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Micronutrient

December 20, 2023

Micronutrients are essential dietary elements required by organisms in varying quantities to regulate physiological functions of cells and organs.[1][2] Micronutrients support the health of organisms throughout life.[3][4][5]

In varying amounts supplied through the diet, micronutrients include such compounds as vitamins and dietary minerals.[3][6] For human nutrition, micronutrient requirements are in amounts generally less than 100 milligrams per day, whereas macronutrients are required in gram quantities daily.[6] A multiple micronutrient powder of at least iron, zinc, and vitamin A was added to the World Health Organization's List of Essential Medicines in 2019.[7] Deficiencies in micronutrient intake commonly result in malnutrition.[3][8]

Inadequate micronutrient intake edit

Inadequate intake of essential nutrients predisposes humans to various chronic diseases, with some 50% of American adults having one or more preventable disease.[3] In the United States, foods poor in micronutrient content and high in food energy make up some 27% of daily calorie intake.[3] One US national survey (National Health and Nutrition Examination Survey 2003-2006) found that with high sugar intake consumed fewer micronutrients, especially vitamins A, C, and E, and magnesium.[3]

A 1994 report by the World Bank estimated that micronutrient malnutrition costs developing economies at least 5 percent of gross domestic product.[9] The Asian Development Bank has summarized the benefits of eliminating micronutrient deficiencies as follows:

Along with a growing understanding of the extent and impact of micronutrient malnutrition, several interventions have demonstrated the feasibility and benefits of correction and prevention. Distributing inexpensive capsules, diversifying to include more micronutrient-rich foods, or fortifying commonly consumed foods can make an enormous difference. Correcting iodine, vitamin A, and iron deficiencies can improve the population-wide intelligence quotient by 10–15 points, reduce maternal deaths by one-fourth, decrease infant and child mortality by 40 percent, and increase people's work capacity by almost half. The elimination of these deficiencies will reduce health care and education costs, improve work capacity and productivity, and accelerate equitable economic growth and national development. Improved nutrition is essential to sustain economic growth. Micronutrient deficiency elimination is as cost-effective as the best public health interventions and fortification is the most cost-effective strategy.[10]

Salt iodization edit

Salt iodization is major strategy for addressing iodine deficiency, which is a major cause of mental health problems. In 1990, less than 20 percent of households in developing countries were consuming iodized salt.[11] By 1994, international partnerships had formed in a global campaign for Universal Salt Iodization. By 2008, it was estimated that 72 percent of households in developing countries were consuming iodized salt[12] and the number of countries in which iodine deficiency disorders were a public health concern reduced by more than half from 110 to 47 countries.[11]

Vitamin A supplementation edit

Vitamin A deficiency is a major factor in causing blindness worldwide, particularly among children.[13] Global vitamin A supplementation efforts have targeted 103 priority countries. In 1999, 16 percent of children in these countries received two annual doses of vitamin A. By 2007, the rate increased to 62 percent.[14]

Fortification of staple foods with vitamin A has uncertain benefits on reducing the risk of subclinical vitamin A deficiency.[15]

Zinc edit

Fortification of staple foods may improve serum zinc levels in the population. Other effects such as improving zinc deficiency, children's growth, cognition, work capacity of adults, or blood indicators are unknown.[16] Experiments show that soil and foliar application of zinc fertilizer can effectively reduce the phytate zinc ratio in grain. People who eat bread prepared from zinc-enriched wheat show a significant increase in serum zinc, suggesting that the zinc fertilizer strategy is a promising approach to address zinc deficiencies in humans.

Plants edit

Main article: Plant nutrition

Plants tend not to use vitamins, although minerals are required.[8][17]

 
Structure of the Mn4O5Ca core of the oxygen-evolving site in plants, illustrating one of many roles of the trace mineral, manganese.[18]

Some seven trace elements are essential to plant growth, although often in trace quantities.[citation needed]

  • Boron is believed to be involved in carbohydrate transport in plants; it also assists in metabolic regulation. Boron deficiency will often result in bud dieback.
  • Chloride is necessary for osmosis and ionic balance; it also plays a role in photosynthesis.
  • Copper, iron, manganese, molybdenum, and zinc are cofactors essential for the functioning of many enzymes.[19] For plants, deficiency in these elements often results in inefficient production of chlorophyll, manifested in chlorosis.

