Abstract
Background
Malnutrition develops when there is an inadequacy of one or more than one macronutrient for optimum body functioning. This study was designed to determine the effectiveness of ready-to-use therapeutic food (RUTF) in children with protein-calorie malnutrition (PCM) in terms of weight gain and mid-upper arm circumference (MUAC) improvement.
Methodology
This prospective observational study was done at The Department of Pediatrics, National Institute of Child Health, Karachi, Pakistan from 1st January 2021 to 31st December 2021. A total of 159 children of either gender between six and 59 months of age and diagnosed with PCM were included. All children participating in the study were asked to come back for a follow-up every two weeks until they are 12 weeks old. Outcomes were measured in terms of comparison of weight gain and MUAC at baseline and after 12 weeks of RUTF.
Results
Of the 159 children, 94 (59.1%) were female. The mean age was 16.8±9.2 months, and 88 (55.3%) children were aged between six to 12 months. The mean body weight was 6.8±9.7 kg. The mean MUAC was calculated to be 116±9.1 mm. There were 121 (76.1%) children who had severe acute malnutrition. One hundred and thirty-one children completed the planned 12-week of follow-up using RUTF in this study, so they were included in the final analysis. Body weight increased significantly from baseline to 12-weeks after RUTF (6.8±1.7 kg vs. 7.6±1.2kg, p<0.0001). Likewise, MUAC also increased from baseline to 12 weeks after RUTF (116.0±9.1 mm vs. 127.2±8.2 mm, p<0.0001).
Conclusion
The RUTF was found to significantly improve weight gain and MUAC among children aged between six to 60 months with PCM during a period of 12-weeks. Early diagnosis and timely intervention can improve outcomes among children with PCM. Community-based interventions can be aimed to improve the nutritional status of children in a developing country like Pakistan.
Keywords: pakistan, weight gain, mid-upper arm circumference, ready to use therapeutic food, protein calorie malnutrition
Introduction
Malnutrition develops when there is an inadequacy of one or more than one macronutrients in the body for optimum body functioning [1]. Children below five years of age, pregnant and lactating women, and older adults are most frequently affected by malnutrition. Among children below five years of age, around 165 million are estimated to be affected with malnutrition worldwide. Malnutrition is also estimated to influence around 50% of all pediatric age group deaths globally [2-4]. Malnutrition is a multifactorial entity that encompasses various clinical statuses including protein-calorie malnutrition (PCM) [5].
The PCM among children is a global health issue mainly in developing countries [6]. The United Nations International Children's Emergency Fund (UNICEF) recognized environmental, economic, and socio-political factors as the main causes behind malnutrition while poverty is considered to be the most important root cause behind malnutrition [7,8]. Pakistan has been reported to be among the nations with the highest proportion of childhood malnutrition especially PCM when compared to other developing counties [9,10].
The ready-to-use therapeutic foods (RUTF) were developed from the existing liquid F-100 diet recommended by WHO for treating children with malnutrition including PCM [11]. The RUTF does not need water for preparation, has a sweet palatable taste, and is shelf-stable for up to a duration of two years [12]. Different studies were carried out to determine the effect of RUTF on malnutrition and reported the recovery with respect to weight gain, such as the Pakistani study by Khan et al. that reported weight gain in 81.8% of malnourished children [11]. Another study by Sigh et al. reported weight gain in 40.5% of malnourished children treated with RUTF [13].
Many studies have been conducted throughout the world to measure the response of RUTF in children with PCM but local data is scarce regarding this, especially in the population of the Sindh Province. Therefore, this study was done to determine the effectiveness of RUTF in children with PCM in terms of weight gain and mid-upper arm circumference (MUAC) improvement.
Materials and methods
This prospective observational study was done at the Department of Pediatrics, National Institute of Child Health, Karachi, Pakistan from 1st January 2021 to 31st December 2021. The sample size of 159 was calculated using the proportion of Khan et al. who reported the weight gain in 81.8% of malnourished children treated with RUTF [11], by taking a confidence interval of 95% and a margin of error of 6%. Inclusion criteria were children of either gender aged six to 59 months diagnosed with PCM. Exclusion criteria were children diagnosed with secondary malnutrition or suffering from uncontrolled systemic infections, severe cerebral palsy, or mental health problems.
