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Caregiver perceptions of nutrition interventions in infants and children under 24 months of age: a systematic review

Published online by Cambridge University Press:  23 June 2023

Isabella Stelle Open the ORCID record for Isabella Stelle [Opens in a new window] ,
Mai-Lei Woo Kinshella Open the ORCID record for Mai-Lei Woo Kinshella [Opens in a new window]  and
Sophie E Moore
Isabella Stelle*
Affiliation:
Department of Women and Children’s Health, King’s College London, St Thomas’ Hospital, Westminster Bridge Rd, London SE1 7EH, UK
Mai-Lei Woo Kinshella
Affiliation:
Department of Obstetrics and Gynaecology and BC Children’s Hospital Research Institute, University of British Columbia, Vancouver BC, Canada
Sophie E Moore
Affiliation:
Department of Women and Children’s Health, King’s College London, St Thomas’ Hospital, Westminster Bridge Rd, London SE1 7EH, UK Medical Research Council Unit The Gambia at The London School of Hygiene and Tropical Medicine, Fajara, The Gambia
*
*Corresponding author: Email Isabella.stelle@kcl.ac.uk
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Abstract

Objective:

Efficacy studies show early nutrition interventions improving infant nutrition status, but understanding caregiver acceptability is required for implementation of such interventions. This systematic review examines caregivers’ perceptions of nutrition interventions in young children.

Design:

We searched the Cochrane Central Register of Controlled Trials, MEDLINE, Embase, CINAHL and PsychINFO from date of online journal inception through December 2020. Interventions included oral (powder/liquid/tablet) and/or intravenous supplementation, food fortification and nutrition counselling. Inclusion criteria included primary research, data presented on caregiver perception and studies published in English. Quality assessment was performed using the Critical Appraisal Skills Programme tool. Studies underwent narrative synthesis using inductive thematic analysis.

Setting:

No restriction.

Participants:

Caregivers of children under 24 months of age.

Results:

Of 11 798 records identified, thirty-seven publications were included. Interventions included oral supplementation, food fortification and nutrition counselling. Caregivers included mothers (83 %), fathers, grandparents and aunts. Perceptions were gathered through individual interviews, focus group discussions, questionnaires, surveys and ratings. Totally, 89 % of studies noted high acceptability (n 33 most notably increased appetite (n 17). In total, 57 % of studies (n 21) cited low acceptability, commonly from side effects (n 13) such as gastrointestinal issues, appetite loss and stained teeth.

Conclusions:

Positive perceptions and enthusiasm for interventions were frequently reported. Key to implementation was the increased appetite noted by caregivers. A substantial proportion of studies reported negative perceptions, mainly due to side effects. In future interventions, mitigation and education around common side effects are crucial for acceptability. Understanding both positive and negative caregiver perceptions is important for informing future nutrition interventions and strengthening sustainability and implementation.

Keywords

Nutrition interventionsInfantsCaregiversAcceptabilityQualitative
Type
Systematic Review
Information
Public Health Nutrition , Volume 26 , Issue 9 , September 2023 , pp. 1907 - 1916
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

In 2019, an estimated 5·2 million children under 5 years of age died mostly from preventable and treatable causes(1). Nutrition-related factors contributed to approximately 45 % of these deaths(1). Further, undernutrition during the first 1000 d of life (from conception until 2 years of age) can have lifelong consequences for growth and cognitive development(Reference Martorell2).

The first 1000 d of life are an especially sensitive period due to rapid growth and development, increased nutritional needs, greater vulnerability to infection and full dependency for care(Reference Martorell2). Evidence has shown that early years are critical for cognitive, language and social-emotional development with risks for poor development being linked to inadequate quality of caregiver to child interaction(Reference Alderman, Behrman, Glewwe, ND, S, DT and GC3). Caregiver dependency at this young age is therefore vital in determining nutritional adequacy. For example, between the age of 6–23 months, in areas with an Fe deficiency anaemia prevalence greater than 40 %, the WHO recommends daily Fe supplementation (10–12·5 mg elemental Fe) for three consecutive months per year(4). However, Fe supplementation is commonly noted to cause adverse gastrointestinal side effects in children such as diarrhoea, nausea, constipation and vomiting, therefore limiting adherence in supplementation trials (170). More recent studies have shown Fe-containing micronutrient powders to cause increased risk of diarrhoea in young children (162, 167, 172, 173). Therefore, a proposed intervention must be perceived as acceptable through the caregiver’s perspective for effective implementation, given care providers are the ones administering interventions to their infants and young children. Efficacy studies in infants have shown that early nutrition interventions improve infant nutrition status, but a better understanding of caregiver acceptability is required to examine whether such interventions can be effectively taken to scale(Reference Bhutta, Ahmed and Black5Reference Goudet, Bogin and Madise7).

This review explores caregivers’ perceptions of various nutrition interventions within a global context for infants and young children under 24 months of age as well as reported side effects and impacts on infant feeding practices.

Methods

The primary objective of this review is to examine caregiver perception of nutrition interventions (i.e. oral (powder, liquid, tablet) and/or intravenous supplementation, food fortification and nutrition counseling) in their infants under 24 months of age. Further, secondary objectives include a consideration of the effects of nutrition interventions in early infancy (the first 24 months of life) on choices of infant feeding practices and any adverse effects of nutrition interventions in early infancy (the first 24 months of life).