See also edit

References edit

  1. ^ "Vitamins". Corvallis, OR: Micronutrient Information Center, Linus Pauling Institute, Oregon State University. 2023. Retrieved 1 December 2023.
  2. ^ "Minerals". Corvallis, OR: Micronutrient Information Center, Linus Pauling Institute, Oregon State University. 2023. Retrieved 1 December 2023.
  3. ^ a b c d e f "Micronutrient Inadequacies in the US Population: an Overview". Micronutrient Information Center, Linus Pauling Institute, Oregon State University. 1 March 2018. Retrieved 1 December 2023.
  4. ^ Gernand, A. D; Schulze, K. J; Stewart, C. P; West Jr, K. P; Christian, P (2016). "Micronutrient deficiencies in pregnancy worldwide: Health effects and prevention". Nature Reviews Endocrinology. 12 (5): 274–289. doi:10.1038/nrendo.2016.37. PMC 4927329. PMID 27032981.
  5. ^ Tucker, K. L (2016). "Nutrient intake, nutritional status, and cognitive function with aging". Annals of the New York Academy of Sciences. 1367 (1): 38–49. Bibcode:2016NYASA1367...38T. doi:10.1111/nyas.13062. PMID 27116240.
  6. ^ a b "Reference Guide: Daily Values for Nutrients". US Food and Drug Administration. 27 September 2023. Retrieved 1 December 2023.
  7. ^ World Health Organization (2019). World Health Organization model list of essential medicines: 21st list 2019 (Technical report). hdl:10665/325771. from the original on 14 October 2022. Retrieved 14 January 2023.
  8. ^ a b Blancquaert, D; De Steur, H; Gellynck, X; Van Der Straeten, D (2017). "Metabolic engineering of micronutrients in crop plants" (PDF). Annals of the New York Academy of Sciences. 1390 (1): 59–73. Bibcode:2017NYASA1390...59B. doi:10.1111/nyas.13274. hdl:1854/LU-8519050. PMID 27801945. S2CID 9439102.
  9. ^ World Bank (1994). Enriching Lives: Overcoming Vitamin and Mineral Malnutrition in Developing Countries. Development in Practice Series.
  10. ^ Asia Development Bank (October 2000). [www.adb.org/Documents/TARs/REG/tar_oth34014.pdf Regional Initiative to Eliminate Micronutrient Malnutrition in Asia Through Public-Private Partnership]. TAR: OTH 34014. Retrieved on: 2011-10-13.
  11. ^ a b Flour Fortification Initiative, GAIN, Micronutrient Initiative, USAID, The World Bank, UNICEF, Investing in the future: a united call to action on vitamin and mineral deficiencies, p. 19.
  12. ^ UNICEF, The State of the World's Children 2010, Statistical Tables, p. 15.
  13. ^ "Vitamin A". Micronutrient Information Center, Linus Pauling Institute, Oregon State University. 25 February 2021. Retrieved 1 December 2023.
  14. ^ Flour Fortification Initiative, GAIN, Micronutrient Initiative, USAID, The World Bank, UNICEF, Investing in the future: a united call to action on vitamin A and mineral deficiencies, p. 17.
  15. ^ Hombali AS, Solon JA, Venkatesh BT, Nair NS, Peña-Rosas JP (May 2019). "Fortification of staple foods with vitamin A for vitamin A deficiency". Cochrane Database of Systematic Reviews. 2019 (5): CD010068. doi:10.1002/14651858.CD010068.pub2. PMC 6509778. PMID 31074495.
  16. ^ Shah D, Sachdev HS, Gera T, De-Regil LM, Peña-Rosas JP (June 2016). "Fortification of staple foods with zinc for improving zinc status and other health outcomes in the general population". Cochrane Database Syst Rev. 2016 (6): CD010697. doi:10.1002/14651858.CD010697.pub2. PMC 8627255. PMID 27281654.
  17. ^ Marschner, Petra, ed. (2012). Marschner's mineral nutrition of higher plants (3rd ed.). Amsterdam: Elsevier/Academic Press. ISBN 9780123849052.
  18. ^ Umena, Yasufumi; Kawakami, Keisuke; Shen, Jian-Ren; Kamiya, Nobuo (May 2011). "Crystal structure of oxygen-evolving photosystem II at a resolution of 1.9 Å" (PDF). Nature. 473 (7345): 55–60. Bibcode:2011Natur.473...55U. doi:10.1038/nature09913. PMID 21499260. S2CID 205224374.
  19. ^ Dittmar, Heinrich; Drach, Manfred; Vosskamp, Ralf; Trenkel, Martin E.; Gutser, Reinhold; Steffens, Günter (2009). "Fertilizers, 2. Types". Ullmann's Encyclopedia of Industrial Chemistry. doi:10.1002/14356007.n10_n01. ISBN 9783527303854.