Approval from Institutional Ethical Review Board was acquired (IERB-08/2021, dated: 04-11-2021) for this study. Informed and written consent was sought from parents/guardians of all study participants. Detailed medical history of each patient including name, gender, age (months), weight (Kg), height (cm), and MUAC (cm) were obtained. The RUTF was advised in all children depending upon children's body weight based on an estimated average requirement of 200 Kcal/Kg/day. All children participating in the study were asked to come back for a follow-up visit after every two weeks until they completed 12 consecutive weeks. All the data was recorded in proforma by the researcher.
The PCM was categorized as mild acute malnutrition (MAM), diagnosed either by MUAC between 11 to 12.5 cm or weight for height z score (WHZ) between -2 and -3 standard deviation (SD) or severe acute malnutrition (SAM), diagnosed either by MUAC < 11.5 cm or WHZ < - 3 SD. Mid-upper arm circumference (MUAC) was measured conventionally over the left upper arm of children by using MUAC tape. The WHZ was calculated by using WHO tables for boys and girls. The RUTF was vitamin and mineral fortified peanut paste food mixed with dry milk products for the treatment of malnutrition. Outcomes were measured as a comparison of weight gain and MUAC at baseline and after 12 weeks of RUTF.
For data analysis, Statistical Package for Social Sciences (SPSS) version 26.0 (IBM Corp., Armonk, NY, USA) was employed. Mean and SD was calculated for quantitative variables whereas frequency and percentages were calculated for categorical data. Effect modifiers like gender, age, and type of protein-energy malnutrition (PEM) were controlled by stratification with weight gain and MUAC improvement. Body weight and MUAC at baseline and after 12 weeks of RUTF were compared by applying paired sample t-test. A p-value below 0.05 was considered statistically significant.
Results
Of a total of 159 children, 94 (59.1%) were female. The mean age was 16.8±9.2 months while 88 (55.3%) children were aged between six to 12 months. The mean body weight was 6.8±9.7 kg. The mean MUAC was calculated to be 116±9.1 mm. There were 121 (76.1%) children who had SAM. The area of residence was rural with 101 (63.5%) children. Maternal education status was illiterate in 45 (28.3%). Exclusive breastfeeding in the first six months was noted in 25 (15.7%) cases. Table 1 shows the baseline characteristics of all children enrolled in this study.
Table 1. Baseline characteristics of children (n=159).
| Characteristics | Number (%) / Mean±SD | ||
| Gender | Male | 65 (40.9%) | |
| Female | 94 (59.1%) | ||
| Age in Months | 6-12 | 88 (55.3%) | |
| 13-24 | 42 (26.4%) | ||
| 25-60 | 29 (18.2%) | ||
| Age in Months | 16.8±9.2 | ||
| Weight in Kg | 6.8±9.7 | ||
| Mid-Upper Arm Circumference in mm | 116±9.1 | ||
| Types of Protein Calorie Malnutrition | Severe Acute Malnutrition | 121 (76.1%) | |
| Mild Acute Malnutrition | 38 (23.9%) | ||
| Area of Residence | Rural | 101 (63.5%) | |
| Urban | 58 (36.5%) | ||
| Monthly Family Income (Pakistan Rupees) | <18,000 | 83 (52.2%) | |
| 18,000 to 40,000 | 65 (40.9%) | ||
| >40,000 | 11 (6.9%) | ||
| Maternal Education | Illiterate | 45 (28.3%) | |
| Literate | 114 (71.7%) | ||
| Exclusive Breastfeeding in 1st 6 months | 25 (15.7%) | ||
| Appropriate Complimentary Breastfeeding | 31 (19.5%) | ||
| Good Hygiene Practice | 13 (8.2%) | ||
Twenty-five children discontinued follow-ups while mortality was reported in three, so these 28 children were left out from the final analysis. One hundred and thirty-one children completed the planned 12-weeks of follow-up using RUTF in this study and so they were included in the final analysis. Body weight increased significantly from baseline to 12 weeks after RUTF (6.8±1.7 kg vs. 7.6±1.2kg, p<0.0001). Likewise, MUAC also increased from baseline to 12 weeks after RUTF (116.0±9.1 mm vs. 127.2±8.2 mm, p<0.0001). Table 2 shows the comparison of outcome measures among study participants from baseline to 12 weeks after RUTF.
