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DHA (Docosahexaenoic Acid) Deficiency

Smoked Salmon...Brain Food that's Good for the Eyes!
Salmon…Brain Food That’s Good for Your Eyes, Heart, Blood Vessels, Blood Sugar, Liver, Muscles, and Fights Inflammation!

What Is DHA?

[dropcap]D[/dropcap]ocosahexaenoic acid (DHA) is an essential omega-3 fatty acid that is abundant in the brain, being crucial in brain structure. As such DHA is a key component of neuronal membranes together with arachidonic acid (a major opposing omega-6 fatty acid), making up 15-20% of the brain’s dry mass.

This polyunsaturated fatty acid is obtained from fish sources of food.

In healthy human volunteers, positron emission tomography (PET) has shown that the normal human brain consumes 4.6 mg/day of DHA.1

DHA is particularly concentrated in highly active membranes such as nerve synapses (junctions) and photoreceptors in the eye (retina).

Q: How much DHA is in the retina?

A: DHA makes up more than 30% of the retina.2

In other roles, DHA 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.

DHA has been shown to increase insulin sensitivity as opposed to the opposite problem of insulin resistance, to improve muscle mass, and protect against non-alcoholic fatty liver disease.3

Egert et al. in a study of people aged 19 to 43 years with normal cholesterol showed that DHA intake significantly increased serum HDL (good) cholesterol. Also, DHA significantly decreased fasting serum triglycerides.4

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

Sources:
  1. Rapoport SI. Brain arachidonic and docosahexaenoic acid cascades are selectively altered by drugs, diet and disease. Prostaglandins Leukot Essent Fatty Acids. 2008 Sep-Nov;79(3-5):153-6. Epub 2008 Oct 29. []
  2. Richardson AJ. The importance of omega-3 fatty acids for behavior, cognition, and mood. Scandinavian Journal of Nutrition. 2003;47(2):92-8 []
  3. Espinosa A, Valenzuela R, González-Mañán D, D’Espessailles A, Guillermo Gormaz J, Barrera C, Tapia G. Prevention of liver steatosis through fish oil supplementation: correlation of oxidative stress with insulin resistance and liver fatty acid content. Arch Latinoam Nutr. 2013 Mar;63(1):29-36. []
  4. Egert S, Kannenberg F, Somoza V, et al. Dietary alpha-linolenic acid, EPA, and DHA have differential effects on LDL fatty acid composition but similar effects on serum lipid profiles in normolipidemic humans. J Nutr. 2009;139:861–868. doi: 10.3945/jn.108.103861 []

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 []

Anemia, Iron Deficiency

Red Blood Cell Comparison. Courtesy medindia.com
Red Blood Cell Comparison. Courtesy medindia.com

What Is Iron Deficiency Anemia?

[dropcap]I[/dropcap]ron deficiency anemia is a blood cell disorder that is characterized by formation of small, pale red blood cells, causing tissue hypoxia. Hypoxia is the inability to meet the demands of the body for oxygen.

Q: Why do small, pale red blood cells cause tissue hypoxia?

A: Small, pale red blood cells (erythrocytes) cause tissue hypoxia because they are not able, as do normal erythrocytes, to pick up adequate oxygen from the lungs and carry it to cells that use oxygen.

Red blood cell production and function are dependent on a sufficient level of iron in the body and also the ability to use available iron to make hemoglobin in red blood cells.

Hemoglobin is a protein that binds oxygen in red blood cells to be carried by the bloodstream to cells throughout the body. In iron deficiency anemia,  hemoglobin in females is below 12.5g/dl (normal range is 12.5 to 16g/dl) and in males it is below 13.5g/dl (normal range is 13.5 to 17.5g/dl).

Iron must be obtained from the diet, since the body cannot make it, but there are various factors that can interfere with absorption and use in the body, causing anemia. Iron absorption from the gut first requires ionization, or gaining a positive electrical charge, in the strongly acidic environment of stomach juice. Ionized iron, only, can be absorbed in the duodenum, which receives the acidic contents of the stomach before it is neutralized further along.

