The crisis resulting from the coronavirus disease 2019 (COVID-19) pandemic has further increased the prevalence of the double burden of malnutrition in young children in low- and middle-income countries(Reference Headey, Heidkamp and Osendarp1,2) . Even relatively brief lockdowns, combined with severe mobility disruptions but comparably mild food system disruptions, were expected to result in a 14·3 % rise in the prevalence of moderate or severe wasting among children under the age of five across 118 low- and middle-income countries(Reference Headey, Heidkamp and Osendarp1). After COVID-19 was declared a pandemic in March 2020(3), many countries went into partial or full lockdown, including Malaysia, Indonesia, Thailand and Vietnam. During lockdown, governmental support and food assistance programmes were either continued or purposely made available to families in all countries, especially to monetary-poor households. Despite this support, the pandemic still had a negative impact on income stability and perceived stress levels in parents and guardians which might have compromised their ability to take care of their children’s lifestyle, including diet and physical activity(Reference Zemrani, Gehri and Masserey4). At the same time, the outbreak of the pandemic presented an unique opportunity to assess the impact of COVID-19 on parents/guardians and their children, that were already recruited for participation in the South-East Asian Nutrition Surveys II (SEANUTS II) main study.
SEANUTS II is the successor to SEANUTS I, a nationally representative multi-country survey that was conducted in Malaysia, Indonesia, Thailand and Vietnam between 2010 and 2011, which assessed the nutritional status and lifestyle factors of more than 16 500 children aged 0·5–12·9 years old(Reference Schaafsma, Deurenberg and Calame5). In SEANUTS II, the nutritional status and lifestyle factors of 13 933 children, aged 0·5–12·9 years, have been assessed for the same four countries as SEANUTS I. SEANUTS II was conducted between May 2019 and April 2021. The purpose of SEANUTS II was to continue the monitoring of the nutritional status and lifestyle behaviours of young children in Southeast Asia. After the outbreak of the COVID-19 pandemic, a questionnaire was specifically developed to assess the impact of the COVID-19 pandemic on work status, household expenditures as well as children’s dietary intake and lifestyle behaviours in the SEANUTS II study cohort. This deemed relevant as it had been reported that lifestyle changes in school-aged children, such as increased virtual education and demise of social interactions, can impact nutrition, education and mental health, especially in monetary-poor households, eventually leading to less well-being and suboptimal development(Reference Cardenas, Bustos and Chakraborty6,Reference Esposito and Principi7) . The aim of this paper is to describe the economic, lifestyle and nutritional impact of the COVID-19 pandemic on parents, guardians and children in Malaysia, Indonesia, Thailand and Vietnam.
Methods
Study design
SEANUTS II is a cross-sectional study conducted in four countries: Malaysia, Indonesia, Thailand and Vietnam in both urban and rural areas. Apparently healthy children had to be within the age of 0·5–12 years and citizen of the studied country. Exclusion criteria were physical disability and genetic, cardiovascular or respiratory illness that limited physical activity. In total, the study recruited 13 933 children and their parents/guardians(Reference Tan, Poh and Sekartini8). The COVID-19 analysis of SEANUTS II children can be considered a sub-study of the main SEANUTS II study for Malaysia and Indonesia, while it can be considered part of the main SEANUT II study, as it was conducted along with the main study, in Thailand and Vietnam (Fig. 1). Malaysia and Indonesia implemented the COVID-19 questionnaire, after main study data collection was terminated due to the start of the pandemic; in a subgroup of children (∼24 % and ∼43 % of recruited participants in Malaysia and Indonesia, respectively), Thailand implemented the questionnaire in ∼86 % of the children while all children in Vietnam completed it. For data collection, various survey methods were used. Malaysia used online surveys via SurveyMonkey, Indonesia conducted telephone interviews, while Thailand and Vietnam used face-to-face interviews. Data collection in Malaysia took place when schools were not yet open because of lockdown restrictions. In the other countries, children were already going back to school(Reference Tan, Poh and Sekartini8).
SEANUTS II COVID-19 study population
Healthy children and their parents/guardians were included from urban and rural regions in Malaysia, Indonesia, Thailand and Vietnam for the main SEANUTS II study. Children were between 0·5 and 12·9 years except for Vietnamese children who were between 0·5–11·9 years old because primary schools end in Vietnam one year earlier than in the other countries. As for Malaysia and Indonesia, a sub-sample of the already recruited children for the main study were requested to participate in the COVID-19 sub-study, they were therefore a few months older at the time of COVID-19 questionnaire administration.
Children from Malaysia and Indonesia, without information on food intake (Malaysia), changes in intake (Indonesia) or food insecurity during COVID-19 lockdown, were excluded from the analyses. In total, 477 children were excluded, leaving a grand total of 9203 children to be included in the COVID-19 analysis.