We searched the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE (Ovid), Embase (Ovid), CINAHL and PsychINFO from date of online journal inception through December 2020. Searches were supplemented by scanning reference lists of papers included for review. Based on the PICOS research framework (Table 1), search terms were developed (Table 2). A review protocol detailing the research question, search strategy, inclusion and exclusion criteria, quality assessment and strategy for data synthesis was developed to refine the scope of the review. The protocol was registered to Prospero (CRD42021238050). Study selection was managed using Covidence(8). Titles and abstracts were manually screened according to the eligibility criteria (Table 3) by two independent reviewers (IS and MWK). Discrepancies were resolved by discussion and a third reviewer (sem) adjudicated in the absence of consensus. Full texts were then reviewed by the two independent reviewers (IS, MWK). The third reviewer (sem) provided an independent assessment in any disputes regarding eligibility.

Table 1 PICOS research framework

Table 2 Search terms

Table 3 Eligibility criteria

Inclusion and exclusion criteria can be found in Table 3. The primary outcome was the caregivers’ perceptions of the intervention, and secondary outcomes included the impact on exclusive breast feeding, feeding practices and/or adverse events. All caregiver perceptions were considered and considered of equal importance. Secondary outcomes were summarised in the narrative synthesis.

Quality assessment was performed for all included studies using the Critical Appraisal Skills Programme tool(9). Critical Appraisal Skills Programme is the most used tool for quality appraisal in health-related qualitative evidence syntheses, with endorsement from the Cochrane Qualitative and Implementation Methods Group(Reference Long, French and Brooks10,Reference Noyes, Booth and Cargo11) . Quality assessment was reported for all identified studies to inform interpretation. Due to the exploratory nature of qualitative studies, no studies were excluded based on the quality assessment.

A data extraction sheet was developed and piloted by the research team. Details about the nutrition intervention, study methodology, sample size, study design and outcomes (perceptions) were extracted into Excel(12). Two reviewers (IS, MWK) independently extracted data and conducted the quality assessment from a sample of eligible studies (10 %) until agreement was achieved, with the remainder extracted by one reviewer (IS). The data extraction sheet was imported into NVivo where inductive thematic analysis of caregiver perception was conducted(13,Reference Braun and Clarke14) . Excerpts from included studies were extracted to generate key themes(Reference Braun and Clarke14). Themes are repeated patterned responses within data sets that are then separated into sub-themes(Reference Braun and Clarke14). An inductive approach was used in which the data analysis is data driven so that the participant’s views take precedence(Reference Braun and Clarke14).

The Preferred Reporting Items for Systematic Review and Meta-analysis (PRISMA) guidelines are used(Reference Moher, Liberati and Tetzlaff15). The PRISMA Checklist is presented in online supplementary material, Supplemental Extended Datafile 1.

Results

Characteristics of included studies

Of 11 798 records identified, thirty-seven publications were included (Fig. 1). One hundred and five full-text articles were reviewed for eligibility. Of these, thirty-one were excluded because they used no nutrition intervention, twenty-two were not full texts (i.e. conference proceeding, abstract, etc.), nine had no caregiver perceptions reported, three were in the wrong age group, two were the wrong study design (i.e. unapplicable intervention) and one was a duplicate (see online supplementary material, Supplemental Extended Datafile 2).

Fig. 1 PRISMA flowchart

Despite no restriction on publication start date, all thirty-seven studies were published between 2009 and 2020 (see online supplementary material, Supplemental Extended Datafile 3a for characteristics of included studies). Sample sizes varied widely from eleven up to 1916 caregivers with data from 13 765 caregivers in total across the included studies. The data collection methodology gathered perceptions through interviews, focus group discussions, questionnaires, surveys and ratings. The scope of caregivers included mothers (n 11 466), fathers (n 370), maternal and paternal grandparents (n 20), aunts (n 4) and unspecified (n 1905). The nutrition interventions included small quantity lipid-based nutrient supplements, ready to use supplementary foods, micronutrient interventions in different formulations (Fe folic acid syrup, multiple micronutrient powders and micronutrient powders), lipid-based nutrient supplements, ready to use therapeutic foods, oral rehydration solutions, infant and young child feeding practices, social and behavioural change communications, nutrition counselling, complementary foods, fortified porridges and crops and food grinders. Of the geographical regions represented, twenty-four of the studies were in sub-Saharan Africa (one was a dual country study, both in sub-Saharan Africa), nine in South-Asia, four in South America and one in the Caribbean (Fig. 2). Despite no limitations on setting, all studies took place in low-resource settings.

Fig. 2 Spread of countries included in this review

Quality assessment

For quality appraisal, of the thirty-seven publications, two-four ranked ‘good’, twelve ranked ‘fair’ and one ranked ‘poor’. The one study that ranked as ‘poor’ did not specify its recruitment strategy, the relationships between the researcher and the participants or how the data was analysed(Reference Ahmed, Choudhury and Hossain16). The full results from the Critical Appraisal Skills Programme tool can be found in online supplementary material, Supplemental Extended Datafile 4.

Themes and sub-themes

From the inductive thematic analysis of caregiver perception, two main themes emerged: high and low acceptability (Fig. 3). For high acceptability the following sub-themes emerged: reasons for use (n 29) and enthusiasm for continuation of the intervention (n 6). ‘Reasons for use’ of the intervention was further broken down, specifically into sub-themes around its use for ‘perceived benefits’ to the infant. For low acceptability, seven sub-themes of reasons for low acceptability emerged. These sub-themes included side effects (n 13), poor communication/ understanding (n 11), infant refusal (n 10), lack of caregiver self-efficacy/forgetting (n 8), limited social support (n 7), availability/accessibility (n 6) and other (n 3). Nineteen of the studies cited both low and high acceptability.

Fig. 3 Acceptability of interventions

High acceptability

Eighty nine percent of studies noted high acceptability (n 33; detailed in online supplementary material, Supplemental Extended Datafile 3b), with six mentioning enthusiasm for continuation of the intervention.

