1 / 42

Minerals: Inorganic regulators

Minerals: Inorganic regulators. Williams, 8 th edition Chapter 8. Minerals. RDA for minerals: See p. 281, table 8.1 Major : > 5 grams stored in body Trace : < 5 g stored Major : Calcium, Chloride, Magnesium, Phosphorus, Potassium, Sodium, and Sulfur.

Download Presentation

Minerals: Inorganic regulators

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Minerals: Inorganic regulators Williams, 8th edition Chapter 8

  2. Minerals • RDA for minerals: See p. 281, table 8.1 • Major: > 5 grams stored in body • Trace: < 5 g stored • Major: Calcium, Chloride, Magnesium, Phosphorus, Potassium, Sodium, and Sulfur. • Trace: Boron, Chromium, Cobalt, Copper, Fluoride, Iodine, Iron, Manganese, Selenium, and Zinc.

  3. Basics • Minerals are inorganic elements • Main functions: • Building blocks for bones, teeth, muscles, and other body tissues • Some are components of “metalloenzymes” involved in regulation of metabolism • Some are ions or electrolytes (particles carrying electric charges)

  4. Read Table 8.2 on p. 283 for complete list of: • All major mineral names • Food sources • Major functions in body • Deficiency symptoms • Toxicity symptoms (from excessive consumption)

  5. Calcium • 1.5-2% body weight • 99% in skeleton: 1% in extracellular fluid (nerve transmission, muscle contraction, blood coagulation) •  Positive vs. negative balance: Intake > excretion  + Ca Balance • Intake < excretion  (-) Ca Balance • Intake = excretion  Ca Balance • Intake > excretion  + Ca balance • Should be in + Ca balance during growth

  6. Calcium balance • Blood level constant • Ca+ intake and activity affect bone density • Bone mineral content (BMC) and bone mineral density (BMD) is > in pre- menopausal women who consume > 500 mg/day. • Also > in those with physical activity > 45 min./day 4-7 days/week • In women who exercise regularly: BMD > in radial (thumb side of forearm) area • Ca fortified foods often have 100% RDA/serving

  7. Effect of exercise on calcium balance: • Calcaneal (Achilles tendon – back of heel) area > in women who were very active as children • Lumbar (region of back and side between hips and pelvis), and femoral (thigh bone) areas also had > BMD in regular exercising females.

  8. Osteoporosis and sports • Female athlete triad (see next slide) • Secondary amenorrhea: cessation of menses for extended time • Athletic amenorrhea: same but observed in athletic females, may be more intermittent • Low serum calcium levels may impair neuromuscular functions

  9. Main problem with low Ca+ intake  stress fractures Female Athlete Triad Image from http://nsca.hkeducationcenter.com/courses/OEC_Previews/hf-ft303_preview/images/fig_04.gif

  10. Ca+ supplementation: • Absorption in > in early puberty (age 10-11) • Calcium citrate  iron absorption • Ca+ carbonate requires gastric acid for absorption (may  absorption of non- heme Fe in food) • Post menopausal? If no ERT, then supplementation of 1500 mg/day   rate of bone loss.

  11. If taking supplements, follow recommendations: Smaller doses (< 500) mg between meals for better absorption (Except Ca + C03 which requires gastric acid for absorption) See Calcium balance in adults: figure 8.1 on p. 284 See Table 8.3, p. 286: Osteoporosis risks

  12. Phosphorus: • Mostly stored in bone • Structural function in bones/teeth • Part of nucleic acids • Needed for E metabolism (part of high energy complex, ATP) • Part of phospholipids – (structure to cell membrane) • Assists in DNA formation

  13. “Phosphate loading” • Note: Phosphorus is present in all animal tissues  deficiency rare • Not recommended as a supplement (may  Ca+ absorption) • Supplements may V02 max and  blood lactate • “Phosphate loading” controversial

  14. Phosphorous supplements, cont. • Elevated inorganic phosphate in cells activates glycolysis  increases glycolytic metabolite “DPG”  believed to facilitate 02 delivery to working muscles • May also creatine phosphate • Studies inconclusive

  15. Magnesium • Co-factor in enzymes used in CHO metabolism. • Part of “ATPase” involved in muscle contraction and all functions involving ATP • Helps make “glutathione” (natural antioxidant) • Co-factor in ATP dependent reactions • Blood levels  during exercise (i.e. more released from tissue); aids physiological reactions

  16. Magnesium, cont. • Deficiency would compromise endurance • Symptoms of deficiency: apathy, weakness, muscle twitching, cramps • High doses have laxative effect Sources: Milk, yogurt, whole grains, green leafy vegetables, beans, nuts 

  17. Effects of exercise on Mg: • With greater exercise: > urinary Mg loss • Hormones (ADH and aldosterone) that regulate kidney’s handling of Mg, are increased during exercise • Plasma levels  after long distance run (> 2 hours); RBC take up Mg from ECF • Mg needed by muscles to assist in metabolic processes. • intensity resistance exercise   blood Mg, (but believed to be related to changes in plasma volume associated with this type of exercise)

  18. Read Table 8.4 on p. 295 for complete list of: • All trace mineral names • Food sources • Major functions in body • Deficiency symptoms • Toxicity symptoms (from excessive consumption)