External links edit

December 20, 2023
micronutrient, essential, dietary, elements, required, organisms, varying, quantities, regulate, physiological, functions, cells, organs, support, health, organisms, throughout, life, varying, amounts, supplied, through, diet, micronutrients, include, such, co. Micronutrients are essential dietary elements required by organisms in varying quantities to regulate physiological functions of cells and organs 1 2 Micronutrients support the health of organisms throughout life 3 4 5 In varying amounts supplied through the diet micronutrients include such compounds as vitamins and dietary minerals 3 6 For human nutrition micronutrient requirements are in amounts generally less than 100 milligrams per day whereas macronutrients are required in gram quantities daily 6 A multiple micronutrient powder of at least iron zinc and vitamin A was added to the World Health Organization s List of Essential Medicines in 2019 7 Deficiencies in micronutrient intake commonly result in malnutrition 3 8 Contents 1 Inadequate micronutrient intake 1 1 Salt iodization 1 2 Vitamin A supplementation 1 3 Zinc 2 Plants 3 See also 4 References 5 External linksInadequate micronutrient intake editInadequate intake of essential nutrients predisposes humans to various chronic diseases with some 50 of American adults having one or more preventable disease 3 In the United States foods poor in micronutrient content and high in food energy make up some 27 of daily calorie intake 3 One US national survey National Health and Nutrition Examination Survey 2003 2006 found that with high sugar intake consumed fewer micronutrients especially vitamins A C and E and magnesium 3 A 1994 report by the World Bank estimated that micronutrient malnutrition costs developing economies at least 5 percent of gross domestic product 9 The Asian Development Bank has summarized the benefits of eliminating micronutrient deficiencies as follows Along with a growing understanding of the extent and impact of micronutrient malnutrition several interventions have demonstrated the feasibility and benefits of correction and prevention Distributing inexpensive capsules diversifying to include more micronutrient rich foods or fortifying commonly consumed foods can make an enormous difference Correcting iodine vitamin A and iron deficiencies can improve the population wide intelligence quotient by 10 15 points reduce maternal deaths by one fourth decrease infant and child mortality by 40 percent and increase people s work capacity by almost half The elimination of these deficiencies will reduce health care and education costs improve work capacity and productivity and accelerate equitable economic growth and national development Improved nutrition is essential to sustain economic growth Micronutrient deficiency elimination is as cost effective as the best public health interventions and fortification is the most cost effective strategy 10 Salt iodization edit Salt iodization is major strategy for addressing iodine deficiency which is a major cause of mental health problems In 1990 less than 20 percent of households in developing countries were consuming iodized salt 11 By 1994 international partnerships had formed in a global campaign for Universal Salt Iodization By 2008 it was estimated that 72 percent of households in developing countries were consuming iodized salt 12 and the number of countries in which iodine deficiency disorders were a public health concern reduced by more than half from 110 to 47 countries 11 Vitamin A supplementation edit Vitamin A deficiency is a major factor in causing blindness worldwide particularly among children 13 Global vitamin A supplementation efforts have targeted 103 priority countries In 1999 16 percent of children in these countries received two annual doses of vitamin A By 2007 the rate increased to 62 percent 14 Fortification of staple foods with vitamin A has uncertain benefits on reducing the risk of subclinical vitamin A deficiency 15 Zinc edit Fortification of staple foods may improve serum zinc levels in the population Other effects such as improving zinc deficiency children s growth cognition work capacity of adults or blood indicators are unknown 16 Experiments show that soil and foliar application of zinc fertilizer can effectively reduce the phytate zinc ratio in grain People who eat bread prepared from zinc enriched wheat show a significant increase in serum zinc suggesting that the zinc fertilizer strategy is a promising approach to address zinc deficiencies in humans Plants editMain article Plant nutritionPlants tend not to use vitamins although minerals are required 8 17 nbsp Structure of the Mn4O5Ca core of