SEANUTS II main study data
Collection of SEANUTS II main study data has been described in detail elsewhere(Reference Tan, Poh and Sekartini8). In short, the following measurements are of relevance to this manuscript: (a) socioeconomic and general health status (Socio-Economic Status Questionnaire (SES)), (b) dietary intake and food habits (Child Food Habit questionnaire (CFH))(Reference Zemrani, Gehri and Masserey4,9) , covering meal patterns and main food groups, (c) the Food Insecurity Questionnaire (FIQ)(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) assessing four levels of food insecurity with increasing severity – food secure, household food insecure, individual or adult food insecure and child hunger. Thailand did not implement the FIQ and (d) physical activity. Physical activity was assessed by a Physical Activity Questionnaire (PAQ)(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) . Sample size was calculated based on nutritional issues which were of public health relevance per country. Each country used a multi-stage clustered sampling approach based on national population census data. Both urban and rural areas were included in the random selection of enumeration areas(Reference Tan, Poh and Sekartini8).
COVID-19 questionnaire
To understand the impact of the coronavirus pandemic on the economic situation of households, lifestyle and food habits of SEANUTS II children, a COVID-19 questionnaire was specifically developed and implemented in all countries. Malaysia was the first to develop the questionnaire, mainly repeating FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) , CFH(Reference Zemrani, Gehri and Masserey4,9) and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) from the main study as well as adding additional questions specific to the COVID-19 pandemic. Thailand and Indonesia further developed the COVID-19 questionnaire while Vietnam used the same questionnaire as Thailand. The COVID-19 questionnaire consisted of questions addressing (a) the parents’ and/or main guardian’s work status, (b) monthly household income, (c) household food expenditure patterns, (d) children’s dietary intake patterns, such as changes in type of food, portion size and snacks taken, (e) receipt of special governmental or other support during the pandemic and (f) children’s physical activity behaviours and screen time. All questions were self-reported by the parents/guardians. As Malaysia and Indonesia repeated a selection of questions from the main study CFH(Reference Zemrani, Gehri and Masserey4,9) , FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) questionnaires, they could calculate actual changes based on the first and second reporting.
Study population for analyses
Malaysia was the first to implement the questionnaire in the period of June to August 2020, after SEANUTS II main study data collection was prematurely terminated due to outbreak of the pandemic, to a subgroup of children (n 703) from the main SEANUTS II study population (Fig. 1). This corresponds to 24 % of all recruited Malaysian SEANUTS II children. The questionnaire asked for self-reported changes ‘during lockdown’. Besides questions related to COVID-19, Malaysia also repeated a selection of questions from the main study questionnaires CFH(Reference Zemrani, Gehri and Masserey4,9) (n 703), FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) (n 694) children and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) (n 483), yielding information about possible changes compared to the situation before outbreak of the pandemic. It should be noted that for Malaysia, in contrast to the other countries, no questions about self-reported changes in children’s food intake patterns were included in the COVID-19 questionnaire. Questions on monthly household income were only repeated for Malaysia as household income was one of the questions of the SES questionnaire of the main study for Malaysia.
Thailand was the second country to administer the COVID-19 questionnaire from July to December 2020, alongside execution of the main study (Fig. 1). The questionnaire was administered to 86 % of all Thai participants, that is n 3001 participants. As the main study had started before the onset of the pandemic, subjects of which data were collected during this period were not selected for the COVID-19 analysis. Questions were directed at self-reported differences between the periods ‘before COVID-19’ v. ‘during COVID-19 lockdown (26 March 2020 until 30 April 2020)’ v. ‘after lockdown (but still during the pandemic)’. Thailand also included an additional question about specific school milk programmes(Reference Mayurasakorn, Pinsawas and Mongkolsucharitkul14). A selection of PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) questions was included in the COVID-19 questionnaire.
Indonesia and Vietnam were the last to implement the questionnaire. Indonesia administered the COVID-19 questionnaire to a subgroup (43 %, n 1498) of SEANUTS II children in the period from September to December 2020 (Fig. 1). The questionnaire asked for self-reported changes ‘before start COVID-19 pandemic’ v. ‘during COVID-19 pandemic’. In addition to this questionnaire, Indonesia also repeated a selection of questions from the main study questionnaires CFH(Reference Zemrani, Gehri and Masserey4,9) , FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) , as Malaysia did, allowing for direct comparison with the situation before the outbreak of the pandemic. It should be noted that the repeated CFH questions were only administered to a subset of children (n 954) as some children had not filled out the CFH questionnaire in the main study as they were <2 years old at that time or because they could not be reached for the telephone interview.
In contrast to the other three countries, no clear COVID-19 lockdowns were implemented by the Government of Indonesia but instead periods of large-scale social restrictions were implemented(Reference Amir15).
