A Literature Review: Does The Gut Microbiota Related to Stunting Under 5 Years Children?
Kajian Literatur: Berhubungankah Mikrobiota Saluran Cerna dengan Stunting pada Anak Balita?
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Background: Stunting, one of the malnutrition that started since in pregnant until 2 first life's years and made worse by repeated infection disease.
Objectives: This study aims to identify the correlation between the presence of gut microbiota and stunting.
Discusion: This study explored article Pubmed database,Science Direct, Sage Journal, Springer Link, through keywords "stunting, gut microbiota, under 5 years”. Furthermore, the studies found are 5 open access articles, and were filtered since 2016 until 2021. The guts microbiota may contribute to stunting in children.Gastrointestinal infection has spesific mechanism that causing postnatal stunting. Immaturity and deficiency of non-pathogenic microbiota in the gut are the main causes. Decreased gastrointestinal microbiota diversity in children who suffer diarrhea and stunting.
Conclusions: composition change of the gut bacteria of children have been associated with an increase in the number of gastrointestinal infections resulting in chronic growth disorders.
Okky Aridiyah, F., Rohmawati, N. & Ririanty, M. Faktor-faktor yang Mempengaruhi Kejadian Stunting pada Anak Balita di Wilayah Pedesaan dan Perkotaan (The Factors Affecting Stunting on Toddlers in Rural and Urban Areas). e-Jurnal Pustaka Kesehat. 3, 163–170 (2015).
Reynaldo Martorell. Improved Nutrition in the First 1000 Days and Adult Human capital and Health. Am J Hum Biol 176, 139–148 (2017).
Global Nutrition Report. Global Nutrition Report 2020 : Action on equity to end malnutrition- Launch presentation. (2020).
Shinsugi, C. et al. Factors associated with stunting among children according to the level of food insecurity in the household: A cross-sectional study in a rural community of Southeastern Kenya Global health. BMC Public Health 15, (2015).
Riskesdas. Riset Kesehatan Dasar. Badan Penelitian dan Pengembangan Kesehatan Kementerian Kesehatan RI Tahun 2013 (2013) doi:10.1517/13543784.7.5.803.
Vaivada, T. et al. Stunting in childhood: An overview of global burden, trends, determinants, and drivers of decline. Am. J. Clin. Nutr. 112, 777S-791S (2020).
Global Burden of Disease. Global, regional, and national age-sex specific all-cause and cause-specific mortality for 240 causes of death, 1990-2013: a systematic analysis for the Global Burden of Disease Study 2013. Lancet (London, England) 385, 117–171 (2015).
Thahir, A. I. A., Gordon, A. & Salam, A. Does gut microbiome associate with the growth of infants? A review of the literature. Enferm. Clin. 30, 66–70 (2020).
Zambruni, M. et al. Stunting is preceded by intestinal mucosal damage and microbiome changes and is associated with systemic inflammation in a cohort of Peruvian infants. Am. J. Trop. Med. Hyg. 101, 1009–1017 (2019).
Gough, E. K., Prendergast, A. J., Mutasa, K. E., Stoltzfus, R. J. & Manges, A. R. Assessing the intestinal microbiota in the SHINE Trial. Clin. Infect. Dis. 61, S738–S744 (2015).
Shabab Hossain, M. et al. Association of faecal pH with childhood stunting: Results from a cross-sectional study. BMJ Paediatr. Open 3, 1–6 (2019).
Rafiuddin, A. T. Faktor yang Berhubungan dengan Kejadian Diare pada Balita di Wilayah Kerja Puskesmas Puuwatu Kota Kendari. J. if Public Heal. 3, 65–75 (2020).
Ghosh, T. S., Gupta, S. Sen, Bhattacharya, T. & Yadav, D. Gut Microbiomes of Indian Children of Varying Nutritional Status. 9, 1–13 (2014).
Owino, V. et al. Environmental enteric dysfunction and growth failure/stunting in global child health. Pediatrics 138, (2016).
