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EPA (Eicosapentaenoic Acid) Deficiency

Macherel...
Macherel…EPA Rich!

What Is EPA?

[dropcap]E[/dropcap]PA (eicosapentaenoic acid) is an essential omega-3 fatty acid that is crucial for fetal brain and retina development and the child’s subsequent neurodevelopment among very many other activities in people of all ages.

Omega-3 fatty acids  are polyunsaturated long chain fatty acids which must be obtained from animal foods since they do not occur in plants.

In all ages, EPA is essential for normal brain function.

Q: Why is EPA essential to the way the brain works?

A: EPA helps nerve cells in the brain to communicate with each other.

In pregnancy, EPA may also play a role in determining the length of gestation and in preventing perinatal depression in the mother.1 and is essential for normal growth in children.

EPA is important building material for the eicosanoids, a large group of highly bioactive hormone-like substances including prostaglandins, leukotrienes, and thromboxanes that are involved in blood clotting, inflammation, and vasoconstriction. Its many important functions are described below.

What Is EPA Deficiency?

Sources:
  1. Coletta JM, Bell SJ, and Roman AS. Omega-3 Fatty Acids and Pregnancy. Rev Obstet Gynecol. 2010 Fall; 3(4): 163–171 []

Alpha-Linolenic Acid Deficiency

Flaxseed Crispbread is Loaded with Alpha-Linolenic Acid.
Flaxseed Crispbread…Loads of Alpha-Linolenic Acid.

What Is Alpha-Linolenic Acid?

[dropcap]A[/dropcap]lpha-linolenic acid is an essential (need/can’t make) polyunsaturated omega-3 fatty acid that must be obtained in the diet. Alpha-linolenic acid is found in plant sources only.

Alpha-linolenic acid is required for normal brain function and nervous system health. It is an important building material for the eicosanoids.

Q: What are eicosanoids?

A: Eicosanoids are a large group of highly bioactive hormone-like substances including prostaglandins, leukotrienes, and thromboxanes that are involved in blood clotting, inflammation, and vasoconstriction (constriction of blood vessels).

Alpha-linolenic acid is a “parent” fatty acid because if sufficient amounts are present in the body, it can be used to produce both eicosapentanoic acid (EPA) and docosahexaenoic acid (DHA), two other critical omega-3 fatty acids.1 However, this conversion is limited. In healthy individuals, the conversion rate of ALA to EPA is less than 5 to 10% and ALA to DHA is only 2 to 5%.

Additionally, a deficient level of the mineral selenium can interfere with the conversion of alpha-linolenic acid into EPA and DHA. Also, folic acid supplement has been shown to increase omega-3 status and, conversely, to decrease omega-3 when folic acid is in deficient in animal models.

What Is Alpha-Linolenic Acid Deficiency?

Sources:
  1. Richardson AJ. The importance of omega-3 fatty acids for behavior, cognition, and mood. Scandinavian Journal of Nutrition. 2003; 47(2):92-8 []

Vitamin E Deficiency

Almonds for Vitamin E!
Almonds for Vitamin E!

What Is Vitamin E?

[dropcap]V[/dropcap]itamin E is not a single vitamin but naturally occurs as a fat-soluble vitamin family that consists of at least 8 distinct molecules.

These molecules include 4 tocopherols (alpha, beta, gamma, and delta) and 4 tocotrienols (alpha, beta, gamma, and delta).

Generally, tocotrienols are more active against chronic disease while tocopherols are more protective of the nervous system.

Vitamin E (for short) is a powerful antioxidant that protects cell membranes and other fat-soluble compounds from oxidative damage by free radicals (molecules that damage cells).

Q: How does vitamin E protect cells from oxidative damage by free radicals?

A: As an example, the oxidative damage to low density cholesterol (LDL – bad type) appears to lead to the deposition of cholesterol in the arterial wall (plaque formation) leading to atherosclerotic disease, commonly called hardening of the arteries.