In Vietnam, the COVID-19 questionnaire was administered from September 2020 until April 2021 to all Vietnamese participants (n 4001) (Fig. 1). As was the case for Thailand, COVID-19 data collection was running alongside the execution of the main study. Self-reported changes for the following comparisons were made: ‘before start COVID-19 pandemic (before 1 April 2020)’, ‘during COVID-19 lockdown (during 01 April 2020 to 22 April 2020)’ and ‘after lockdown (but still during pandemic)’. A selection of questions from the FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) questionnaires was included in the COVID-19 questionnaire. Vietnam also included an additional question about availability of school milk.
Statistical methods
All statistical analyses were performed on unweighted data. A binomial test was used to assess if the percentage of self-reported increase was different from the percentage of self-reported decrease. A McNemar test was used to test if the self-reported changes during lockdown differed from the self-reported changes after lockdown. For the repeated measurements, a Wilcoxon signed ranked test was used to assess if the change before and during lockdown/pandemic was significant. Generalised estimating equations were used to examine if change was different between rural and urban areas. Statistical analyses were performed using IBM SPSS Statistics version 23·0 for Windows (IBM Corp.). Throughout the study, a P-value <0·05 indicates statistical significance.
Results
Baseline data
Subject characteristics of those participating in the COVID-19 study can be found in Table 1. The proportion of children from rural and urban areas in Indonesia was very similar (n 754 and n 744, respectively), whereas for Thailand and Vietnam most children came from rural regions (n 2063 and n 2787, respectively). In contrast, in Malaysia, most study participants came from urban areas (n 512 v. n 191 rural). The ratio of ‘male-female’ was very similar across countries as well as across urban and rural areas. Of the total study population, 1498 children came from Indonesia (754 (50·3 %) females and 744 (49·7 %) males), 703 from Malaysia (361 (51·4 %) females and 342 (48·6 %) males), 3001 from Thailand (1497 (49·9 %) females and 1504 (50·1 %) males), and 4001 from Vietnam (1981 (49·5 %) females and 2020 (50·5 %) males). Stunting was most prevalent in Indonesia (27·9 % rural and 18·1 % urban), as well as the percentage of young children (<5 years old) with underweight (20·2 % rural and 18·5 % urban). The percentage of overweight and obese children was highest in urban Vietnam (15·4 % and 14·3 %, respectively) and rural Malaysia (13·1 % and 11·5 %, respectively).
HAZ: Height-for-Age Z-score; WAZ: weight-for-Age Z-score; BAZ: BMI-for-Age Z-score
Data are reported as mean (s d), median (Q1–Q3) or n (%). Milk includes fresh milk and milk powder, flavoured milk and evaporated milk. Overweight was defined as BAZ > 2 sd to ≤ 3 sd for children younger than 5 years; BAZ > 1 sd to ≤ 2 sd for children older than 5 years. Obesity was defined as BAZ > 3 sd for children younger than 5 years; BAZ > 2 sd for children older than 5 years. Stunted was defined as HAZ < –2 sd. Underweight was defined as WAZ < –2 sd. YCF: young child formula. Except for anthropometry, all data are based on questionnaires(Reference Tan, Poh and Sekartini8).
In all countries, secondary schooling was the most common education status of parents/guardians. The proportion of tertiary schooling was highest in urban Malaysian fathers (50·0 %) and urban Malaysian mothers (58·1 %) followed by urban Vietnamese (46·5 %) mothers.
At baseline, older children (>7 years) were physically most active in Malaysia and Vietnam.
Based on the main study’s first CFH questionnaire, baseline intake of vegetables and fruits by SEANUTS II children was highest in Vietnam and especially in urban Vietnam. Baseline fish intake was lowest in Vietnam, and baseline milk intake was highest in Thailand. The baseline intake of non-basic and convenience foods was largely comparable across countries with the highest intake of deep-fried foods in Indonesia and the lowest intake of sugar-sweetened beverages in Vietnam.
Socioeconomic impact of the pandemic
The COVID-19 pandemic significantly affected the socioeconomic situation of families in the various countries (Table 2). Monthly household income decreased significantly in all countries for most families. Proportions of decrease ranged from 39·2 % (urban Vietnam) to 78·7 % (urban Thailand). Especially for Thailand, the decrease in income was highly significant.
NA: not available.
Data are reported as n (%).
* Statistical tests: %increase = %decrease: binominal test (Ho is no overall change. No overall change is defined as participants having answered ‘the same’ or the number of participants answering ‘increase’ equalled the number of participants answering ‘decrease’).
† Statistical tests: For Malaysia, impact of COVID-19 on household income and household income spent on food is based on parents self-reporting twice, that is before the pandemic and during lockdown (part of SES questionnaire). The change was calculated based on the first and second reporting.