Perceived benefits

The most noted perceived infant benefits (n 25) were increased appetite (n 17), improved overall health and diet (n 16) and prevention of disease, illness or malnutrition (n 11). When noting improved overall diet and health, specifics of perceived increased blood health and digestion were highlighted(Reference Adams, Okronipa and Adu-Afarwuah17Reference Creed-Kanashiro, Bartolini and Abad21). In the context of prevention of disease, illness or malnutrition, the interventions were compared with a medicine in a beneficial sense(Reference Cohuet, Marquer and Shepherd22Reference Samuel, Brouwer and Pamungkas25). Additionally, caregivers noted perceptions of improved growth (height and weight) and improved strength (n 10), as well as improved energy (n 10) and neurodevelopmental improvements (n 7)(Reference Adams, Okronipa and Adu-Afarwuah17Reference Creed-Kanashiro, Bartolini and Abad21,Reference Phuka, Ashorn and Ashorn24Reference Young, Girard and Mehta32) .

Other facilitators of high acceptability

Other facilitators associated with high acceptability: family and community support, ease of use, following nutrition guidance, palatability and others. A significant and important facilitator for high acceptability was family and community support (n 10)(Reference Kwon, Ramasamy and Morgan18,Reference Creed-Kanashiro, Bartolini and Abad21,Reference Samuel, Brouwer and Pamungkas25,Reference Roschnik, Diarra and Dicko29,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Athavale, Hoeft and Dalal33Reference Pelto, Tumilowicz and Schnefke37) . Within the context of patriarchal households, when mothers felt supported by their husbands, they were more inclined to adhere to an intervention(Reference Creed-Kanashiro, Bartolini and Abad21,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Athavale, Hoeft and Dalal33,Reference Jefferds, Ogange and Owuor35Reference Pelto, Tumilowicz and Schnefke37) . Ease in packing and storage, accessibility and affordability were keys factors in caregiver use of intervention (n 10)(Reference Angdembe, Choudhury and Haque20,Reference Phuka, Ashorn and Ashorn24Reference Ashorn, Alho and Arimond26,Reference Roschnik, Diarra and Dicko29,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Jefferds, Ogange and Owuor35,Reference Rothman, Berti and Smuts38Reference Yeji, Shibanuma and Oduro40) . Education around purpose and administration of the intervention were key to ensuring acceptability and continuation of use as caregivers wanted to follow nutrition guidance when it was given (n 7)(Reference Kwon, Ramasamy and Morgan18,Reference Loechl, Menon and Arimond19,Reference Cohuet, Marquer and Shepherd22,Reference Samuel, Brouwer and Pamungkas25,Reference Kajjura, Veldman and Kassier28,Reference Athavale, Hoeft and Dalal33,Reference Kung’u, Owolabi and Essien41) . It was noted that giving the intervention to their infant gave caregivers a feeling of empowerment(Reference Athavale, Hoeft and Dalal33). Having an infant like the taste also increased the chances a caregiver continued the interventions use (n 4)(Reference Phuka, Ashorn and Ashorn24,Reference Ashorn, Alho and Arimond26,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Gunaratna, Bosha and Belayneh42) .

One study found that mothers preferred clinic administration of the supplements as it was perceived as ‘more hygienic’ and ‘involving professional health workers’(Reference Horton, Blum and Diouf43). However, other mothers, especially those living further from the clinics, preferred house-to-house delivery of the supplements, which is the traditional method for a nutrition campaign in their region(Reference Horton, Blum and Diouf43).

Side effects

Side effects that were noted, but not in the context of low acceptability were diarrhoea, vomiting, and constipation, nausea, lack of appetite and abdominal discomfort, respectively, from most to least cited(Reference Creed-Kanashiro, Bartolini and Abad21,Reference Hess, Bado and Aaron23,Reference Goyena, Barba and Talavera27,Reference Young, Girard and Mehta32,Reference McLean, Northrup-Lyons and Reid36,Reference Pelto, Tumilowicz and Schnefke37,Reference Bashir and Zaman44) .

Low acceptability

Just over half of the studies (n 21) cited low acceptability (detailed in online supplementary material, Supplemental Extended Datafile 3b). This was most commonly due to side effects (n 13), poor communication and/or understanding (n 11) and infant refusal (n 10).

Side effects

Side effects were noted in thirteen studies(Reference Adams, Okronipa and Adu-Afarwuah17,Reference Kwon, Ramasamy and Morgan18,Reference Angdembe, Choudhury and Haque20,Reference Creed-Kanashiro, Bartolini and Abad21,Reference Hess, Bado and Aaron23,Reference Samuel, Brouwer and Pamungkas25,Reference Goyena, Barba and Talavera27,Reference Roschnik, Diarra and Dicko29,Reference Brewer, Shinnick and Román34,Reference Pelto, Tumilowicz and Schnefke37,Reference Bashir and Zaman44Reference Tumilowicz, Habicht and Mbuya46) . All thirteen studies had caregivers reporting these side effects as negative; however, they were also noted as, when mild, a sign of the intervention being effective. For example, one mother noted her infants’ change in stools as an indication that the intervention was working(Reference Brewer, Shinnick and Román34). Side effects that led to low acceptance were noted as the infant being hyperactive, diarrhoea, vomiting, constipation, abdominal discomfort, loose or black stools, infant rejection, appetite loss, stained teeth, the infant getting sick, a decrease in overall health, general negative effect and in one Peruvian peri-urban community, a mother citied impaired mental development as a concern(Reference Creed-Kanashiro, Bartolini and Abad21).