Victora, C. G., Onis, M. De, Shrimpton, R. & Sciences, B. Linear Growth Faltering Should Be Assessed in Reply to Victora et al . 2092–2093 (2014) doi:10.3945/jn.114.200543.our.
World Health Organization. WHA Global Nutrition Targets 2025: Stunting Policy Brief. WHO/NMH/NHD/14.3 vol. 14.3 1–10 (2014).
Clasen, T. et al. Estimating the impact of unsafe water, sanitation and hygiene on the global burden of disease: Evolving and alternative methods. Trop. Med. Int. Heal. 19, 884–893 (2014).
Sinharoy, S. S., Reese, H. E., Praharaj, I., Chang, H. H. & Clasen, T. Effects of a combined water and sanitation intervention on biomarkers of child environmental enteric dysfunction and associations with height-for-age Z-score: A matched Cohort study in rural Odisha, India. PLoS Negl. Trop. Dis. 15, (2021).
Surono. Gut microbiota profile of Indonesian stunted children and children with normal nutritional status. PLoS One 16, 1–18 (2021).
Logor, N. T., Manoppo, J. I. C., Tatura, S. N. N. & Manado, R. D. K. Gambaran Mikrobiota Usus dan Konsistensi Tinja pada Bayi Sehat Usia 0-6 Bulan yang Mendapat ASI dan Susu Formula. 13, 207–217 (2021).
Surono, I. S. et al. Differences in immune status and fecal SCFA between Indonesian stunted children and children with normal nutritional status. (2021) doi:10.1371/journal.pone.0254300.
Samantha L.Huey. Nutrition and the Gut Microbiota in 10- to 18-Month-Old Children Living in Urban Slums of Mumbai, India. 5, (2020).
Shivakumar. Gut microbiota profiles of young South Indian children: Child sex-specific relations with growth. (2021) doi:10.1371/journal.pone.0251803.
Vonaesch, P., Morien, E., Andrianonimiadana, L., Sanke, H. & Mbecko, J. Stunted childhood growth is associated with decompartmentalization of the gastrointestinal tract and overgrowth of oropharyngeal taxa. 115, 8489–8498 (2018).
Gómez-Gallego, C. et al. The Microbiota and Malnutrition: Impact of Nutritional Status During Early Life. Annu. Rev. Nutr. 39, 267–290 (2019).
Dinh, D. M. et al. Longitudinal analysis of the intestinal microbiota in persistently stunted young children in south India. PLoS One 11, 1–17 (2016).
Helmyati, S., Yuliati, E., Wisnusanti, S. U., Maghribi, R. & Juffrie, M. Keadaan Mikrobiota Saluran Cerna pada Anak Sekolah Dasar yang Mengalami Stunting di Lombok Barat. J. Gizi dan Pangan 12, 55–60 (2017).
Durda-masny, M., Ciomborowska-basheer, J., Makałowska, I. & Szwed, A. The Mediating Role of the Gut Microbiota in the Physical Growth of Children. (2022).
Hooper, L. V, Littman, D. R., Macpherson, A. J. & Program, M. P. Interactions between the microbiota and the immune system. 336, 1268–1273 (2015).
Kamil, R. Z., Murdiati, A., Juffrie, M., Nakayama, J. & Rahayu, E. S. Gut microbiota and short-chain fatty acid profile between normal and moderate malnutrition children in Yogyakarta, Indonesia. Microorganisms 9, 1–15 (2021).
Power, S.E. et al. (2014). Intestinal microbiota, diet, and health. British Journal of nutrition, 111(3): 387-402. doi: 10.1017/S0007114513002560.
Clarke, G., Stilling, R.M., Kennedy, P.J., Stanton, C., Cryan, J.F., Dinan, T.G. (2014). Minireview: Gut Microbiota: The neglected endocrin organ. Mol. Endocrinol, 28(8): 1221-1238.
Dietert, R.R., Dietert, J.M. (2015). Review: The microbiome and sustainable healthcare. Healthcare, 3: 100-129.
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