‡ Statistical tests: ‘during pandemic’ v. ‘before pandemic’ (Indonesia) and ‘during COVID-19 lockdown’ v. ‘before pandemic’ (Malaysia) or ‘before pandemic’ v. ‘during COVID-19 lockdown’ or ‘before pandemic’ v. ‘after COVID-19 lockdown’ (both for Vietnam and Thailand): McNemar test.
In all countries, except Malaysia, food expenditure decreased or remained stable during lockdown. In Malaysia, food expenditure actually increased in both rural (53·8 %) and urban (53·6 %) regions. For Thailand and Vietnam, the percentage of households reporting decreased food expenditure was smaller after lockdown than during lockdown. For Indonesia and Malaysia, no ‘after lockdown’ data were collected.
During the pandemic and lockdowns, the number of parents/guardians losing their jobs increased significantly compared to the situation pre-pandemic in all countries. This was seen for both fathers/ male guardians and mothers/female guardians.
The situation of parents/guardians that were working from home changed less consistently during the pandemic/lockdowns across the countries. The number of mothers/female guardians working from home increased significantly due to the pandemic in rural Indonesia. This was also seen in rural and urban Malaysia and Vietnam during lockdown but not in Thailand. Interestingly, this significant increase persisted after lockdown in rural Vietnam. The number of fathers and male guardians working from home increased significantly during the pandemic in rural and urban areas of Indonesia. Also, in rural and urban areas of Malaysia and Vietnam, as well as in urban Thailand, this increase was seen when comparing the period during lockdown with the time before the pandemic (Table 2). The largest quantitative changes in work status were observed in Malaysia. Overall, during lockdown in Malaysia, the percentage of fathers/male guardians not working increased from 4 % to 27 %, those working at the office decreased from 96 % to 29 % while 36 % of them were working from home. For mothers/female guardians, those not working increased from 33 % to 40 %, those working at the office decreased from 65 % to 14 % while 39 % of them were working from home.
Self-reported changes in food intake patterns
Data on self-reported changes in food intake (based on questions in the COVID-19 questionnaire) during pandemic/lockdown were available for SEANUTS II children from Indonesia (during pandemic v. before pandemic), Thailand and Vietnam (during lockdown v. before pandemic) (Table 3a). Intake of food groups was not different before the pandemic when compared to during pandemic/lockdown as reported by ∼60·0 to ∼95·0 % of all households. Most households did not dramatically change their food habits during the pandemic. This does not imply that there were no changes at all. When comparing the % increase to the % decrease of the various food groups in the countries, several significant changes were identified. In rural Indonesia, most of the children that changed their food intake during the pandemic decreased their consumption of vegetables (P-value < 0·001), fruits (P-value < 0·001), meat/poultry/seafood (P-value < 0·001), eggs (P-value 0·002), milk (P-value < 0·001), other dairy products (P-value < 0·001), canned foods (P-value < 0·001), convenience food (P-value < 0·001), processed foods (P-value < 0·001), sweetened beverages (P-value < 0·001) and snacks (P-value 0·007) while they increased their consumption of rice/cereals (P-value < 0·001). Most of the children also increased the portion size of their main meals (P-value < 0·001). In urban regions of Indonesia, most of the children that changed their food intake decreased their intake of fruits (P-value < 0·001), meat/poultry/seafood (P-value < 0·001), other dairy products (P-value < 0·001), canned foods (P-value 0·012), convenience food (P-value < 0·001), processed foods (P-value < 0·001), sweetened beverages (P-value < 0·001) and snacks (P-value < 0·001). Interestingly, portion size of main meals (P-value < 0·001) increased. For rural Thailand, the consumption of vegetables (P-value 0·022), other dairy products (P-value < 0·001), canned foods (P-value 0·002), processed foods (p-value 0·005), sweetened beverages (<0·001) all decreased while the consumption of eggs (P-value < 0·001), milk (P-value 0·013), rice/cereals (P-value 0·001) and portion size of main meals (P-value < 0·001) increased. In urban regions of Thailand, only the intake of sweetened beverages (0·003) decreased while the intake of eggs (P-value 0·001), milk (P-value 0·020) and portion size of main meals (P-value 0·010) all increased. Finally, in rural areas of Vietnam, the majority of children that changed their food intake during the pandemic decreased their intake of vegetables, fruits, meat/poultry/seafood, eggs, milk, young child formula, other dairy products, rice/cereals, canned foods, convenience food, processed foods, sweetened beverages and snacks (P-value < 0·001 for all). Also portion size of main meals (P-value < 0·001) decreased. In urban Vietnam, the majority of children that changed their food intake decreased consumption of meat/poultry/seafood (P-value 0·021), milk (P-value 0·017), young child formula (P-value 0·004), other dairy products (P-value 0·001), canned foods (P-value < 0·001), convenience food (P-value 0·001), processed foods (P-value < 0·001), sweetened beverages (P-value < 0·001) and snacks (P-value < 0·001). These children also decreased their portion size of main meals (P-value 0·029).