  19. Iron • See figure 8.4 on p. 296 • Primary role in hemoglobin synthesis • Transports 02 from lungs  body tissues • Aids myoglobin synthesis • Stored in bone marrow, liver, spleen • Essential for electron transfer

  20. Causes of low iron status in athletes: •  plasma volume •  iron excretion •  GI bleeding in long distance runners • Distance runners develop hematuria (Hgb/Mgb in urine) • Repeated foot contact with ground  RBC hemolysis

  21. Iron, cont. Ø  RDA: women - 15 mg/day; Men: (10 mg/day) Ø  Low Hgb: < 13 mg/dl ØSmall amount Fe is lost in sweat Ø  Supplements beneficial in replacing iron stores but too much is toxic Ø NOTE: excess iron  accumulates in liver as “hemosiderin”  excess can cause hemochromatosis if genetically predisposed  very damaging to liver Ø  Also, iron is a “pro-oxidant”  may oxidize LDL leading to plaque in arteries

  22. Sports anemia • Not a true anemia • Appears to develop in early stages of training • Increased plasma volume  dilution of RBC and lower Hgb concentration • Adequate dietary iron is essential • Supplements not usually needed

  23. Iron recommendations and sources • Contained in hemoglobin and myoglobin or occurs as part of enzymes in the energy-yielding pathways • Lost through menstruation and other bleeding; the shedding of intestinal cells protects against overload. Too much iron is toxic. • Heme iron (bound to hgb) has  bioavailability than non-heme (plant courses)

  24. Dietary factors • Increase iron absorption: • Vitamin C • Heme iron • Hinder iron absorption: • Tea • Coffee • Calcium and phosphorus • Phytates and fiber

  25. Copper • Catalyst for iron absorption and mobilization; • Assists in collagen formation and norepinephrine formation • Supeoxide dismutase (SOD), a natural antioxidant produced in body, contains copper. • Plasma concentration of copper during acute exercise. • No RDA for copper (Found in liver, seafood, nuts, and legumes) • Supplements not recommended

  26. Zinc • Has role in metabolic functions • Assists enzymes in all cells. • Involved in immune function and support of WBC in immune system • Toxic in large amounts • Animal foods are best sources. • Supplements not recommended

  27. Zinc works with enzymes that: • Make parts of cells' genetic material • Make heme in hemoglobin; help pancreas with digestive functions; helps metabolize CHO, protein, fat • Liberate vitamin A from liver storage

  28. Zinc sources: • Animal protein • Whole grains • Fortified cereal

  29. Zinc deficiency: •  Immunity • Growth retardation • Poor appetite • Note: athletes who over-restrict calories (e.g. gymnasts and wrestlers) are most at risk for Zn deficiency

  30. Zinc supplementation and performance • One study:  isometric endurance and isokinetic strength during fast contractions • Additional research is needed • Megadoses (25-50 mg/day): may impair absorption of copper and iron • Supplements > 100 mg/day: May  LDL-cholesterol and  HDL • Anemia may result •  doses  may impair immune system, cause nausea /vomiting • Supplements not needed

  31. Chromium • Works with insulin to control blood glucose • Potentiates effects of insulin in CHO, lipid, and protein metabolism • Forms complex with nicotinic acid and glutathione, forming organic compound known as “Glucose tolerance factor” (GTF) • Caution: prolonged supplementation of > 200 mcg/day  iron deficiency

  32. Chromium cont. • Promoted as “alternative to anabolic steroids”  claimed to increase lean mass • Research reports conflict • No hard evidence that it increases lean mass • Megadoses: toxic to liver

  33. Research conclusions: chromium • Little to no effect on strength, body composition and exercise endurance in adults • Study (Lukaski, 2004): chromium had no effect on body fat or lean mass • Glucose effectiveness: chromium improved insulin sensitivity in obese subjects with family history of Type II diabetes.

  34. Selenium • Works with vitamin E to protect body compounds from oxidation • Deficiency: heart disease • Mainly found in protein rich foods • Strenuous exercise can  free-radical production • May prevent lipid peroxidation • Supplements (100 mcg/day) may prevent heart disease • Excessive doses (> 200 micrograms/day) may be toxic

  35. Boron: * Influences calcium and magnesium metabolism * Alleged benefit:  testosterone, growth and strength * Research: postmenopausal women deprived of boron, then given supplements for 48 days  doubled serum testosterone. * Subsequent research: no  in testosterone, lean mass, or strength in body builders * Found in dried fruit, nuts, peanut butter, grapes, apples, and dairy products

  36. Vanadium (Vanadyl Sulfate) • Insulin-like functions • Inhibits cholesterol; transports glucose into cells • Aided diabetic rats: > glucose tolerance • No effect in humans on improving muscle glycogen synthesis and storage

  37. Vanadyl sulfate as ergogenic aid: • No data support its role as an anabolic supplement in humans • Studies: no significant changes in body composition, or weight training. • Has corrective effect on diabetes-induced rats - normalized glucose concentrations and insulin levels

  38. Does exercise increase overall need for minerals? • Exercise may  mineral loss by: • Mobilization into circulation • Removal by kidneys • Sweat loss • Some shedding from GI tract • Dietary adequacy essential; one-a-day type of supplement with 100% of RDA may be good “insurance,” megadoses are harmful

More Related