An Analysis of Iron as an essential nutrient for Skin
Keywords:
Compounds, Cosmetics, Iron, Nutrient, SkinAbstract
Iron compounds are utilized as colorants in many skincare industry for both the epidermis, hair, and nails. Iron plays a key role as a metals in water in the actual functioning and properly functioning metamorphosis of both the skin, as well as skin and nail general wellbeing, according to the evidence. Through furthermore to becoming more a valuable protein for reactive oxygen and membrane potential, iron plays a key role as either a contaminant in the actual functioning and fully functioning metamorphosis of the skin, as well as skin and nail health. Commercially, iron compounds are used in monomers, linens, and aesthetics, where the colour range and simplicity of use of diverse metallic ions salts are favoured. Iron oxides are being used as colours to face powdered, lips, and other aesthetics, and come in a variety of colours ranging as black to brown to red and yellow. These effects that iron from aesthetic sources on the nutrition of human skin are discussed. The present study focuses on the morphological and biochemical importance of iron during skin regulation and damage repair processes under normal conditions. It talks at length as to how the appearance of the skin, clothing, and nails might signal certain things. Excesses or shortages in iron, but it also highlights many areas of iron physiology where further study is needed.
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References
F. A. S. Addor, J. C. Vieira, and C. S. A. Melo, “Improvement of dermal parameters in aged skin after oral use of a nutrient supplement,” Clin. Cosmet. Investig. Dermatol., 2018.
J. G. Archibald, “Nutrient Composition of Banana Skins,” J. Dairy Sci., 1949.
L. E. Griffin and L. L. Dean, “Nutrient Composition of Raw, Dry-Roasted, and Skin-On Cashew Nuts,” J. Food Res., 2017.
P. Basmaji, G. Molina de Olyveira, and M. M. Kanjou, “Skin Cancer Treatment by Nanoskin Cellulose: Future Cancer Wound Healing,” J. Biomater. Nanobiotechnol., 2021.
J. A. Wright, T. Richards, and S. K. S. Srai, “The role of iron in the skin and cutaneous wound healing,” Frontiers in Pharmacology. 2014.
B. D. Adams, R. Lazova, N. C. Andrews, and L. M. Milstone, “Iron in skin of mice with three etiologies of systemic iron overload,” J. Invest. Dermatol., 2005.
E. Dao, M. P. Zeller, B. C. Wainman, and M. J. Farquharson, “Feasibility of the use of a handheld XRF analyzer to measure skin iron to monitor iron levels in critical organs,” J. Trace Elem. Med. Biol., 2018.
T. Pinheiro et al., “Distribution and quantitation of skin iron
in primary haemochromatosis: Correlation with total body iron stores in patients undergoing phlebotomy,” Acta Derm. Venereol., 2014.
Y. zhuo Zhang, J. Li, J. Zhao, W. Bian, Y. Li, and X. jie Wang, “Adsorption behavior of modified Iron stick yam skin with Polyethyleneimine as a potential biosorbent for the removal of anionic dyes in single and ternary systems at low temperature,” Bioresour. Technol., 2016.
M. Estevam et al., “Trypanosoma cruzi: In vivo evaluation of iron in skin employing X-ray fluorescence (XRF) in mouse strains that differ in their susceptibility to infection,” FEMS Immunol. Med. Microbiol., 2012.
F. Dian Nila Sari and R. Astili, “KANDUNGAN ASAM SIANIDA DENDENG DARI LIMBAH KULIT SINGKONG The Level of Cyanide Acid in Cassava’s Skinned Flaky,” J. Dunia Gizi, 2018.
G. Minniti, S. R. Sandve, L. H. Hagen, and S. Lind, “The Farmed Atlantic Salmon ( Salmo salar ) Skin – Mucus Proteome and Its Nutrient Potential for,” Genes (Basel)., 2019.
J. J. Name, A. C. R. Souza, A. R. Vasconcelos, P. S. Prado, and C. P. M. Pereira, “Zinc, Vitamin D and Vitamin C: Perspectives for COVID-19 With a Focus on Physical Tissue Barrier Integrity,” Frontiers in Nutrition. 2020.
T. M. McKeever, S. A. Lewis, H. Smit, P. Burney, J. Britton, and P. A. Cassano, “Serum nutrient markers and skin prick testing using data from the Third National Health and Nutrition Examination Survey,” J. Allergy Clin. Immunol., 2004.
S. Okamoto, K. Ogai, K. Mukai, and J. Sugama, “Association of skin microbiome with the onset and recurrence of pressure injury in bedridden elderly people,” Microorganisms. 2021.
E. Pelle et al., “Menopause increases the iron storage protein ferritin in skin,” J. Cosmet. Sci., 2013.
I. Youssry et al., “Skin iron concentration: A simple, highly sensitive method for iron stores evaluation in thalassemia patients,” Hemoglobin, 2007.
Q. Qi, “Repair of soft tissue defects in leg and ankle and reconstruction of flap sensory function by micro pump pre expansion of pedicle skin flap based on the nutrient vessels of skin nerve in 7 cases,” Chinese J. Clin. Rehabil., 2006.
Y. Wu et al., “Effects of Dietary Energy and Protein Levels on Free Force-Feed Peking Ducks,” J. Appl. Poult. Res., 2019.
M. Daszkiewicz, “The role of nutrition in the prevention and therapy of selected skin diseases,” Aesthetic Cosmetol. Med., 2021.
M. J. Araníbar-Araníbar et al., “Nutritive value and digestibility of macronutrients from sheep and alpaca skin hydrolysates as a new alternative in juvenile rainbow trout (Oncorhynchus mykiss) feeding,” Fish. Aquat. Sci., 2020.
U. M. Musazzi et al., “Impact of semi-solid formulations on skin penetration of iron oxide nanoparticles,” J. Nanobiotechnology, 2017.
I. Cavill and A. Jacobs, “Iron Kinetics in the Skin,” Br. J. Haematol., 1971.
J. F. Preuss et al., “Widespread Pig Farming Practice Linked to Shifts in Skin Microbiomes and Disease in Pond Breeding Amphibians,” Environ. Sci. Technol., 2020.
D. K. Siri Sindhura and V. Jain, “Challenges in formulating herbal cosmetics,” International Journal of Applied Pharmaceutics. 2018.