the oxygen evolving site in plants illustrating one of many roles of the trace mineral manganese 18 Some seven trace elements are essential to plant growth although often in trace quantities citation needed Boron is believed to be involved in carbohydrate transport in plants it also assists in metabolic regulation Boron deficiency will often result in bud dieback Chloride is necessary for osmosis and ionic balance it also plays a role in photosynthesis Copper iron manganese molybdenum and zinc are cofactors essential for the functioning of many enzymes 19 For plants deficiency in these elements often results in inefficient production of chlorophyll manifested in chlorosis See also edit nbsp Ecology portalList of micronutrients Human nutrition Macronutrient ecology Dietary mineral redirects to Mineral nutrient Silicon Human nutrition Manganese deficiency medicine References edit Vitamins Corvallis OR Micronutrient Information Center Linus Pauling Institute Oregon State University 2023 Retrieved 1 December 2023 Minerals Corvallis OR Micronutrient Information Center Linus Pauling Institute Oregon State University 2023 Retrieved 1 December 2023 a b c d e f Micronutrient Inadequacies in the US Population an Overview Micronutrient Information Center Linus Pauling Institute Oregon State University 1 March 2018 Retrieved 1 December 2023 Gernand A D Schulze K J Stewart C P West Jr K P Christian P 2016 Micronutrient deficiencies in pregnancy worldwide Health effects and prevention Nature Reviews Endocrinology 12 5 274 289 doi 10 1038 nrendo 2016 37 PMC 4927329 PMID 27032981 Tucker K L 2016 Nutrient intake nutritional status and cognitive function with aging Annals of the New York Academy of Sciences 1367 1 38 49 Bibcode 2016NYASA1367 38T doi 10 1111 nyas 13062 PMID 27116240 a b Reference Guide Daily Values for Nutrients US Food and Drug Administration 27 September 2023 Retrieved 1 December 2023 World Health Organization 2019 World Health Organization model list of essential medicines 21st list 2019 Technical report hdl 10665 325771 Archived from the original on 14 October 2022 Retrieved 14 January 2023 a b Blancquaert D De Steur H Gellynck X Van Der Straeten D 2017 Metabolic engineering of micronutrients in crop plants PDF Annals of the New York Academy of Sciences 1390 1 59 73 Bibcode 2017NYASA1390 59B doi 10 1111 nyas 13274 hdl 1854 LU 8519050 PMID 27801945 S2CID 9439102 World Bank 1994 Enriching Lives Overcoming Vitamin and Mineral Malnutrition in Developing Countries Development in Practice Series Asia Development Bank October 2000 www adb org Documents TARs REG tar oth34014 pdf Regional Initiative to Eliminate Micronutrient Malnutrition in Asia Through Public Private Partnership TAR OTH 34014 Retrieved on 2011 10 13 a b Flour Fortification Initiative GAIN Micronutrient Initiative USAID The World Bank UNICEF Investing in the future a united call to action on vitamin and mineral deficiencies p 19 UNICEF The State of the World s Children 2010 Statistical Tables p 15 Vitamin A Micronutrient Information Center Linus Pauling Institute Oregon State University 25 February 2021 Retrieved 1 December 2023 Flour Fortification Initiative GAIN Micronutrient Initiative USAID The World Bank UNICEF Investing in the future a united call to action on vitamin A and mineral deficiencies p 17 Hombali AS Solon JA Venkatesh BT Nair NS Pena Rosas JP May 2019 Fortification of staple foods with vitamin A for vitamin A deficiency Cochrane Database of Systematic Reviews 2019 5 CD010068 doi 10 1002 14651858 CD010068 pub2 PMC 6509778 PMID 31074495 Shah D Sachdev HS Gera T De Regil LM Pena Rosas JP June 2016 Fortification of staple foods with zinc for improving zinc status and other health outcomes in the general population Cochrane Database Syst Rev 2016 6 CD010697 doi 10 1002 14651858 CD010697 pub2 PMC 8627255 PMID 27281654 Marschner Petra ed 2012 Marschner s mineral nutrition of higher plants 3rd ed Amsterdam Elsevier Academic Press ISBN 9780123849052 Umena Yasufumi Kawakami Keisuke Shen Jian Ren Kamiya Nobuo May 2011 Crystal structure of oxygen evolving photosystem II at a resolution of 1 9 A PDF Nature 473 7345 55 60 Bibcode 2011Natur 473 55U doi 10 1038 nature09913 PMID 21499260 S2CID 205224374 Dittmar Heinrich Drach Manfred Vosskamp Ralf Trenkel Martin E Gutser Reinhold Steffens Gunter 2009 Fertilizers 2 Types Ullmann s Encyclopedia of Industrial Chemistry doi 10 1002 14356007 n10 n01 ISBN 9783527303854 External links editMicronutrient Information Center Oregon State University Retrieved from https en wikipedia org w index php title Micronutrient amp oldid 1190761168, wikipedia, wiki, book, books, library,

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