Table 2. Outcome measures among study participants from baseline to 12 weeks after RUTF.
| Outcomes | At Baseline (n=159) | At 12 weeks after RUTF (n=131) | P-Value |
| Body Weight in kg | 6.8±1.7 | 7.6±1.2 | <0.0001 |
| Mid-Upper Arm Circumference in mm | 116.0±9.1 | 127.2±8.2 | <0.0001 |
Discussion
Malnourished children frequently look very thin or wasted with malnourishment being a common cause of morbidity and mortality among pediatric age groups [14,15]. In resource constraint healthcare settings, treatment of malnourishment is not always attainable due to practical reasons while a home-based therapeutic approach is commonly considered a better option for these children. The RUTF is made as per standard guidelines as described by WHO which satisfies the daily energy requirements of malnourished children [16].
In this study, we noted that a net increase of 0.8±0.5 kg body weight was recorded among study participants with PCM, and the difference in body weight at the end of the study period, when compared to the baseline body weight, was statistically significant (p<0.0001). Likewise, MUAC was also observed to have a net increase of 11.2±0.9 mm (p<0.0001). A recent study from Pakistan enrolling 91 children with SAM under the age of five years revealed that RUTF not only influenced significant weight gain among malnourished children but also improved the developmental potential of the malnourished children [17]. These findings are also consistent with what has been found in other studies conducted in Ethiopia, Pakistan, and Ghana [16,18,19].
Although data exists regarding various interventions done among children with malnutrition not much research has been performed to evaluate the efficacy of RUTF among PCM for 12 weeks in Southern Asia. Studies have shown that a direct relationship exists between children's development and nutritional status [20,21]. Malnourished children are observed to lack development in all main domains of pre-treatment screening while inappropriate nutritional supply can be a cause of various abnormalities like reduction in brain size, abnormal impact on cell maturation that can result in behavioral disorders with delayed personal and social development that can also occur due to inadequate nutritional supply [20,22].
In this study, we observed that 81.7% of children with PCM were aged less than two years. Exposure to malnourishment in the infancy period is thought to cause a high risk of developmental delay in the later years of life as infancy and toddlerhood are known to be periods of rapid development and are influenced by socio-demographical and environmental issues [17,22]. For the treatment of malnourished children, community-based interventions for addressing acute malnutrition like RUTF is effective. The RUTF has been found to fulfill micronutrient and macronutrient needs required for catch-up growth and appropriate developmental goals so timely recognition of PCM and its treatment can result in satisfactory weight gain and increase in MUAC as was observed in this study. On the other hand, delay in the recognition and treatment of PCM can progress into irreparable damage [23,24]. The WHO endorses timely utilization of RUTF for the attainment of required weight gain and satisfactory recovery among malnourished children [25]. The current study showed that the 12-week treatment with RUTF resulted in significant gains in mean weight and MUAC among children with PCM.
As this was a single-center study conducted with relatively small sample size, our findings cannot be generalized. High rates of loss of follow-up in the present study could have also influenced the outcomes as it is presumed that children with poor weight gain might have stopped follow-up and consulted some other childcare facilities. As the present study had a relatively small follow-up duration of 12 weeks, children having RUTF must be followed up for a longer duration so that the long-term effects of these interventions are determined. Ideally, we should have analyzed mico-nutrient levels in the body to further strengthen our beliefs about the role of RUTF among children with PCM but due to financial and administrative limitations, we could not do that.
Conclusions
The RUTF was found to significantly improve weight gain and MUAC among children aged between six to 60 months with PCM during a period of 12 weeks. Early diagnosis and timely intervention can improve outcomes among children with PCM. Community-based interventions can be aimed to improve the nutritional status of children in a developing country such as Pakistan. There might even be potential for community-targeted interventions to improve the overall nutritional level of children.
