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Mineral deficiency

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Mineral deficiency
SpecialtyEndocrinology Edit this on Wikidata

Mineral deficiency is a lack of the dietary minerals, the micronutrients that are needed for an organism's proper health.[1] The cause may be a poor diet, impaired uptake of the minerals that are consumed, or a dysfunction in the organism's use of the mineral after it is absorbed. These deficiencies can result in many disorders including anemia and goitre. Examples of mineral deficiency include, zinc deficiency, iron deficiency, and magnesium deficiency.

Individual deficiency

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Mineral Symptoms & Diagnosis Information
Calcium deficiency Asymptomatic or, in severe cases, can have dramatic symptoms and be life-threatening. Symptoms of include numbness in fingers and toes, muscle cramps, irritability, impaired mental capacity and muscle twitching.[2] Vitamin D related hypocalcemia may be associated with a lack of vitamin D in the diet, a lack of sufficient UV exposure, or disturbances in renal function. Low vitamin D in the body can lead to a lack of calcium absorption and secondary hyperparathyroidism (hypocalcemia and raised parathyroid hormone).[2] Parathyroid related or vitamin D related.
Chromium deficiency Severely impaired glucose tolerance, weight loss, peripheral neuropathy and confusion.[3][4] The authorities in the European Union do not recognize chromium as an essential nutrient,[5] those in the United States do, and identify an adequate intake for adults as between 25 and 45 μg/day, depending on age and sex.[4] Dietary supplements containing chromium are widely available in the United States, with claims for benefits for fasting plasma glucose, hemoglobin A1C and weight loss. Reviews report the changes as modest, and without scientific consensus that the changes have a clinically relevant impact.[6][7]
Copper deficiency Neurological problems including myelopathy, peripheral neuropathy, and optic neuropathy. Blood symptoms of anemia and neutropenia.[8] Copper deficiency can manifest in parallel with vitamin B12 and other nutritional deficiencies.[9] The most common cause of copper deficiency is a remote gastrointestinal surgery, such as gastric bypass surgery, due to malabsorption of copper, or zinc toxicity.
Fluorine deficiency Increased dental caries and possibly osteoporosis Fluorine is not considered to be an essential nutrient, but the importance of fluorides for preventing tooth decay is well-recognized,[10] although the effect is predominantly topical.[11]
iron deficiency fatigue, dizziness/lightheadedness, pallor, hair loss, twitches, irritability, weakness, pica, brittle or grooved nails, hair thinning, pagophagia, restless legs syndrome[12] Iron deficiency may be caused by blood loss, inadequate intake, medications interfering with absorption, mechanical hemolysis from athletics, malabsorption syndromes, inflammation, and parasitic infections. In a 2014 U.S. government consumption survey and reported that for men and women ages 20 and older the average iron intakes were, respectively, 16.6 and 12.6 mg/day.[13]
Iodine deficiency Goiter, congenital iodine deficiency syndrome, and fibrocystic breast changes In areas where there is little iodine in the diet, typically remote inland areas where no marine foods are eaten, iodine deficiency is common. It is also common in mountainous regions of the world where food is grown in iodine-poor soil. Prevention includes adding small amounts of iodine to table salt, a product known as iodized salt. Iodine compounds have also been added to other foodstuffs, such as flour, water and milk, in areas of deficiency.[14]
Manganese deficiency Skeletal deformation and inhibits the production of collagen in wound healing.[15] Manganese is a vital element of nutrition in very small quantities (adult male daily intake 2.3 milligrams).