Other barriers to intervention acceptability

When there was lack of caregiver self-efficacy and forgetfulness (n 8), limited social support (n 7) and/or availability/accessibility to the interventions (n 6), these were significant barriers to caregiver lack of use. Other reasons for non-use (n 3) were simply that caregivers had no reason as to why they did not want to use it and because they were using another medication at the time instead so stopped the intervention(Reference Adams, Okronipa and Adu-Afarwuah17,Reference Ashorn, Alho and Arimond26) . One study noted a high prevalence of no impact from the intervention (20 %)(Reference Angdembe, Choudhury and Haque20).

Nutritional Intervention preferences

Among studies that compared acceptability of various supplements, the following preferences were found. Mothers noted that micronutrient powders v Fe syrups were better suited for older children who had ‘become smart’ and were able to eat on their own(Reference Young, Girard and Mehta32). However, they felt that the syrups were better in ensuring the infant received the full dose of the supplement because with powders the infant did not always finish their food(Reference Young, Girard and Mehta32). Overall, the enthusiasm for continued use of syrups v. powder was equal (38 % each) and 24 % of mothers said they would like to use both(Reference Young, Girard and Mehta32). Additionally, caregivers found it easier to give micronutrient powders in semi-solid foods such as purees and porridges rather than liquid preparations such as soups(Reference Creed-Kanashiro, Bartolini and Abad21). When looking at complementary foods fortified with or without Zn, those without Zn scored higher on a degree of liking scale(Reference Aaron, Lo and Hess47). Novel rice-lentil- and chickpea-based ready-to-use supplementary foods rating significantly better for ‘overall liking’ when compared with traditional Puschti packet(Reference Ahmed, Choudhury and Hossain16). In terms of frequency of supplementation, different studies found varying preferences for flexible verses daily verses every other day administration. For mothers giving flexible or daily administration, almost all mothers preferred flexible due to perceived benefits such as more time to give the Sprinkles, more autonomy and less anxiety around missing a dose(Reference Ip, Hyder and Haseen48). Alternatively, two studies found that caregivers preferred daily administration of micronutrient powders verses alternate days, so they were less likely to forget(Reference Angdembe, Choudhury and Haque20,Reference Roschnik, Diarra and Dicko29) . While not in a negative context, mothers also reported, organoleptic changes in food, such as colour, taste, smell and texture, when certain interventions, such as powders, were added to home foods(Reference Roschnik, Diarra and Dicko29,Reference Pelto, Tumilowicz and Schnefke37) .

Misuse of supplements

Misuse of supplements was seen in seven studies through sharing with other infants or giving more to the infant when it was demanded(Reference Kwon, Ramasamy and Morgan18,Reference Hess, Bado and Aaron23,Reference Phuka, Ashorn and Ashorn24,Reference Ashorn, Alho and Arimond26,Reference Roschnik, Diarra and Dicko29,Reference Ruel-Bergeron, Hurley and Kapadia-Kundu30,Reference Kodish, Aburto and Nseluke Hambayi49) . Likewise, jealousy among other households or household members, as well as theft of supplements, posed an issue(Reference Cohuet, Marquer and Shepherd22,Reference Hess, Bado and Aaron23,Reference Kodish, Aburto and Nseluke Hambayi49) .

Impact on feeding practices

Secondary objectives included a consideration of the effects of nutrition interventions in early childhood (the first 24 months of life) on choices of infant feeding practices; however, this theme was not seen in any of the included studies.

Discussion

The purpose of this review was to understand caregiver perceptions around nutrition interventions for use in infants and young children. This is especially relevant in low-resource settings where caregiver acceptability of nutrition interventions, alongside appropriate infant feeding practices, may be critical for both short- and long-term health.

Interestingly, all the studies identified took place in low-resource settings with the majority being in sub-Saharan Africa. Previous literature has found that low- and middle-income countries are unrepresented in clinical research(Reference Lang and Siribaddana50), specifically with the number of clinical trials in sub-Saharan Africa being significantly less in proportion to the disability adjusted life years present(Reference Isaakidis, Swingler and Pienaar51). Understanding caregiver perceptions of nutrition interventions is of global relevance, especially in low-resource settings.

A significant emergent theme was the importance of family and community support(Reference Kwon, Ramasamy and Morgan18,Reference Creed-Kanashiro, Bartolini and Abad21,Reference Samuel, Brouwer and Pamungkas25,Reference Roschnik, Diarra and Dicko29,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Athavale, Hoeft and Dalal33Reference Pelto, Tumilowicz and Schnefke37) . Concurrent with the literature, mothers were by far the most cited caregiver(Reference Sear and Mace52), so in the context of patriarchal households, when the mothers felt supported by their husbands, they were more inclined to adhere to an intervention(Reference Creed-Kanashiro, Bartolini and Abad21,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Athavale, Hoeft and Dalal33,Reference Jefferds, Ogange and Owuor35Reference Pelto, Tumilowicz and Schnefke37) . It has been previously found that to ensure acceptance, education played a significant role in caregivers’ continuation of use(Reference Hendricks, Roux and Fernandes53,Reference Walsh, Dannhauser and Joubert54) . Caregivers wanted to follow nutrition guidance when it was given but understanding of why the intervention was needed was pertinent. It was noted that giving the intervention to their infant gave caregivers a feeling of empowerment as they knew they were doing something good for their infants(Reference Athavale, Hoeft and Dalal33). One of the most noted reasons for low acceptability was poor communication and/or understanding such as lack of caregiver self-efficacy and forgetfulness, limited social support and/or availability/accessibility to the intervention. Appropriate training of intervention use is essential; in one study, a participant reported stopping the intervention when the infant needed medication, counter to the intention of the study(Reference Goyena, Barba and Talavera27). One caregiver simply gave no reason, they just did not want to use the intervention, and another cited seeing no impact from the intervention(Reference Adams, Okronipa and Adu-Afarwuah17,Reference Angdembe, Choudhury and Haque20,Reference Ashorn, Alho and Arimond26) . Education around interventions not always having an immediate impact, but rather long-term benefits may have solved this issue. Lastly, ease of use of packaging and storing, as well accessibility and affordability, was indicated as crucial(Reference Angdembe, Choudhury and Haque20,Reference Phuka, Ashorn and Ashorn24Reference Ashorn, Alho and Arimond26,Reference Roschnik, Diarra and Dicko29,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Jefferds, Ogange and Owuor35,Reference Rothman, Berti and Smuts38Reference Yeji, Shibanuma and Oduro40) .