Data are reported as n (%). Statistical test: %increase = %decrease with a binominal test.
Repeated measures analysis of food intake
Both, Indonesia and Malaysia, repeated the CFH questionnaire to assess changes in intake frequencies of foods consumed during pandemic/lockdown as compared to before the pandemic (Table 3b). For Indonesia, significant differences were found for the intake of vegetables, deep-fried foods and sugar-sweetened beverages. The frequency of vegetable intake per week increased in both rural and urban regions (P-value < 0·001) while the consumption of deep-fried foods significantly increased in urban areas (P-value 0·013) and the consumption of sugar-sweetened beverages significantly decreased in urban areas (P-value 0·001) during the pandemic. Significant differences in consumption between Indonesian rural and urban areas were found for fish consumption (P-value 0·050), deep-fried foods (P-value 0·043) and sugar-sweetened beverages (P-value 0·009). In Malaysia, the frequency of vegetables, fruits and eggs consumption significantly increased in both rural (P-values 0·007, 0·003, <0·001, respectively) and urban areas (P-value < 0·001 and <0·001, <0·001, respectively) during lockdown. The consumption of confectionery by urban children slightly increased (P-value 0·009). The consumption of milk decreased in both rural (P-value 0·004) and urban (P-value 0·001) areas during COVID-19 lockdown. Also, the consumption of sugar-sweetened beverages (rural and urban, P-values 0·002 and <0·001) and local cakes (kuih) (urban, P-value 0·001) significantly decreased.
CFH: Child Food Habit. NA: not available. LD: lockdown.
Data are reported as n (%).
* Statistical test: compare food frequency ‘before pandemic’ and ‘during pandemic’ (Indonesia) and ‘before pandemic’ and ‘during COVID-19 lockdown’ (Malaysia) with a Wilcoxon signed rank test.
† Statistical test: compare change in food consumed in rural v. change in food consumed in urban using generalised estimating equations (ordinal probit).
Impact of the pandemic on physical activity
Indonesia, Thailand and Vietnam all showed a self-reported significant decrease in outdoor activities and a significant increase in indoor activities in both rural and urban regions during pandemic (Indonesia) or lockdown (Thailand and Vietnam) (Table 4a). Malaysia showed for urban children older than 7 years a significant increase in moderate-to-vigorous physical activity (16·9 % to 23·3 %). Younger children (3–6 years) showed a significant decrease in physical activity in both rural (78·6 % to 57·1 %) and urban (63·8 % to 53·4 %) areas (Table 4b). For all countries, the use of electronic devices increased (Table 4a and Table 4b).
LD: LD: lockdown. NA; not available.
Data are reported n (%).
Statistical test: %increase = %decrease using a binominal test of ‘before pandemic (ID)/before lockdown (TH and VN)’ and ‘during pandemic (ID)/during lockdown (TH and VN)’ strata.
Data are reported as mean (s d) or n (%).
* Statistical test: compare ‘before pandemic’ and ‘during COVID-19 lockdown’ for ordinal variables using a McNemar rank test.
† Statistical test: compare change in physical activity/use of electronic devices for recreation in rural areas v. change in physical activity/use of electronic devices for recreation in urban areas using generalised estimating equations (ordinal probit) analysis.
‡ Physically active was defined as at least 60 min of moderate-to-vigorous physical activity for children 3–6 years of age.
§ For children 7 years or older, physically active was defined as, at least, 60 min per day of moderate-to-vigorous physical activity.
Impact of the pandemic on food security
Food insecurity increased during the pandemic in Indonesia mainly driven by an increase in individual insecurity and child hunger (both urban and rural). For Malaysia, the lockdown had no significant effect on food insecurity (Table 5).
Data are reported as n (%).
* Statistical tests: Compare % food insecurity ‘before pandemic’ and ‘during pandemic’ (Indonesia) or ‘before pandemic’ and ‘during COVID-19 lockdown’ (Malaysia) using a Wilcoxon signed rank test.
† Statistical tests: Compare the effect of the COVID-19 pandemic on food insecurity in rural and urban areas using a generalised estimating equations (ordinal probit) test.
More than half of the children in Thailand and Vietnam missed their school meals and school milk during COVID-19 lockdown (data not shown).