Magnesium deficiency Tiredness, generalized weakness, muscle cramps, abnormal heart rhythms, increased irritability of the nervous system with tremors, paresthesias, palpitations, low potassium levels in the blood, hypoparathyroidism which might result in low calcium levels in the blood, chondrocalcinosis, spasticity and tetany, migraines, epileptic seizures,[16] The diagnosis is typically based on finding low blood magnesium levels (hypomagnesemia).[17] basal ganglia calcifications[18] and in extreme and prolonged cases coma, intellectual disability or death.[19] Magnesium plays an important role in carbohydrate metabolism and its deficiency may worsen insulin resistance, a condition that often precedes diabetes, or may be a consequence of insulin resistance.[20] Normal magnesium levels are between 0.6 and 1.1 mmol/L (1.46–2.68 mg/dL) with levels less than 0.6 mmol/L (1.46 mg/dL) defining hypomagnesemia.[21] Specific electrocardiogram (ECG) changes may be seen.[21] Causes include low dietary intake, alcoholism, diarrhea, increased urinary loss, poor absorption from the intestines, and diabetes mellitus.[22][23][24] A number of medications may also cause low magnesium, including proton pump inhibitors (PPIs) and furosemide.[25]
Molybdenum deficiency High blood methionine, low blood uric acid, and low urinary uric acid and sulfate concentrations. The amount of molybdenum required is relatively small, and molybdenum deficiency usually does not occur in natural settings.[26]
Potassium deficiency Mild low potassium does not typically cause symptoms.[27] Symptoms may include feeling tired, leg cramps, weakness, and constipation.[21] Low potassium also increases the risk of an abnormal heart rhythm, which is often too slow and can cause cardiac arrest.[21][27] Causes of potassium deficiencyinclude vomiting, diarrhea, medications like furosemide and steroids, dialysis, diabetes insipidus, hyperaldosteronism, hypomagnesemia, and not enough intake in the diet.[21] Normal potassium levels are between 3.5 and 5.0 mmol/L (3.5 and 5.0 mEq/L) with levels below 3.5 mmol/L defined as hypokalemia.[21][28] It is classified as severe when levels are less than 2.5 mmol/L.[21] Low levels may also be suspected based on an electrocardiogram (ECG).[21] Hyperkalemia is a high level of potassium in the blood serum.[21]
Selenium deficiency Significant negative results,[29] affecting the health of the heart, Keshan disease and the nervous system; contributing to depression, anxiety, and dementia; and interfering with reproduction and gestation. People dependent on food grown from selenium-deficient soil may be at risk for deficiency.[30]
Sodium deficiency Mild symptoms include a decreased ability to think, headaches, nausea, and poor balance.[31][32] Severe symptoms include confusion, seizures, and coma.[31][33][34] The causes of hyponatremia are typically classified by a person's body fluid status into low volume, normal volume, or high volume.[35] Low volume hyponatremia can occur from diarrhea, vomiting, diuretics, and sweating.[35] Normal volume hyponatremia is divided into cases with dilute urine and concentrated urine.[35] Cases in which the urine is dilute include adrenal insufficiency, hypothyroidism, and drinking too much water or too much beer.[35] Cases in which the urine is concentrated include syndrome of inappropriate antidiuretic hormone secretion (SIADH).[35] High volume hyponatremia can occur from heart failure, liver failure, and kidney failure.[35] Conditions that can lead to falsely low sodium measurements include high blood protein levels such as in multiple myeloma, high blood fat levels, and high blood sugar.[36][37]
Zinc deficiency Common symptoms include increased rates of diarrhea. Zinc deficiency affects the skin and gastrointestinal tract; brain and central nervous system, immune, skeletal, and reproductive systems. Zinc deficiency in humans is caused by reduced dietary intake, inadequate absorption, increased loss, or increased body system use. The most common cause is reduced dietary intake. In the U.S., the Recommended Dietary Allowance (RDA) is 8 mg/day for women and 11 mg/day for men.[38]

