25: Minerals & Mineral Deficiencies Flashcards
What are the energy releasing B vitamins?
Energy releasing = B1 - B7:
- Thiamine (B1)
- Riboflavin (B2)
- Niacin (B3)
- Pantothenic acid (B5)
- Pyridoxine (B6)
- Biotin (B7)
What are the hematopoetic B vitamins?
Hematopoietic
- Folate (B9)
- Cobalamin (B12)
Deficiencies give anemias
Describe B9 Folate function & deficiency
Function: precursor for tetrahydrofolate, which is co-enzyme involved in generating precursors for DNA & protein synthesis.
Deficiency:
- -neural tube defects in newborns of deficient mothers
- -macrocytic anemia
- hyperhomocysteinemia (cardiovascular risk)
Susceptible groups:
- -pregnant women*, elderly, alcoholics, patients with certain long-term drug treatments
- -people with genetic polymorphisms in folate metabolism
Describe neural tube defects & their relationship with B9, Folate.
Folate supplementation can prevent certain neural tube defects. Inadequate folate early in pregnancy appears to be associated with neural tube defects. Mothers may have inadequate folate without symptoms of deficiency.
Demand for folate is very high throughout pregnancy and lactation.
Grain products enriched in folate have lowered the risk of deficiency, but folate supplements are still routinely recommended for women of child-bearing age.
Describe B12 Cobalamin function & deficiency
• Function:
- -coenzyme in methionine synthesis and in conversion of methylmalonyl CoA to succinyl CoA
- -needed in folate metabolism
• Deficiency: Pernicious anemia (megaloblastic
anemia) with demyelination–gives neuralogic issues
• Susceptible groups: Elderly, patients with malabsorption diseases, long-term vegetarians.
Describe the structure & breif physio of Cobalamin
• Cobalamin contains a cobalt.
• B12 in food must be released from protein
by acid hydrolysis in the stomach. It then must
bind to intrinsic factor to be absorbed in the
ileum.
• Lack of intrinsic factor is a the most common form of B12 deficiency.
______ and _____ deficiencies result in megaloblastic anemias.
Folate and B12 deficiencies result in megaloblastic anemias.
Both the terms “megaloblastic” and “macrocytic” refer to the large size of RBCs in the presence of Folate/Vitamin B12 deficiency.
This condition arises from a deficiency in nucleotides, leading to decreased DNA and RNA synthesis. Cells increase in size without dividing, and large immature* RBCs do not carry sufficient oxygen.
Pernicious anemia refers specifically to a B12-deficient anemia arising from lack of intrinsic factor
What are minerals?
Minerals are:
• Inorganic compounds critical for human
physiology. Remember that vitamins are ORGANIC. Minerals are typically ions.
• Many minerals are enzyme cofactors, but
they can also play structural roles in proteins or on their own
• Categorized as macrominerals and
microminerals based on level required
(doesn’t correlate with importance–DO NOT NEED TO KNOW FOR TEST).
• Often work in parallel with vitamins, so
supplements often contain both.
Describe Calcium function & deficiency
Functions: • Major component of bone • Signaling • Coagulation • Muscle contraction • Neurotransmission
Deficiency:
Mild: muscle cramps, osteoporosis
Severe: rickets (vitamin D-Calcium connection). This is why milk (full of calcium) is fortified with vitamin D, so it can be absorbed.
Susceptible groups:
Children, adult women, elderly
Calcium comes solely from ____ and its distribution is highly regulated
Calcium comes solely from diet and its distribution is highly regulated
• 98% of calcium is in bone and teeth
–Hydroxyapatite is the basic mineral component of bones and teeth: Ca5(PO4)3OH
–bone is the body’s calcium reservoir: bone releases Ca2+ if serum levels are insufficient
- 2% of calcium in rest of the body
- Low serum calcium signals enhanced intestinal absorption and stimulates bone resorption
Describe Osteoporosis
Osteoporotic bone from calcium deficiency is porous. It is essentially a resorption of bone due to loss of balance between osteoclasts & osteoblasts.
Calcium intake during period when bone is reaching maximum density (age 10-35
in women) is important to prevent osteoporosis.
Even higher levels of calcium intake are required to maintain bone mass in postmenopausal women. (Exercise also helps maintain bone density).
Describe Magnesium function & deficiency
Functions:
• Essential for many enzymes using MgATP as substrate (Mg ATPases)
• Present at high levels in bone
- Deficiency: Weakness, tremors, cardiac arrhythmia
- Susceptible groups:
- -Alcoholics
- -Patients taking diuretics, or experiencing severe vomiting and diarrhea
Describe Phosphorous function & deficiency
Functions:
- Mostly present in phosphates
- Major component of bone–hydroxyapatite
- Constituent of nucleic acid & membrane lipids
- Required in ALL energy producing runs
• Deficiency: Rare (since quite abundant in food supply )—can result in rickets, muscle weakness and breakdown, seizures. Note that any deficiency of anything that has to do with bone can give rickets.
Describe Iron function & deficiency
• Function:
- -O2/CO2 transport in hemoglobin
- -oxidative phosphorylation
- -cofactor in several nonheme iron proteins and cytochromes (redox properties of iron are important)
• Deficiency: Microcytic hypochromic anemia, decreased immunity. MOST COMMON NUTRITIONAL DEFICIENCY IN THE US & WORLD.
• Susceptible groups: Common in children and
menstruating women, pregnant women, and
elderly
Iron absorption and distribution in the body are _____ regulated.
Iron absorption and distribution in the body are tightly regulated.
Reduction of Fe3+ to Fe2+ is promoted by vitamin C in diet. (Vitamin C deficiency causes mild anemia.)
Low pH in stomach helps release Fe3+ from ligands and makes it bioavailable.
Uptake of iron in mucosal cells of small intestine is regulated in response to iron-deficient or overload states.
Iron is carefully “escorted” both in circulation and in cells because of the potential for inadvertent redox damage.