Almost all the studies noted high acceptability. Instances of misuse were common due to the infants demanding more of the supplement(Reference Kwon, Ramasamy and Morgan18,Reference Hess, Bado and Aaron23,Reference Phuka, Ashorn and Ashorn24,Reference Ashorn, Alho and Arimond26,Reference Roschnik, Diarra and Dicko29,Reference Ruel-Bergeron, Hurley and Kapadia-Kundu30,Reference Kodish, Aburto and Nseluke Hambayi49) or jealously from other family or community members which lead to sharing(Reference Cohuet, Marquer and Shepherd22,Reference Hess, Bado and Aaron23,Reference Kodish, Aburto and Nseluke Hambayi49) . In these communities, feeding is often done communally so sharing can be difficult to avoid, as has been seen in previous studies(Reference Flax, Phuka and Cheung55,Reference Sadler, Myatt and Feleke56) . The most frequently cited reason for this high acceptability was an increase in the infant’s appetite. While improved overall diet and health were almost equally as noted, interestingly a few caregivers specifically noted an increase in the infant’s ‘blood health’. Also highly cited was the interventions’ ability to prevent disease, illness and malnutrition, with the intervention even being compared with medication(Reference Cohuet, Marquer and Shepherd22Reference Samuel, Brouwer and Pamungkas25), as similarly reported in previous studies(Reference Flax, Phuka and Cheung55,Reference Galpin, Thakwalakwa and Phuka57) . Interestingly, when noting improved growth, such as weight, height and strength, some caregivers also noted neurodevelopmental improvements(Reference Adams, Okronipa and Adu-Afarwuah17Reference Creed-Kanashiro, Bartolini and Abad21,Reference Phuka, Ashorn and Ashorn24Reference Young, Girard and Mehta32) . Caregivers did report organoleptic changes in food (colour, taste, smell and texture) when micronutrient powders were added(Reference Roschnik, Diarra and Dicko29,Reference Pelto, Tumilowicz and Schnefke37) . Having the infant like the taste was important in continuation of the intervention(Reference Phuka, Ashorn and Ashorn24,Reference Ashorn, Alho and Arimond26,Reference Creed-Kanashiro, Wasser and Bartolini31,Reference Gunaratna, Bosha and Belayneh42) . One of the most common reasons for low acceptability was when the infant refused the intervention.

Low acceptability was most commonly due to side effects, such as such as reports of infants’ morbidity, including diarrhoea. However, side effects were not always noted in the context of low acceptability, but rather a result of the intervention and even sometimes as a sign that the intervention was working, in the case of darkening of stool(Reference Brewer, Shinnick and Román34). As previously noted in the literature, side effects are common with nutrition interventions at this young age, especially in those containing Fe(Reference Stelle, Venkatesan and Edmond58). This difference in reporting side effects highlights the issue of heterogeneity in studies such as these. Given caregivers perceptions are being collated, this could simply reflect a difference in caregiver attention and sensitivity to their child’s reaction.

It was evident that personal preferences varied, with nineteen of the studies citing both low and high acceptability. This is important to take into consideration with interventions, but heterogeneity in the studies makes it difficult to form conclusions for general recommendations. For example, some mothers preferred clinic administration because it was seen as more hygienic, whereas some mothers preferred home administration because it was more convenient(Reference Horton, Blum and Diouf43). Additionally, age may impact what type of intervention should be given to children, with caregivers noting that syrups were better for infants to ensure the whole dose was received but that powders were better for older children who were able to eat on their own(Reference Young, Girard and Mehta32). Additionally, it was found that micronutrient powders were better suited for semi-solid foods such as purees and porridges(Reference Creed-Kanashiro, Bartolini and Abad21). Likewise, and as debated in previous literature, when it comes to frequency of the interventions, preferences were divided across daily or flexible administration(Reference De-Regil, Jefferds and Sylvetsky59). Some caregivers preferred daily as it became a routine and they were less likely to forget(Reference Angdembe, Choudhury and Haque20,Reference Roschnik, Diarra and Dicko29) , whereas other caregivers preferred flexible administration thanks to more autonomy and less worry about missing a dose(Reference Ip, Hyder and Haseen48). Additionally, misuse of supplements, such as using supplements for other family members, could be associated with variations in positive verses negatives responses, which highlights the importance of appropriate counselling of family members around supplements and their use.

While negative perceptions were reported, overall positive perceptions and enthusiasm for continuation of the interventions were more frequent. Finally, though there were preferences expressed for type of supplementation, route, dosing, administration and packaging, these preferences were not frequent enough to draw conclusions. Caregiver perception is crucial for future acceptability, adherence to and effectiveness of interventions. As evident from the results, future interventions can best support this through education as well as family and caregiver support.

The main strength of this systematic review is that is it the first comprehensive review of caregiver perception of nutrition interventions in infants and young children. In addition, trials were not excluded based on supplementation regimen allowing the authors to understand a wide scope of the literature in the field. All studies, but one, were assessed to be good or fair quality, which supports the credibility of review findings.