Dietary iron can be heme or non-heme depending on the food source. Heme iron obtained only from animal food sources is absorbed into the bloodstream by active transport across the brush border (microvilli) which cover the multitudinous villi of the small intestinal lining.

Non-heme iron obtained from plants must bind with apoprotein after entering the enterocyte (surface cell of small intestinal lining) to be ferried to the underlying basolateral membrane and exited by active transport into the bloodstream.

Frequently, chronic anemia due to iron deficiency is accompanied by increased platelets, and this thrombocytosis resolves with iron repletion (normal iron level). Conversely, in severe iron deficiency anemia, patients may have thrombocytopenia (low platelets), which also resolves with iron therapy.1

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

Sources:
  1. Koury M and Rhodes M. How to approach chronic anemia. Hematology Am Soc Hematol Educ Program. 2012;2012:183-90. doi: 10.1182/asheducation-2012.1.183. []

Vitamin B1 (Thiamin) Deficiency

thiamin deficiency What Is Thiamin?

[dropcap]T[/dropcap]hiamin, also called vitamin B1, is an essential vitamin that is required to convert foodstuffs into energy and for the health and proper functioning of the nervous, muscular and cardiovascular systems.

In the bloodstream, 90% of active thiamin (TPP) is carried by red blood cells while 10% is transported in the bloodstream as free thiamin and thiamin monophosphate bound mostly to the protein albumin.

In the diet, animal food sources provide active thiamin while plant food sources provide free thiamin.1

Urinary excretion of thiamin cannot be detected when vitamin intake is below the required levels. On the other hand, when intake exceeds saturation in the body, thiamin and/or its metabolites are actively excreted into urine to prevent excessive toxicity of the vitamins.2

In patients who have thiamin deficiency, the most common conditions that bring them to a clinician include neuropathies, depression, myalgia, cardiomyopathies or takes diuretics and/or eat a high carbohydrate diet.3

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

Sources:
  1. Kathleen Mahan and Sylvia Escott-Stump, ed. Krause’s Food, Nutrition & Diet Therapy, 10th Edition. Philadelphia, PA. USA: W.B. Saunders Company, 2000. []
  2. Shibata K, Hirose J, Fukuwatari T. Relationship Between Urinary Concentrations of Nine Water-soluble Vitamins and their Vitamin Intakes in Japanese Adult Males. Nutr Metab Insights. 2014 Aug 5;7:61-75. doi: 10.4137/NMI.S17245. []
  3. Spectracell Labs, Inc. []

October 30, 2015 Newsletter: Apathy

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Zincemia (Low Zinc Blood Level)

Zincemia low zinc level symptom of celiac disease and glutenWhat Is Zincemia?

[dropcap]Z[/dropcap]incemia means the zinc level in blood plasma is too low to meet metabolic needs of the body for this mineral.

Q: How important is a normal blood level of zinc?

A: A low blood level of zinc is characterized by widespread alterations in energy metabolism, growth, hemoglobin, carbon dioxide transport, hormone activity, insulin storage, many enzyme activities, prostaglandin function, collagen production, male fertility, protein synthesis, and vitamin A metabolism.

What Is Zincemia In Celiac Disease and/or Gluten Sensitivity?

Copper Deficiency

mmm...copper is in chocolate!
mmm…copper is in chocolate and nuts!

What Is Copper Deficiency?

[dropcap]C[/dropcap]opper is an essential trace element that is required for a number of enzymes which are necessary for normal metabolic function.

In the body almost all the copper is present as a component of copper proteins which are produced and controlled by the liver.

Q: How does the liver control copper?

A: The liver maintains proper copper balance by binding free copper to proteins and by excreting excess copper as part of bile that is then emptied into the intestinal tract and excreted in stool.

Metabolic balance studies have demonstrated that daily copper losses are approximately 1.3 mg/day.1

Among its specific functions listed below, copper is essential for energy production, blood and nerve functions, blood components, immunity, and collagen tissue. The copper enzyme, lysyl oxidase, is involved in the cross-linking of collagen in forming the framework for depositing calcium and other minerals to build and repair bone.

