Skip to content

Dementia

DementiaWhat Is Dementia?

[dropcap]D[/dropcap]ementia is the term used to describe a group of symptoms that show significant deterioration of an individual’s intellectual and social abilities.

The deterioration in intellectual function is progressive and is characterized by memory and cognitive impairment involving deficits in reasoning, judgment, abstract thought, comprehension, learning, use of language, and task execution.

Some types of dementia can be reversed,  while most types of dementia are degenerative or nonreversible.

Q: What causes dementia?

A: There are  many differing causes of dementia.  Here are some causes according to nonreversible and reversible:

  • Nonreversible dementia may not be turned back due to these conditions:
  • Alzheimer’s disease is the most common type of degenerative dementia caused by abnormal protein structures in certain areas of the brain. 
  • Lewy body disease is a leading cause of dementia in elderly adults.
  • Vascular dementia due to many small strokes.
  • Medical conditions: Huntington’s disease, multiple sclerosis, infections that can affect the brain, such as HIV/AIDS and Lyme disease, Parkinson’s disease, Pick’s disease, and progressive supranuclear palsy.
  • Reversible dementia may be stopped or reversed if these conditions are found soon enough:
  • Brain injury.
  • Brain tumors.
  • Chronic alcohol abuse.
  • Changes in blood sugar, sodium, and calcium levels.
  • Changes that can occur with celiac disease, diabetes, thyroid disease, and other metabolic disorders.
  • Nutritional deficiencies.
  • Use of certain medications, including cimetadine and some cholesterol-lowering medications.1

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

Sources:
  1. http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0001748/ []

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. []

Anemia, Folic Acid Deficiency  

Folic acid deficiency anemia gluten celiac disease symptom
Red Blood Cells.

What Is Folic Acid Or Folate Deficiency Anemia?

[dropcap]F[/dropcap]olic acid deficiency anemia, also called folate deficiency anemia, is a macrocytic anemia characterized by defective DNA synthesis of red blood cells that results from a lack of folate in the body.

Q: How does folate deficiency cause anemia?

A: Folates are a family of B vitamins and folic acid is an active form.

Folate is required for the formation of both red and white blood cells in the bone marrow and for their maturation.

Also, folate serves as a carrier in the formation of heme, which contains iron, and is the non-protein part of the hemoglobin molecule.1

Red blood cells provide oxygen to body tissues. When there are not enough red blood cells or when they cannot properly carry oxygen, the condition is called anemia. In folic acid deficiency anemia, the red blood cells are abnormally large. Such cells are called macrocytes (macro size cells). They are also called megaloblasts (mega size cells) as seen in the bone marrow where they are produced. This is why this macrocytic anemia is also called megaloblastic anemia.2

Tests that may be done to determine folate adequacy are complete blood count (CBC), red blood cell folate level, methylmalonic acid level, and homocysteine level. Folic acid deficiency anemia shows a decrease in red blood cell folate and/or serum folate levels and normal plasma methylmalonic acid level with elevated homocysteine blood level. These levels distinguish folic acid deficiency anemia from vitamin B12 deficiency anemia.3

What Is Folate Deficiency Anemia 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. http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0001578/ []
  3. Mark Beers and Robert Berkow. The Merck Manual, 17th Edition. Whitehouse Station, N.J. USA: Merck Research Laboratories, 1999. []