Discussion
COVID-19 was declared a pandemic on the 11th of March 2020. With the impeding COVID-19 pandemic, many countries went into partial or full lockdown, all at different timepoints, including the SEANUTS II countries (Table 6). At the time of the outbreak, in Malaysia, school meals were already provided to children from poor households for a long time. This continued when the pandemic started but stopped once schools closed for lockdowns. The programmes were restarted once lockdowns were lifted. In addition to this, monetary assistance was given to the heads of poor households(Reference Shah, Safri and Thevadas16). Indonesia did not make any specific food assistance school programmes available to children during the pandemic. There were education programmes developed by selected schools for parents focussing on the importance of providing nutritious food to their children during the pandemic. Children were requested to report their breakfast and lunch meals (e.g. photos of the foods) to their teachers. In Thailand, school lunch programmes and school milk programmes were supplied during the pandemic. All children in child development centres (aged 2–3 years), kindergarten (aged 4–6 years) and primary school (aged 7–12 years) received free lunches and free milk (200 ml per day). Schools in Thailand were generally open during the school year 2020–2021, except for June 2021. As a result of the pandemic, the number of pupils who received nutrition via school feeding programmes decreased. In case schools were closed, meals were not provided at school, but the student’s families were provided with monetary support or vouchers to purchase food. During lockdowns, parent received milk from school for their children(17). The Vietnamese government also provided food assistance programmes to needy families during the pandemic but put no specific school feeding programmes in place. There were also no school meals provided to children during lockdowns and no meals were delivered at home in case of home-based schooling(18). Despite the above-described support efforts by the various countries, the pandemic has led to, income instability, school closures and increased stress levels in parents and guardians that could have compromised their ability to take care of their children’s lifestyle, diet and physical activity. To further analyse this, a specific COVID-19 questionnaire was developed and administered to parents/guardians and their children who participated in the SEANUTS II study, a nationally representative multi-centre survey that was conducted in Malaysia, Indonesia, Thailand and Vietnam between 2019 and 2021. Malaysia administered their COVID-19 questionnaire from June 2020 until August 2020, during COVID lockdown. Schools were closed during this period. In Indonesia, Thailand and Vietnam, children were already going back to school when data collection was conducted during the pandemic. For Malaysia and Indonesia, the COVID-19 analysis can be considered a sub-study of the baseline (main) study because data collection for the baseline (main) study was already terminated because of the outbreak of the pandemic, strict lockdown measures and the high risk of spreading disease. Thailand and Vietnam conducted the COVID-19 analysis alongside the SEANUTS II main study. We cannot exclude that these difference in timing may have affected some analyses results. Certain physical activity behaviours may only have been identified in the data set from Malaysia as strict mobility restriction was in place there during data collection. Changes in these behaviours may have been missed in the other countries. Furthermore, as no data were collected prior to the outbreak of the pandemic, it was not possible for Thailand and Vietnam, in contrast to Malaysia and Indonesia, to make a direct comparison of measurements before and during the pandemic/COVID-19 lockdown. In these countries, the situation before the pandemic could only be assessed by questions from the COVID-19 questionnaire about changes in lifestyle behaviours that were answered from memory (e.g. self-reported). It should be noted that recalling from memory, during the pandemic, lifestyle behaviours from before the outbreak of the pandemic may have yielded biased results. As Indonesia and Malaysia had completed their main study data collection before outbreak of the pandemic they did not solely depend on these self-reported questions from the COVID-19 questionnaire but could also repeat a selection of questions from the main study questionnaires CFH(Reference Zemrani, Gehri and Masserey4,9) , FIQ(Reference Radimer, Olson and Greene10,Reference Sharif and Ang11) and PAQ(Reference Okely, Ghersi and Hesketh12,Reference Kowalski, Crocker and Donen13) . On top of this, Malaysia also repeated some questions from the SES questionnaire about monthly household income and monthly household income spent on food. The repeated measurements yield more accurate/less biased data than those obtained by self-reporting. A strong asset of our COVID-19 analysis is the four-country set-up where almost identical protocols were implemented thereby increasing the generalisability of findings across the countries. Baseline measurements of the proportions of children from rural and urban areas confirmed that de COVID-19 study cohort is representative of the populations of the respective countries as the proportions are very similar to the reported population distributions over these areas(19).
For Indonesia, Thailand and Vietnam, intake of most food groups did not change during pandemic/lockdown compared to before pandemic for most children (60·0–95·0 %), based on self-reporting (COVID-19 questionnaire). For the minority of children that did change their food intake during the pandemic/lockdown, the intake of almost all food groups decreased. Exceptions are an increase in the consumption of rice/cereals (rural areas) and larger portion size of main meals in Indonesia and an increased consumption of eggs, milk, rice/cereals (only in rural regions) and larger portion size of main meals in Thailand. Interestingly, in Vietnam, the self-reported consumption of all food groups decreased during lockdown including the portion size of main meals.
Only in rural Thailand some marginal decreases in food intakes from the period during the lockdown persisted after lockdown (data not shown). Most subjects who self-reported a decrease for a certain food group during lockdown reported no change or an increased intake of the respective food group after lockdown. Likewise, most subjects who self-reported an increase for a certain food group during lockdown reported no change or a decreased intake of the respective food group after lockdown. This may partly be explained by regression to the mean.
