 95% CI 1.18, 3.22, ref.: 15-24 years), whose mothers had antenatal visits (1–3 visits, AOR 1.45; 95% CI 1.09, 1.91; 4 or more visits, AOR 1.58; 95% CI 1.11, 2.24, ref.: none) or came from smaller households (1–5 members, AOR 1.54; 95% CI 1.15, 2.06, ref.: 6-10 members).

The odds of achieving MDD among children aged 7–59 months increased with wealth to a maximum of 2.12 in the highest quintile. Younger children (7–24 months, AOR 0.36; 95% CI 0.27, 0.48; 25–42 months, AOR 0.70; 95% CI 0.52, 0.95, ref.: 43-59 months) and those whose mothers were aged 35–45 years (AOR 0.60; 95% CI 0.38, 0.97, ref.: 15-24 years) were less likely to achieve MDD. The odds of consumption of animal-source foods were lower in younger children (7–24 months, AOR 0.55; 95% CI 0.40, 0.75, ref.: 43 - 59 months), and amongst those whose mothers were aged 35–45 years (AOR 0.52; 95% CI 0.30, 0.90, ref.: 15-24 years), whose fathers had higher education (primary, AOR 0.66; 95% CI 0.43, 1.00; secondary and above, AOR 0.63; 95% CI 0.45, 0.87; ref.: none) and were from relatively advantaged caste groups (Janjati/other terai, AOR 0.58; 95% CI 0.43, 0.78; Yadav/Brahmin, AOR 0.49; 95% CI 0.33, 0.71, ref.: Dalit/Muslim). The odds of consuming fruits and vegetables were much lower in younger children (AOR 0.20; 95% CI 0.13, 0.29, ref.: 43 - 59 months) than in the oldest age group.

Figures 4 and 5 present the variables’ independent associations with each cognitive and socio-emotional caregiving practice indicator. Supplementary Tables 12–17 provide numerical details of regression output.

The odds of having access to three or more children’s books were 2.6 times greater among children whose mothers had higher education and three times greater in those whose mothers had four or more antenatal visits. The odds of having access to three or more children’s books were lower for younger children (AOR 0.24; 95% CI 0.10, 0.55, ref.: 43-59 months). The odds of access to two or more toys were two times greater for children in all wealth quintiles relative to the poorest and whose mothers had 1–3 antenatal visits (AOR 1.38; 95% CI 1.02, 1.88, ref.: none). Girls (AOR 0.72; 95% CI 0.55, 0.94, ref.: boys) and younger children (AOR 0.49; 95% CI 0.36, 0.66; ref.: 43-59 months) were less likely to have access to two or more toys.

Children whose mothers were aged 25–34 years (AOR 1.82; 95% CI 1.03, 3.21, ref.:15-24 years), had received at least primary education (AOR 3.12; 95% CI 1.34, 7.27, ref.: none), had access to health care (AOR 2.04; 95% CI 1.01, 4.13, ref.: no access) and were aged between 48 and 59 months (AOR 2.76; 95% CI 1.40, 5.45, ref.:24-35 months) were more likely to receive early stimulation and responsive caregiving. Children from large households with 11 or more members (AOR 0.41; 95% CI 0.18, 0.94, ref.: 6-10 members) and where at least one member had migrated (AOR 0.52; 95% CI 0.31, 0.90, ref.: none) had lower odds of receiving early stimulation and responsive caregiving.

Younger children aged 7–24 months (AOR 1.94; 95% CI 1.39, 2.70; ref.: 43-59 months) and those whose mothers had higher education (AOR 1.67; 95% CI 1.02, 2.75, ref.: none) had higher odds of receiving adequate supervision. Children whose mothers had three (AOR 0.60; 95% CI 0.40, 0.89) or more (AOR 0.38; 95% CI 0.26, 0.55, ref.: one) previous births and were from households with 1–5 members (AOR 0.57; 95% CI 0.40, 0.79, ref.: 6-10 members) had lower odds of receiving adequate supervision.

Children from wealthier households (highest quintile AOR 2.93; 95% CI 1.39, 6.19, ref.: lowest quintile), born in a health facility (AOR 1.95; 95% CI 1.10, 3.46, ref.: home) and aged 48–59 months (AOR 3.87; 95% CI 2.40, 6.24, ref.: 36-47 months) were more likely to participate in ECE. Similarly, children aged 48–59 months had greater odds of being developmentally on track according to the ECDI score (AOR 1.46; 95% CI 1.02, 2.08, ref.: 36-47 months).

Figure 6 maps the common risk factors associated with IYCF and caregiving outcomes in multivariable regression analysis Model 3. The common risk factors affected both indicators in the same direction, indicating an overlapping risk group (Supplementary Table 18). Children with a higher risk of poor feeding and caregiving practices were younger, from poor households, and were born to adolescent and young mothers (15–24 years) who received few or no antenatal visits and delivered at home.

Our study has some limitations. First, the cross-sectional design precludes causal inferences. Second, while our results shed light on the factors affecting IYCF and caregiving practices in lowland Nepal, our findings may not be generalisable to other areas of Nepal due to cultural and geographical variation. Third, the information on feeding and caregiving practices was self-reported by mothers, which may be liable to recall bias and social desirability bias. Fourth, the developmental potential of children at 36–59 months of age was assessed using the ECDI score, which has limited coverage of cognition and culturally specific developmental milestones [35, 62]. Fifth, we did not analyse the factors affecting maternal and paternal caregiving practices separately. Mothers and fathers play critical but distinct roles in a child’s development. Studies have found that fathers’ engagement in stimulating activities is more influential to child development than mothers’ engagement in similar activities [27, 67]. Similarly, the inclusion of the explanatory variables was limited to those indicators that were available and it is possible that we could have missed other important predictors of IYCF and caregiving. Sixth, while we used a wide range of indicators embedded within the Nurturing Care Framework, we missed health and safety and security. To address these limitations, future studies should use age-appropriate and culture-sensitive population measures to gauge child development, examine separately the potential factors influencing the parenting practices of both mothers and fathers at different levels in the surrounding environment and explore all aspects of nurturing care to inform a holistic approach to child development. Finally, whilst our data date back to 2012, the gap in IYCF and caregiving practices may still exist; significant interventions, particularly on responsive caregiving and early learning for children under 3 years, have not been implemented in the area since then.

Our findings provide context-based evidence to guide the Government of Nepal, international agencies, non-governmental organisations and public health experts to inform the design of interventions to improve ECD. Young children of adolescent and young mothers with limited access to health services during pregnancy and those from low-income families should be targeted for interventions to reduce the gap in child development in lowland Nepal. This strategy must be strengthened at the local level, given the country’s recent transition to a decentralised federal structure. Identifying those at risk of poor feeding and caregiving practices has further highlighted the need for an integrated approach to reduce the adverse consequences of poor practices on ECD. Existing interventions to enhance ECD are delivered in silos or with only partial integration of health and nutrition or nutrition and caregiving interventions [13, 69, 70]. Local, state, and federal governments need to focus on bringing different sectors together and designing interventions that incorporate all aspects of nurturing care for a child’s holistic development. Governments should increase investment in parenting programmes to support parents and caregivers to improve their feeding and caregiving practices for young children to reduce inequalities in child development [12, 71]. Likewise, the Government of Nepal and other key stakeholders should engage in social and behaviour change communication at household and community level to increase awareness of the optimal feeding and caregiving practices that support ECD.