Regarding inflammation, mast cells are activated by oxidized LDL which results in increased expression of inflammatory cytokines. This finding suggests that vitamin E antioxidant activity in reducing oxidation of LDL lipoprotein may also reduce mast cell activation. Mast cells reside near small blood vessels and, when activated, release potent mediators involved in allergy and inflammation.1

In neutralizing free radicals, vitamin E itself is oxidized (changed) to a free radical. Importantly, conversion of vitamin E back to the original form occurs by reaction with vitamin C. These two vital anti-oxidants go hand in hand.

Vitamin E is essential for normal cerebellar brain function (lower brain), peripheral nerve health and healthy skin.

What Is Vitamin E Deficiency In Celiac Disease and/or Gluten Sensitivity?

Sources:
  1. Shaik-Dasthagirisaheb YB, Varvara G, Murmura G, Saggini A, Caraffa A, Antinolfi P, Tete’ S, Tripodi D, Conti F, Cianchetti E, Toniato E, Rosati M, Speranza L,Pantalone A, Saggini R, Tei M, Speziali A, Conti P, Theoharides TC, Pandolfi F. Role of vitamins D, E and C in immunity and inflammation. J Biol Regul Homeost Agents. 2013 Apr-Jun;27(2):291-5. []

Zinc Deficiency

Oysters Have Mega Zinc!
Oysters Have Mega Zinc!

What Is Zinc?

[dropcap]Z[/dropcap]inc is an essential trace mineral that is involved in numerous aspects of cellular metabolism, being essential for activation of almost 200 enzymes that have vital roles in the body.

Q: What happens when enzymes do not get activated?

A: When enzymes do not get activated, they cannot perform their necessary functions which, in turn, damages health.

Zinc promotes healthy skin, hair, immunity, fertility, and growth.

A daily intake of zinc is required to maintain a steady state because the body has no specialized zinc storage system.1 Functions are more fully described below.

What Is Zinc Deficiency in Celiac Disease?

Sources:
  1. http://ods.od.nih.gov/factsheets/Zinc-HealthProfessional/ []

Glucose Deficiency

DSCN2943aWhat Is Glucose?

[dropcap]G[/dropcap]lucose is the most important simple sugar in human metabolism because it is the primary source of energy for most cells of the body and is particularly required by the brain.

Q: Where does glucose get energy?

A: The energy in glucose originally comes from the sun. Plants capture and bind the sun’s energy by means of photosynthesis. We eat the plants directly or indirectly by eating food from animals  that have eaten plants.

Energy from glucose is obtained in the body from its reaction with oxygen (oxidation) that occurs in power producing mitochondria within cells.1

Humans cannot live without an adequate supply of glucose to the body.

What Is Glucose Deficiency In Celiac Disease and/or Gluten Sensitivity?

Sources:
  1. http://hyperphysics.phy-astr.gsu.edu/hbase/organic/sugar.html accessed 11 14 12 []

Linoleic Acid (LA) Deficiency

nutsWhat Is Linoleic Acid?

[dropcap]L[/dropcap]inoleic acid is an essential omega-6 fatty acid that comes from plant sources. Essential means the body must have it to maintain health and life sustaining functions. Omega-6 fatty acids are polyunsaturated.

Among its many vital roles in the body, linoleic acid composition of intestinal membranes is important for epithelial cell function and disturbances may contribute to the pathophysiology of celiac disease.1

Q: What are epithelial cells?

A: Epithelial cells make up the surface mucosa of the digestive tract and also the respiratory tract, urinary tract and genital tract.

Linoleic acid is an important building material for the eicosanoids, a large group of highly bioactive hormone-like substances including prostaglandins, leukotrienes, and thromboxanes that are involved in blood clotting, inflammation, and vasoconstriction.2

What Is Linoleic Acid Deficiency in Celiac Disease?

Sources:
  1. Steel DM, Ryd W, Ascher H, Strandvik B. Abnormal fatty acid pattern in intestinal mucosa of children with celiac disease is not reflected in serum phospholipids. J Pediatr Gastroenterol Nutr. 2006 Sep; 43(3):318-23. []
  2. Richardson AJ. The importance of omega-3 fatty acids for behavior, cognition, and mood. Scandinavian Journal of Nutrition. 2003; 47(2):92-8 []