For Indonesia, results from the repeated CFH questionnaire were not identical to the results from the self-reported changes in foods consumed in the COVID-19 questionnaire (Table 3a v. Table 3b, Indonesia). The repeated CFH measurements showed that vegetable consumption had increased in rural as well as urban Indonesia during the pandemic while a decrease in vegetable consumption was self-reported for children in rural Indonesia via the COVID-19 questionnaire. The exact phrasing of the respective questions can partly explain this discrepancy but also the fact that in the CFH questionnaire parents/guardians were asked to report food intake over the previous week while in the COVID-19 questionnaire parents/guardians were asked to call to memory food intake from a much longer time ago is of major significance. For these reasons, the repeated CFH is more accurate than the COVID-19 questionnaire. Interestingly, for Malaysia, the lockdown resulted in a healthier dietary pattern with more basic food groups and less discretionary foods. The repeated CFH questionnaire showed an increased consumption of vegetables, fruits and eggs but decreased consumption of milk and dairy products. It also showed a decreased intake of sweetened beverages in Malaysian children during lockdown. This might be explained by the fact that there was more time to cook and eat at home during the pandemic, the fact that the Malaysian government recommended the consumption of vegetables and fruits to support the immune system and the disruption of school milk programmes due to school closure. These observations partly replicate the observations made by UNICEF and UNFPA who showed that, on average, Malaysian households consumed more eggs (+50·0 %), rice (+40·0 %) and instant noodles (+40·0 %), and less snacks and sweets (–62·0 %) and fruits (–40·0 %) during lockdown than before the pandemic. Low-income households, who earned below RM2,000 per month (∼$420 USD, conversion date November 2022), spent more on eggs (+5·0 %) and instant noodles (+8·0 %) relative to higher earning groups and less on protein (32·0 % v. 17·0 % in higher-income households) and rice (19·0 % v. 7·0 % in higher-income groups) during lockdown(18).
The pandemic not only had nutritional consequences but also negatively impacted socioeconomic and food security parameters. In all countries, monthly household income decreased as many people lost their jobs. Food security in Indonesia decreased as well. These socioeconomic effects of the pandemic have also been found in other studies(Reference Hamdani, Hasan and Baldi20–22). Interestingly, only in Malaysia did food expenditure increase during the lockdown period. This was not observed in any of the other countries. It is possible that the financial support in Malaysia led to more money available to be spent on food. Increased household size during lockdown and the use of financial savings for food purchases may further have contributed to the increased food spent in Malaysia. The fact that there were no school meal/milk programmes available during lockdown may also have contributed.
Outdoor physical activity decreased during lockdown while indoor physical activity increased in Indonesia, Thailand and Vietnam. For Vietnam, it had been reported that, because of social distancing and school closures, children had more time for online activities, but less for physical exercise. Moreover, parents less strictly managed their children’s screen time(18). In Malaysia, overall physical activity increased during lockdown for older children with low baseline PAL levels (>7 years) and significantly decreased in younger children (3–6 years). This may be explained by the fact that, during the pandemic, there could have been more leisure time to do physical activity at home for the older children while sedentary screen time for the younger children was more permitted as would have normally been the case by the parents/guardians as they were working from home or busy with household chores. It is noteworthy that physical activity and sedentary screen time seem to have been less impacted by the pandemic in low- and middle-income countries than in high-income countries(Reference Osendarp, Kweku Akuoku and Black23).
Electronic device usage increased in all countries. This can at least be partly explained by the fact that many children were still doing much of their learning through online education(18,24) .
In conclusion, the COVID-19 pandemic impacted the lives of SEANUTS II children and their families differently, both negatively as well as positively. Understanding these lifestyle behaviour changes in each country may help public health authorities reshape future policies on nutrition and lifestyle recommendations when new pandemics arrive, and lockdown policies are implemented. Future policies should include nutrition-focused social protection programmes and food assistance programmes for children from impacted households, recommendations to children to be physically active at home and stimulation of parents to engage with their children and stimulate them to play more fun physical activities/games at home. Governments and public health authorities should pay particular attention to those households that are still food secure but on the brink of insecurity as a decrease of monthly household income and loss of jobs are the main drivers of the devastating effects of any pandemic. Physical activity and eating healthy, nutrient-adequate diets should be promoted to increase the overall resilience of the population. Of interest to note in this respect are the more general learnings from the SEANUTS countries, based on their experience, with respect to the COVID-19 pandemic: (1) investment in health facilities is key(17,Reference Shah, Safri and Thevadas25–Reference Wulandari, Hastuti and Setiawaty29) , (2) universal health coverage needs to be in place to guarantee that all COVID-19 patients will have access to essential treatment without financial barriers(17,Reference Shah, Safri and Thevadas25,26,Reference Rosyidah30) , (3) the contribution of health volunteers is of crucial importance to control the pandemic(17,Reference Shah, Safri and Thevadas25,26,Reference Bazan, Nowicki and Rzymski31) , (4) action needs to be taken early(17,Reference Shah, Safri and Thevadas25,26,Reference Wulandari, Hastuti and Setiawaty29,Reference Djalante, Lassa and Setiamarga32) and (5) nationwide public cooperation on effective social measures is required to effectively combat a pandemic(17,Reference Shah, Safri and Thevadas25,Reference Roziqin, Mas’udi and Sihidi33) . Especially, the affordability of healthy and nutrient-adequate diets remains an important focus area considering the ongoing rising food prices, inability to import foods and decreased production of fruits and vegetables due to farm closures and worker shortages(Reference Laborde, Herforth and Headey34–Reference Picchioni, Goulao and Roberfroid37).