We also acknowledge several limitations. While heterogeneity in the data was a strength in terms of assessing the full scope of the literature, it makes comparison of trials via a quantitative meta-analysis difficult. Most studies also cited both high and low acceptability, so it was difficult to categorise an intervention as acceptable or not. Likewise, conclusions for specific interventions were hard to draw due to the limited number of studies. While there was no start date limitation (journal induction), the first study included in this review was from 2009. Due to implementation research being a newer science, the research in this field is still limited. Some of the studies used focus group discussions and interviews, which gave useful insights into caregiver perceptions, but many studies simply using ratings, surveys and questionnaires. While still useful, these studies lacked as much depth as those using more personal research practices. Additionally, some studies did not specify who the caregivers were.

Conclusion

Positive perceptions and enthusiasm for continuation of interventions were frequently reported by caregivers. Key facilitators to implementation were increased appetite and overall general health of infants and children as noted by caregivers. A substantial proportion of studies reported negative perceptions, mainly due to side effects. In future interventions, mitigation and education around common side effects are crucial for acceptability. Caregivers wanted to follow nutrition guidance when it was given, but understanding of why the intervention was needed was pertinent as one of the most noted reasons for low acceptability was poor communication and/or understanding around the intervention. Likewise, cultural circumstances must be taken into consideration, for example, feeding is often done communally in low-resource communities so sharing can be difficult to avoid. Additionally, having the supplement be palatable is important as one of the most common reasons for low acceptability was when the infant refused the intervention. Continued research is needed in this area, especially in low-resource settings where nutrition deficiencies are common in infants and can have lifelong impacts. An understanding of the barriers and facilitators to implementing such interventions, especially through the perception of caregivers, is crucial for the success of future interventions.

Acknowledgements

Acknowledgements: NA. Authorship: The study was conceptualised by S.E.M. and I.S. I.S. formulated the search strategy and wrote the protocol. I.S. and M.W.K. carried out the study selection and data extraction. Any disputes were mediated by sem. Quality and data synthesis were carried out by I.S. I.S. wrote the first draft of this manuscript. Final drafts were edited and approved by M.W.K. and sem. Ethics of human subject participation: Ethical Standards Disclosure: NA.

Financial support:

S.E.M. is supported by a Wellcome Trust Senior Research Fellowship (220225/Z/20/Z). M.W.K. is supported by the Vanier Canada Graduate Scholarship funded by the Government of Canada through the Canadian Institutes of Health Research (CIHR).

Conflict of interest:

The authors have no conflicts to disclose.