Acknowledgments
The authors are thankful to Muhammad Aamir (RESnTEC, Bahawalpur Pakistan) for his valuable assistance in the statistical analysis of this research.
The content published in Cureus is the result of clinical experience and/or research by independent individuals or organizations. Cureus is not responsible for the scientific accuracy or reliability of data or conclusions published herein. All content published within Cureus is intended only for educational, research and reference purposes. Additionally, articles published within Cureus should not be deemed a suitable substitute for the advice of a qualified health care professional. Do not disregard or avoid professional medical advice due to content published within Cureus.
The authors have declared that no competing interests exist.
Human Ethics
Consent was obtained or waived by all participants in this study. Institutional Ethical Review Board (IERB), National Institute of Child Health, Karachi Pakistan issued approval IERB-08/2021. Approval from Institutional Ethical Review Board of National Institute of Child Health, Karachi Pakistan was acquired (IERB-08/2021, dated: 04-11-2021).
Animal Ethics
Animal subjects: All authors have confirmed that this study did not involve animal subjects or tissue.
References
- 1.Identifying children at risk of malnutrition. Jackson AA. Nutr J. 2018;17:84. doi: 10.1186/s12937-018-0392-4. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 2.Severely malnourished children with a low weight-for-height have a higher mortality than those with a low mid-upper-arm-circumference: I. Empirical data demonstrates Simpson's paradox. Grellety E, Golden MH. Nutr J. 2018;17:79. doi: 10.1186/s12937-018-0384-4. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 3.Risk factors for malnutrition among preschool children in rural Karnataka: a case-control study. Ansuya Ansuya, Nayak BS, Unnikrishnan B, George A, N SY, Mundkur SC, Guddattu V. BMC Public Health. 2018;18:283. doi: 10.1186/s12889-018-5124-3. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 4.Double burden of malnutrition among children under 5 in poor areas of China. Zhang Y, Huang X, Yang Y, et al. PLoS One. 2018;13:0. doi: 10.1371/journal.pone.0204142. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 5.Prevalence of protein energy malnutrition among under-five children belonging to rural areas of Ambala, Haryana, India. Kumari P. https://www.researchgate.net/profile/Priyanka-Kumari-43/publication/322854478_Prevalence_of_Protein_Energy_Malnutrition_Among_Under-Five_Children_Belonging_to_Rural_Areas_of_Ambala_Haryana_India/links/5a72dd2b45851551207677b2/Prevalence-of-Protein-Energy-Malnutrition-Among-Under-Five-Children-Belonging-to-Rural-Areas-of-Ambala-Haryana-India.pdf Res Rev J Med. 2018;7:14–20. [Google Scholar]
- 6.From treating childhood malnutrition to public health nutrition. James WP. Ann Nutr Metab. 2018;72:202–209. doi: 10.1159/000487273. [DOI] [PubMed] [Google Scholar]
- 7.A clinical nutritionist's experience and expectations. James WP. Eur J Clin Nutr. 2017;71:915–918. doi: 10.1038/ejcn.2017.95. [DOI] [PubMed] [Google Scholar]
- 8.2018 global nutrition report reveals malnutrition is unacceptably high and affects every country in the world, but there is also an unprecedented opportunity to end it. [ May; 2022 ];https://www.unicef.org/press-releases/2018-global-nutrition-report-reveals-malnutrition-unacceptably-high-and-affects 2019
- 9.Child malnutrition in Pakistan: evidence from literature. Asim M, Nawaz Y. Children (Basel) 2018;5:60. doi: 10.3390/children5050060. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 10.Malnutrition among children under five years in district Sanghar, Sindh, Pakistan. Laghari ZA, Soomro AM, Tunio SA, et al. http://www.gjms.com.pk/index.php/journal/article/view/570 Gomal J Med Sci. 2015;13:54–57. [Google Scholar]
