Republished with permission from SpectraCell Laboratories

Celiac disease is characterized by the inability to tolerate gluten, which is a protein found in wheat, rye and barley. When gluten is ingested by a person with celiac disease, an allergic reaction follows that causes serious damage to the intestinal wall, ultimately creating malabsorption issues and a host of cascading health problems. Some estimate that celiac disease is prevalent in over 2% of the general population.

 

When a Gluten-Free Diet is Not Enough

Just as every person is different, the “normal” amount of each micronutrient present varies from person to person, and even in the same person, depending on circumstances in his or her life. Biochemical uniqueness and factors such as age, lifestyle, metabolism, prescription drug usage, past and present illnesses, absorption rate, genetics and more affect personal micronutrient needs.

Especially in the case of celiac disease, whether diagnosed or undiagnosed, comprehensive nutritional testing is extremely important. Celiac patients are notoriously at higher risk for nutrient deficiencies, largely due to malabsorption issues. But when it comes to supplements, the “more is better” philosophy does not apply. Balance is key.

 

Predisposition to Nutrient Deficiencies

Researchers followed a group of celiac patients who were on a gluten-free diet for 10 years and they found that half of the adult celiac patients showed signs of poor vitamin status. Since production of digestive enzymes is generally less efficient in celiac patients, absorption of nutrients from food is thus compromised.

 

Antioxidant Status of Celiac Patients

Intestinal inflammation, so commonly seen in celiac patients, creates oxidative stress. As a result, the antioxidant status of celiac patients is significantly reduced, mostly by a depletion of glutathione, considered by many the most potent antioxidant in our bodies. In addition, levels of other antioxidants such as cysteine and vitamin C will affect glutathione status. You can see how measuring a single nutrient only gives a small piece of the metabolic puzzle.

 

A Special Role for Glutamine

One hallmark of celiac patients is that they tend to have damage in the lining of the small intestine. This damage increases the permeability of the walls of their digestive tract, allowing normally benign substances into the bloodstream, where they are no longer treated as harmless. An allergenic, or autoimmune, response follows wreaking havoc throughout the body. Glutamine is an amino acid that is particularly effective in mitigating this dangerous cascade of events starting in the gut. Deprivation of glutamine results in increased intestinal permeability since glutamine helps to form tight junctions between cells of the delicate intestinal wall.

 

Neurological Problems May Stem from Nutrient Deficiencies

Researchers estimate that 11-41% of celiac patients have vitamin B12 deficiency, which impairs function of the nervous system. In fact, resolution of vitamin B12 deficiency will in many cases resolve neurological problems associated with celiac disease. Similarly, a deficiency in copper will often manifest as neurological problems or anemia in celiac patients. In fact, some researchers suggest that celiac disease should be considered in patients with copper deficiency, even if there are no gastrointestinal problems.

 

Folate Deficiency

Celiac patients are at higher risk of B vitamin deficiencies, specifically folate. There are several reasons for this. First, the primary transporter of folate into our bloodstream is found on the tips of the finger-like projections in the intestinal wall called villi. Since intestinal damage (called atrophy) is so common in celiac patients, the process of absorption of nutrients, and especially folate is severely impaired. Second, the pH of the stomach affects folic acid absorption. The higher the pH, the lower the absorption of folic acid, which is the case in celiac patients. Third, many medications used in inflammatory conditions of the gastrointestinal tract are known to be folate depleting.

 

Bone-Building Nutrients for Celiac Patients

Compromised bone health is often an unfortunate consequence of celiac disease largely because a much higher percentage of children with celiac are deficient in magnesium, calcium and vitamin D compared to children without celiac. These nutrients work together in many ways.

For example, when there is sufficient vitamin D, 30-40% of intestinal calcium can be absorbed but in the presence of vitamin D deficiency, only 15% of calcium is absorbed, leading to poor bone health among other things. It is easy to see how correcting even a single nutrient deficiency can indirectly help the status of another.

 

Depletion of Minerals

In a recent study on children with celiac disease, it was found that zinc levels were up to 30% lower in children with untreated celiac and that over 50% of patients with celiac have low zinc levels. Selenium deficiency is also common in celiac patients. Since thyroid is particularly sensitive to selenium, a deficiency in this mineral can contribute to thyroid dysfunction.

 

Fatigue in Celiac Patients

Fatigue is a very common symptom of celiac disease. Although several nutrients contribute to energy production (such as B vitamins and chromium), the relatively unknown amino acid carnitine is intimately involved in energy production and particularly effective in reducing fatigue. Interestingly, levels of carnitine are lower in celiac patients. In fact, one study showed that fatigue was significantly reduced in a group of celiac patients when they were supplemented for six months with carnitine.

 

A Multi-Faceted Treatment Approach

Since so many nutrients are needed to keep our complex digestive, immune and other systems functioning properly, a comprehensive assessment of nutritional status is key, especially in disorders like celiac disease where the risk of deficiency is particularly high. The potential improvement of symptoms when even a single deficiency is corrected can often be quite dramatic.

 

SpectraCell’s Micronutrient Testing with Spectrox™ Scoring

SpectraCell’s micronutrient tests measure 35 vitamins and minerals, including the functional, long-term levels within the cell, which means it evaluates how well the body actually utilizes each nutrient.

SpectraCell’s Micronutrient tests measure the function of 35 nutritional components including vitamins, antioxidants, minerals and amino acids within white blood cells, which gives us the most accurate analysis of a body’s deficiencies.

These Micronutrient tests also provide a Spectrox™ score, which is a measurement of total antioxidant function including the function of several powerful antioxidants: lipoid acid, coenzyme Q10 and vitamin E. Since oxidative stress is an important factor in the pathogenesis of celiac disease, knowing this score is important.

 

P2P Now Integrates With SpectraCell

 

 

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