See also

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References

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  1. ^ "Introduction: Mineral Deficiency and Toxicity: Merck Manual Professional". Retrieved 2008-11-29.
  2. ^ a b Murphy, E; Williams (2009). "Hypocalcemia". Medicine. 37 (9): 465–468. doi:10.1016/j.mpmed.2009.06.003.
  3. ^ Freund, Herbert; Atamian, Susan; Fischer, Josef E. (February 1979). "Chromium deficiency during total parenteral nutrition". JAMA. 241 (5): 496–498. doi:10.1001/jama.1979.03290310036012. PMID 104057.
  4. ^ a b "Chromium". NCBI Bookshelf. 2022-03-15. Retrieved 2022-03-15.
  5. ^ "Overview on Dietary Reference Values for the EU population as derived by the EFSA Panel on Dietetic Products, Nutrition and Allergies" (PDF). 2017.
  6. ^ Costello, Rebecca B.; Dwyer, Johanna T.; Bailey, Regan L. (2022-01-27). "Chromium supplements for glycemic control in type 2 diabetes: limited evidence of effectiveness". Nutrition Reviews. 74 (7): 455–468. doi:10.1093/nutrit/nuw011. PMC 5009459. PMID 27261273.
  7. ^ Onakpoya I, Posadzki P, Ernst E (2013). "Chromium supplementation in overweight and obesity: a systematic review and meta-analysis of randomized clinical trials". Obes Rev. 14 (6): 496–507. doi:10.1111/obr.12026. PMID 23495911. S2CID 21832321.
  8. ^ Scheiber, Ivo; Dringen, Ralf; Mercer, Julian F. B. (2013). "Chapter 11. Copper: Effects of Deficiency and Overload". In Astrid Sigel, Helmut Sigel and Roland K. O. Sigel (ed.). Interrelations between Essential Metal Ions and Human Diseases. Metal Ions in Life Sciences. Vol. 13. Springer. pp. 359–387. doi:10.1007/978-94-007-7500-8_11. ISBN 978-94-007-7499-5. PMID 24470097.
  9. ^ Halfdanarson, Thorvardur R.; Kumar, Neeraj; Li, Chin-Yang; Phyliky, Robert L.; Hogan, William J. (2008-02-13). "Hematological manifestations of copper deficiency: a retrospective review". European Journal of Haematology. 80 (6). Wiley: 523–531. doi:10.1111/j.1600-0609.2008.01050.x. ISSN 0902-4441. PMID 18284630. S2CID 38534852.
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  29. ^ Kieliszek, Marek (3 April 2019). "Selenium–Fascinating Microelement, Properties and Sources in Food". Molecules. 24 (7): 1298. doi:10.3390/molecules24071298. PMC 6480557. PMID 30987088.
  30. ^ Jones, Gerrad D.; Droz, Boris; Greve, Peter; Gottschalk, Pia; Poffet, Deyan; McGrath, Steve P.; Seneviratne, Sonia I.; Smith, Pete; Winkel, Lenny H. E. (2017-03-14). "Selenium deficiency risk predicted to increase under future climate change". Proceedings of the National Academy of Sciences. 114 (11): 2848–2853. doi:10.1073/pnas.1611576114. ISSN 0027-8424. PMC 5358348. PMID 28223487.
  31. ^ a b Babar, S. (October 2013). "SIADH Associated With Ciprofloxacin" (PDF). The Annals of Pharmacotherapy. 47 (10): 1359–63. doi:10.1177/1060028013502457. ISSN 1060-0280. PMID 24259701. S2CID 36759747. Archived from the original (PDF) on May 1, 2015. Retrieved November 18, 2013.
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  36. ^ Filippatos, TD; Liamis, G; Christopoulou, F; Elisaf, MS (April 2016). "Ten common pitfalls in the evaluation of patients with hyponatremia". European Journal of Internal Medicine. 29: 22–25. doi:10.1016/j.ejim.2015.11.022. PMID 26706473.
  37. ^ Marx, John; Walls, Ron; Hockberger, Robert (2013). Rosen's Emergency Medicine – Concepts and Clinical Practice (8 ed.). Elsevier Health Sciences. pp. 1639–42. ISBN 978-1455749874. Archived from the original on 2016-08-15.
  38. ^ "Zinc" Archived 19 September 2017 at the Wayback Machine, pp. 442–501 in Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc. National Academy Press. 2001.
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