Supplementary material

For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980023001246

References

World Health Organization (2020) Children: Improving Survival and Well-Being. https://www.who.int/news-room/fact-sheets/detail/children-reducing-mortality (accessed January 2021).Google Scholar
Martorell, R (2017) Improved nutrition in the first 1000 days and adult human capital and health. Am J Hum Biol 29, e22952.CrossRefGoogle ScholarPubMed
Alderman, H, Behrman, JR, Glewwe, P et al. (2017) Evidence of impact of interventions on growth and development during early and middle childhood. In Child and Adolescent Health and Development, Chapter 7 [ND, Silva, S, Horton, DT, Jamison & GC, Patton, editors]. Washington, DC: The International Bank for Reconstruction and Development/The World Bank.Google Scholar
WHO (2016) Guideline: Daily Iron Supplementation in Infants and Children. Geneva, Switzerland: World Health Organization.Google Scholar
Bhutta, ZA, Ahmed, T, Black, RE et al. (2008) What works? Interventions for maternal and child undernutrition and survival. Lancet 371, 417440.CrossRefGoogle ScholarPubMed
Christian, P, Mullany, LC, Hurley, KM et al. (2015) Nutrition and maternal, neonatal, and child health. Semin Perinatol 39, 361372.CrossRefGoogle ScholarPubMed
Goudet, SM, Bogin, BA, Madise, NJ et al. (2019) Nutritional interventions for preventing stunting in children (birth to 59 months) living in urban slums in low- and middle-income countries (LMIC). Cochrane Database Syst Rev issue 6, CD011695.CrossRefGoogle Scholar
Veritas Health Innovation (2014) Covidence Systematic Review Software (Internet). www.covidence.org (accessed December 2020).Google Scholar
Programme CAS (2018) CASP Qualitative Checklist (online). https://casp-uk.net/wp-content/uploads/2018/01/CASP-Qualitative-Checklist-2018.pdf (accessed December 2020).Google Scholar
Long, HA, French, DP & Brooks, JM (2020) Optimising the value of the critical appraisal skills programme (CASP) tool for quality appraisal in qualitative evidence synthesis. Res Meth Med Health Sci 1, 3142.Google Scholar
Noyes, J, Booth, A, Cargo, M et al. (2018) Cochrane qualitative and implementation methods group guidance series-paper 1: introduction. J Clin Epidemiol 97, 3538.CrossRefGoogle ScholarPubMed
Corporation M (2018) Microsoft Excel. https://www.microsoft.com/en/microsoft-365/excel (accessed December 2020).Google Scholar
QSR International (1999) NVivo Qualitative Data Analysis Software (Software). https://lumivero.com/products/nvivo/ (accessed December 2020).Google Scholar
Braun, V & Clarke, V (2006) Using thematic analysis in psychology. Qual Res Psycol 3, 77101.CrossRefGoogle Scholar
Moher, D, Liberati, A, Tetzlaff, J et al. (2009) Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med 151, 264269, w64.CrossRefGoogle ScholarPubMed
Ahmed, T, Choudhury, N, Hossain, MI et al. (2014) Development and acceptability testing of ready-to-use supplementary food made from locally available food ingredients in Bangladesh. BMC Pediatr 14, 164.CrossRefGoogle ScholarPubMed
Adams, KP, Okronipa, H, Adu-Afarwuah, S et al. (2018) Ghanaian parents’ perceptions of pre and postnatal nutrient supplements and their effects. Matern Child Nutr 14, e12608.CrossRefGoogle ScholarPubMed
Kwon, HJ, Ramasamy, R & Morgan, A (2013) ‘How often? How much? Where from?’ Knowledge, attitudes, and practices of mothers and health workers to iron supplementation program for children under five in rural Tamil Nadu, South India. Asia Pac J Public Health 26, 378389.CrossRefGoogle ScholarPubMed
Loechl, CU, Menon, P, Arimond, M et al. (2009) Using programme theory to assess the feasibility of delivering micronutrient Sprinkles through a food-assisted maternal and child health and nutrition programme in rural Haiti. Matern Child Nutr 5, 3348.CrossRefGoogle ScholarPubMed
Angdembe, MR, Choudhury, N, Haque, MR et al. (2015) Adherence to multiple micronutrient powder among young children in rural Bangladesh: a cross-sectional study. BMC Public Health 15, 440.CrossRefGoogle ScholarPubMed
Creed-Kanashiro, H, Bartolini, R, Abad, M et al. (2016) Promoting multi-micronutrient powders (MNP) in Peru: acceptance by caregivers and role of health personnel. Matern Child Nutr 12, 152163.CrossRefGoogle ScholarPubMed
Cohuet, S, Marquer, C, Shepherd, S et al. (2012) Intra-household use and acceptability of Ready-to-Use-Supplementary-Foods distributed in Niger between July and December 2010. Appetite 59, 698705.CrossRefGoogle ScholarPubMed
Hess, SY, Bado, L, Aaron, GJ et al. (2011) Acceptability of zinc-fortified, lipid-based nutrient supplements (LNS) prepared for young children in Burkina Faso. Matern Child Nutr 7, 357367.CrossRefGoogle ScholarPubMed
Phuka, J, Ashorn, U, Ashorn, P et al. (2011) Acceptability of three novel lipid-based nutrient supplements among Malawian infants and their caregivers. Matern Child Nutr 7, 368377.CrossRefGoogle ScholarPubMed
Samuel, A, Brouwer, ID, Pamungkas, NP et al. (2021) Determinants of adherence to micronutrient powder use among young children in Ethiopia. Matern Child Nutr 17, e13111.CrossRefGoogle ScholarPubMed
Ashorn, U, Alho, L, Arimond, M et al. (2015) Malawian mothers consider lipid-based nutrient supplements acceptable for children throughout a 1-year intervention, but deviation from user recommendations is common. J Nutr 145, 15881595.CrossRefGoogle ScholarPubMed
Goyena, EA, Barba, CVC, Talavera, MTM et al. (2019) Acceptance and compliance with micronutrient powder and complementary food blend use by Filipino mothers and their promotion by community workers. Food Nutr Bull 40, 202220.CrossRefGoogle ScholarPubMed
Kajjura, RB, Veldman, FJ & Kassier, SM (2020) Maternal perceptions and barriers experienced during the management of moderately malnourished children in northern Uganda. Matern Child Nutr 16, e13022.CrossRefGoogle Scholar
Roschnik, N, Diarra, H, Dicko, Y et al. (2019) Adherence and acceptability of community-based distribution of micronutrient powders in Southern Mali. Matern Child Nutr 15, e12831.CrossRefGoogle ScholarPubMed
Ruel-Bergeron, J, Hurley, K, Kapadia-Kundu, N et al. (2018) Physical and sociocultural facilitators and barriers to access and utilization of a nutrition program in rural Malawi: a qualitative study. Ecol Food Nutr 57, 405424.CrossRefGoogle ScholarPubMed
Creed-Kanashiro, H, Wasser, HM, Bartolini, R et al. (2018) Formative research to explore the acceptability and use of infant food grinders for the promotion of animal source foods and micronutrient powders in rural Peru. Matern Child Nutr 14, e12600.CrossRefGoogle ScholarPubMed