Animal studies suggest that adequate copper levels during pregnancy are critical to development of higher brain function in the offspring.2

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

Sources:
  1. Williams DM. Copper deficiency in humans. Semin Hematol. 1983 Apr; 20(2):118-28. []
  2. Fisgin T, Yarali N, Duru F, Usta B, Kara A. Hematologic manifestation of childhood celiac disease. Acta Haematol. 2004;111(4):211-4. []

Vitamin B3 (Niacin) Deficiency

SumptuousTuna For Niacin.
Sumptuous Tuna For Niacin.

What Is Vitamin B3 (Niacin)?

[dropcap]N[/dropcap]iacin is an essential water-soluble B vitamin that is required by all cells of the body.

During digestion of food containing it, niacin (the form in food) is changed in the small intestines to the active form niacinamide (niacin plus an amide group), which is then absorbed into the bloodstream. 

Niacinamide is converted by the body into co-enzymes which are present in all cells. These are niacinimide adenine dinucleotide (NAD) and NADP. NADP is formed when the body adds a phosphate to NAD.

Q: How do these enzymes work?

A: These enzymes function in oxidation-reduction reactions essential for release of energy from carbohydrates, fats, and proteins and are needed as components for more than 200 enzymes involved in metabolism.

In addition to producing energy, niacinamide is essential for healthy skin and the mucosal lining of the digestive tract, normal functioning of the brain and nervous system, and production of steroid hormones in adrenal glands and hormones in sex glands.  Functions are more fully described below.

Urinary excretion of niacin cannot be detected when vitamin intake is below the required levels. On the other hand, when intake exceeds saturation in the body, the vitamin and/or its metabolites are actively excreted into urine to prevent excessive toxicity of the vitamins.1

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

Sources:
  1. Shibata K, Hirose J, Fukuwatari T. Relationship Between Urinary Concentrations of Nine Water-soluble Vitamins and their Vitamin Intakes in Japanese Adult Males. Nutr Metab Insights. 2014 Aug 5;7:61-75. doi: 10.4137/NMI.S17245. eCollection 2014. []

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/ []

Vitamin B6 (Pyridoxine) Deficiency

Lots of Pyridoxine In This Pie...Chicken, Cheese,Spinach, Tomato
Lots of Pyridoxine In This Pie…Chicken, Cheese,Spinach, Tomato

What Is Vitamin B6 (Pyridoxine)?

[dropcap]P[/dropcap]yridoxine is an essential vitamin that is required for the health of nerves, bones, blood, arteries, blood sugar, the immune system and metabolism of proteins.

Two important functions of pyridoxine involve coenzymes that are involved in regulating the metabolism of proteins like methionine and tryptophan and their intermediate amino acid building blocks.

In total, the coenzymic form of vitamin B-6, pyridoxal phosphate (PLP), serves as a coenzyme for over 140 enzymes in human metabolism.1  Functions are more fully described below.

Magnesium is required for pyridoxine to actually attach to enzymes dependent on it.

Because pyridoxine is excreted from the body by the kidneys, urinary excretion of it cannot be detected when vitamin intake is below the required levels. On the other hand, when intake exceeds saturation in the body, the vitamin and/or its metabolites are actively excreted into urine to prevent excessive toxicity of the vitamins.2

Smoking blocks use of pyridoxine.

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

Sources:
  1. Gregory JF 3rd1, Park Y, Lamers Y, Bandyopadhyay N, Chi YY, Lee K, Kim S, da Silva V, Hove N, Ranka S, Kahveci T, Muller KE, Stevens RD, Newgard CB, Stacpoole PW, Jones DP. Metabolomic analysis reveals extended metabolic consequences of marginal vitamin B-6 deficiency in healthy human subjects. PLoS One. 2013 Jun 11;8(6):e63544. doi: 10.1371/journal.pone.0063544. []
  2. Shibata K, Hirose J, Fukuwatari T. Relationship Between Urinary Concentrations of Nine Water-soluble Vitamins and their Vitamin Intakes in Japanese Adult Males. Nutr Metab Insights. 2014 Aug 5;7:61-75. doi: 10.4137/NMI.S17245. []