Acknowledgements
The authors gratefully acknowledge the contributions of the research teams of each of the countries involved (SEANUTS II Study Group: Universitas Indonesia: Rini Sekartini, Dian Novita Chandra, Aria Kekalih, Listya Tresnanti, Dina Indah, Ari Prayogo, Saptawati Bardosono, Aryono Hendarto, Soedjatmiko; Universiti Kebangsaan Malaysia: Bee Koon Poh, Jyh Eiin Wong, Nik Shanita Safii, Nor Farah Mohamad Fauzi, Nor Aini Jamil, Razinah Sharif, Caryn Mei Hsien Chan, Swee Fong Tang, Lei Hum Wee, Siti Balkis Budin, Denise Koh, Abd Talib Ruzita, Nur Zakiah Mohd Saat, Sameeha Mohd Jamil, A. Karim Norimah, See Meng Lim, Shoo Thien Lee, Jasmine Siew Min Chia; Mahidol University, Thailand: Nipa Rojroongwasinkul, Tippawan Pongcharoen, Nawarat Vongvimetee, Pornpan Sukboon, Atitada Boonpraderm, Triwoot Phanyotha, Wiyada Thasanasuwan, Weerachat Srichan, Siriporn Tuntipopipat, Chawanphat Muangnoi, Kemika Praengam, Chayanist Wanijjakul, Thitisan Tepthong; National Institute of Nutrition, Vietnam: Tran Thuy Nga, Tran Khanh Van, Nguyen Song Tu, Nguyen Thi Lan Phuong, Nguyen Tran Ngoc Tu, Nguyen The Anh, Pham Vinh An, Nguyen Thi Van Anh, Nguyen Huu Bac, Le Van Thanh Tung, Pham Thi Ngan, Nguyen Dieu Thoan, Nguyen Thi Huyen Trang, Nguyen Duy Son, Nguyen Thu Ha, Tuan Thi Mai Phuong, Le Anh Hoa, Le Duc Trung; FrieslandCampina: Ilse Khouw, Swee Ai Ng, Ye Sun, Panam Parikh, Jan Geurts, Cécile Singh-Povel, Friska Navisa Ratri (FrieslandCampina Indonesia), Miah Chua (DLMI Malaysia), Chumapa Deesudchit (FrieslandCampina Thailand), Huong Bui Thi Thu (FrieslandCampina Vietnam)) and thank the parents/caregivers, infants and children for their willingness to participate in the study.
Financial support
FrieslandCampina provided funding for the SEANUTS II survey but had no role in recruitment of participants and data generation.
Conflict of interest
The authors declared that they have no competing interests. JG, CSP and IK are employees at FrieslandCampina.
Authorship
J.G. conceptualised the paper and drafted the manuscript, C.S.P. and S.T.L. were responsible for data analysis, R.S., B.K.P., N.R. and N.T.T. are principal investigators for Indonesia, Malaysia, Thailand and Vietnam resp. and designed the study for their respective countries, A.K., J.E.W., N.V. and V.K.T. reviewed and revised the manuscript, I.K. was involved in study design and critical review and revision of the manuscript. All authors gave final approval for publication of the article.
Ethics of human subject participation
This study was conducted according to the guidelines laid down in the Declaration of Helsinki and all procedures involving research study participants were approved by the Ethics Committee of the Faculty of Medicine, Universitas of Indonesia (No 19-01-0046), the Research Ethics Committee of Universiti Kebangsaan Malaysia (Ref. No. UKM PPI/111/8/JEP-2018-569), the Mahidol University Central Institutional Review Board (MU Central-IRB), Thailand (COA. No. MU-CIRB 2019/143.0209) and the Research Ethics Committee of the National Institute of Nutrition, Vietnam (No 1258 QD/VDD 2019). Written informed consent was obtained from all subjects.