Young, MF, Girard, AW, Mehta, R et al. (2018) Acceptability of multiple micronutrient powders and iron syrup in Bihar, India. Matern Child Nutr 14, e12572.CrossRefGoogle ScholarPubMed
Athavale, PH, Hoeft, K, Dalal, RM et al. (2020) Qualitative assessment of barriers and facilitators to implementing recommended infant nutrition practices in Mumbai, India. J Health Popul Nutr 39, 112.CrossRefGoogle ScholarPubMed
Brewer, JD, Shinnick, J, Román, K et al. (2020) Behavioral insights into micronutrient powder use for childhood anemia in Arequipa, Peru. Global Health: Sci Pract 8, 721.Google ScholarPubMed
Jefferds, MED, Ogange, L, Owuor, M et al. (2010) Formative research exploring acceptability, utilization, and promotion in order to develop a micronutrient powder (sprinkles) intervention among Luo families in Western Kenya. Food Nutr Bull 31, S179S185.CrossRefGoogle ScholarPubMed
McLean, J, Northrup-Lyons, M, Reid, RJ et al. (2019) From evidence to national scale: an implementation framework for micronutrient powders in Rwanda. Matern Child Nutr 15, e12752.CrossRefGoogle ScholarPubMed
Pelto, GH, Tumilowicz, A, Schnefke, CH et al. (2019) Ethiopian mothers’ experiences with micronutrient powders: perspectives from continuing and noncontinuing users. Matern Child Nutr 15, e12708.CrossRefGoogle ScholarPubMed
Rothman, M, Berti, C, Smuts, CM et al. (2015) Acceptability of novel small-quantity lipid-based nutrient supplements for complementary feeding in a Peri-Urban South African community. Food Nutr Bull 36, 455466.CrossRefGoogle Scholar
Shaari, N, Mohd Shariff, Z, Gan, WY et al. (2019) A feasibility study of multiple micronutrient supplement for home fortification of foods among Orang Asli children in Negeri Sembilan, Malaysia. Malays J Nutr 25, 6977.CrossRefGoogle Scholar
Yeji, F, Shibanuma, A, Oduro, A et al. (2015) Continuum of care in a maternal, newborn and child health program in Ghana: low completion rate and multiple obstacle factors. PLoS One 10, e0142849.CrossRefGoogle Scholar
Kung’u, JK, Owolabi, O, Essien, G et al. (2015) Promotion of zinc tablets with ORS through child health weeks improves caregiver knowledge, attitudes, and practice on treatment of diarrhoea in Nigeria. J Health Popul Nutr 33, 919.Google ScholarPubMed
Gunaratna, NS, Bosha, T, Belayneh, D et al. (2016) Women’s and children’s acceptance of biofortified quality protein maize for complementary feeding in rural Ethiopia. J Sci Food Agric 96, 34393445.CrossRefGoogle ScholarPubMed
Horton, S, Blum, LS, Diouf, M et al. (2018) Delivering vitamin A supplements to children aged 6–59 months: comparing delivery through campaigns and through routine health services in Senegal. Curr Dev Nutr 2, nzy006.CrossRefGoogle ScholarPubMed
Bashir, A & Zaman, S (2016) Effectiveness and acceptability of ready-to-use therapuetic foods among malnourished children in a tertiary care hospital. J Ayub Med Coll Abbottabad 28, 501505.Google ScholarPubMed
Korenromp, EL, Adeosun, O, Adegoke, F et al. (2016) Micronutrient powder distribution through maternal, neonatal and child health weeks in Nigeria: process evaluation of feasibility and use. Public Health Nutr 19, 18821892.CrossRefGoogle ScholarPubMed
Tumilowicz, A, Habicht, J-P, Mbuya, MNN et al. (2019) Bottlenecks and predictors of coverage and adherence outcomes for a micronutrient powder program in Ethiopia. Matern Child Nutr 15, e12807.CrossRefGoogle ScholarPubMed
Aaron, GJ, Lo, NB, Hess, SY et al. (2011) Acceptability of complementary foods and breads prepared from zinc-fortified cereal flours among young children and adults in Senegal. J Food Sci 76, S56S62.CrossRefGoogle ScholarPubMed
Ip, H, Hyder, SMZ, Haseen, F et al. (2009) Improved adherence and anaemia cure rates with flexible administration of micronutrient sprinkles: a new public health approach to anaemia control. Eur J Clin Nutr 63, 165172.CrossRefGoogle ScholarPubMed
Kodish, SR, Aburto, NJ, Nseluke Hambayi, M et al. (2017) Patterns and determinants of small-quantity LNS utilization in rural Malawi and Mozambique: considerations for interventions with specialized nutritious foods. Matern Child Nutr 13. doi: 10.1111/mcn.12234.CrossRefGoogle ScholarPubMed
Lang, T & Siribaddana, S (2012) Clinical trials have gone global: is this a good thing? PLoS Med 9, e1001228.CrossRefGoogle Scholar
Isaakidis, P, Swingler, GH, Pienaar, E et al. (2002) Relation between burden of disease and randomised evidence in sub-Saharan Africa: survey of research. BMJ (Clin Res Ed) 324, 702.CrossRefGoogle ScholarPubMed
Sear, R & Mace, R (2008) Who keeps children alive? A review of the effects of kin on child survival. Evol Hum Behav 29, 118.CrossRefGoogle Scholar
Hendricks, MK, Roux, ML, Fernandes, M et al. (2003) Evaluation of a nutrition supplementation programme in the Northern Cape Province of South Africa. Public Health Nutr 6, 431437.CrossRefGoogle ScholarPubMed
Walsh, CM, Dannhauser, A & Joubert, G (2002) The impact of a nutrition education programme on the anthropometric nutritional status of low-income children in South Africa. Public Health Nutr 5, 39.CrossRefGoogle ScholarPubMed
Flax, VL, Phuka, J, Cheung, YB et al. (2010) Feeding patterns and behaviors during home supplementation of underweight Malawian children with lipid-based nutrient supplements or corn-soy blend. Appetite 54, 504511.CrossRefGoogle ScholarPubMed
Sadler, K, Myatt, M, Feleke, T et al. (2007) A comparison of the programme coverage of two therapeutic feeding interventions implemented in neighbouring districts of Malawi. Public Health Nutr 10, 907913.CrossRefGoogle ScholarPubMed
Galpin, L, Thakwalakwa, C, Phuka, J et al. (2007) Breast milk intake is not reduced more by the introduction of energy dense complementary food than by typical infant porridge. J Nutr 137, 18281833.CrossRefGoogle Scholar
Stelle, I, Venkatesan, S & Edmond, K et al. (2020) Acknowledging the gap: a systematic review of micronutrient supplementation in infants under six months of age. Wellcome Open Res 5, 238.CrossRefGoogle Scholar
De-Regil, LM, Jefferds, ME, Sylvetsky, AC et al. (2011) Intermittent iron supplementation for improving nutrition and development in children under 12 years of age. Cochrane Database Syst Rev issue 12, CD009085.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 PICOS research framework

Figure 1

Table 2 Search terms

Figure 2

Table 3 Eligibility criteria

Figure 3

Fig. 1 PRISMA flowchart

Figure 4

Fig. 2 Spread of countries included in this review

Figure 5

Fig. 3 Acceptability of interventions

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