- 11.Weight gain in malnourished children on who recommended therapeutic feeding formula f-100. Khan S, Iqbal MI, Ali I, Fawad U, Arshad R, Ishfaq K. https://www.researchgate.net/profile/Kamran-Ishfaq/publication/326804589_Weight_Gain_in_Malnourished_Children_on_WHO_Recommended_Therapeutic_Feeding_Formula_F-100/links/5b644a6caca272e3b6ace5a2/Weight-Gain-in-Malnourished-Children-on-WHO-Recommended-Therapeutic-Feeding-Formula-F-100.pdf Pak Pediatr J. 2018;42:120–125. [Google Scholar]
- 12.The life course implications of ready-to-use therapeutic food for children in low-income countries. Bazzano AN, Potts KS, Bazzano LA, Mason JB. Int J Environ Res Public Health. 2017;14:403. doi: 10.3390/ijerph14040403. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 13.Effectiveness of a locally produced, fish-based food product on weight gain among Cambodian children in the treatment of acute malnutrition: a randomized controlled trial. Sigh S, Roos N, Chamnan C, Laillou A, Prak S, Wieringa FT. Nutrients. 2018;10:909. doi: 10.3390/nu10070909. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 14.Effectiveness of supplementary blended flour based on chickpea and cereals for the treatment of infants with moderate acute malnutrition in Iran: a randomized clinical trial. Javan R, Kooshki A, Afzalaghaee M, Aldaghi M, Yousefi M. Electron Physician. 2017;9:6078–6086. doi: 10.19082/6078. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 15.Impact of malnutrition on pediatric risk of mortality score and outcome in Pediatric Intensive Care Unit. Nangalu R, Pooni PA, Bhargav S, Bains HS. Indian J Crit Care Med. 2016;20:385–390. doi: 10.4103/0972-5229.186218. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 16.Community management of acute malnutrition (CMAM) programme in Pakistan effectively treats children with uncomplicated severe wasting. Aguayo VM, Badgaiyan N, Qadir SS, Bugti AN, Alam MM, Nishtar N, Galvin M. Matern Child Nutr. 2018;14:0. doi: 10.1111/mcn.12623. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 17.Effectiveness of ready-to-use therapeutic food in improving the developmental potential and weight of children aged under five with severe acute malnourishment in Pakistan: a pretest-posttest study. Saleem J, Zakar R, Bukhari GM, Naz M, Mushtaq F, Fischer F. Int J Environ Res Public Health. 2021;18:9060. doi: 10.3390/ijerph18179060. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 18.Severe acute malnutrition in children aged under 5 years can be successfully managed in a non-emergency routine community healthcare setting in Ghana. Akparibo R, Harris J, Blank L, Campbell MJ, Holdsworth M. Matern Child Nutr. 2017;13:0. doi: 10.1111/mcn.12417. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 19.Treatment outcomes of severe acute malnutrition in children treated within outpatient therapeutic program (OTP) at Wolaita zone, Southern Ethiopia: retrospective cross-sectional study. Kabalo MY, Seifu CN. J Health Popul Nutr. 2017;36:7. doi: 10.1186/s41043-017-0083-3. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 20.Developmental outcome in children with malnutrition. Chattopadhyay N, Saumitra M. J Nepal Paediatr. Soc. 2016;36:170–177. [Google Scholar]
- 21.Chronic disease outcomes after severe acute malnutrition in Malawian children (ChroSAM): a cohort study. Lelijveld N, Seal A, Wells JC, et al. Lancet Glob Health. 2016;4:0. doi: 10.1016/S2214-109X(16)30133-4. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 22.Nutrition (Micronutrients) in child growth and development: a systematic review on current evidence, recommendations and opportunities for further research. Yakoob MY, Lo CW. J Dev Behav Pediatr. 2017;38:665–679. doi: 10.1097/DBP.0000000000000482. [DOI] [PubMed] [Google Scholar]
- 23.Collins S. London, UK: Overseas Development Institute; 2004. Community-based therapeutic care: a new paradigm for selective feeding in nutritional crises . [Google Scholar]
- 24.Key issues in the success of community-based management of severe malnutrition. Collins S, Sadler K, Dent N, et al. Food Nutr Bull. 2006;27:0. doi: 10.1177/15648265060273S304. [DOI] [PubMed] [Google Scholar]
- 25.Geneva, Switzerland: World Health Organization; [ May; 2022 ]. 2013. Essential nutrition actions: improving maternal, newborn, infant and young child health and nutrition . [PubMed] [Google Scholar]