SpectraCell Blog

Understanding Obesity and Nutrition

Posted by SpectraCell Laboratories, Inc. on Mon, Jan 30, 2012 @ 10:22 AM

Obesity and NutritionIn the past, obesity was understood in fairly simple terms: excess body weight resulting from eating too much and exercising too little. Obesity is now regarded as a chronic medical disease with serious health implications caused by a complex set of factors.

Micronutrients and Obesity:

Obesity is a complex, chronic disease involving multiple components. It is the second leading cause of preventable death in America, second only to cigarette smoking, and increase the risk of illness from over 30 medical conditions including diabetes, hypertension, cancer, infertility, arthritis and heart disease. Prescription medications and procedures used to treat many of
these conditions often induce micronutrient deficiencies as well.

Availability of NutrientsAvailability of Nutrients:

Obesity often reduces the availability of certain nutrients. In a recent study, over 50% of obese patients were evaluated for Vitamin D status and found to be deficient. Since fat cells have
their own nutritional requirements, fat cells will draw from nutritional reserves in much the same way other organs do in order to perform normal cellular functions. The combination of reduced availability and increased demand for nutrients caused by excess fat cells ultimately causes multiple deficiencies that need to be corrected.

Regulation of Hormones Linked to Obesity:

Niacin (Vitamin B3) treatment has been shown to increase hormone levels that regulate metabolism of glucose and fatty acids. Decreased levels are associated with obesity and heart disease. Vitamin B5 helps breaks down fat cells so they can be used up by the body.

Low Zinc status is also associated with obesity. This may be due, in part, to the relationship between Zinc and leptin, a hormone that regulates appetite. Zinc depletion reduces leptin levels, while Zinc repletion reverses this effect.

Obesity and NutritionFat Cell Formation:

Studies suggest that a form of Vitamin E (tocotrienol) inhibits pre-fat cells from changing into mature fat cells, resulting in a decrease in body fat. Calcium intake has also been associated with weight loss through its ability to inhibit the formation of fat cells. It also promotes the oxidation, or burning of fat cells, therefore reducing the risk of obesity.

The Effect of Amino Acids on Body Composition:

Carnitine is an important nutrient that helps muscle cells utilize energy and burn calories. Evidence shows that supplementation with carnitine when combined with an exercise program may induce positive changes in body composition by reducing (belly fat) more efficiently than without supplementation. Glutamine has been shown to reduce fat mass and improve glucose uptake in skeletal muscle and the relatively unknown amino acid Asparagine can improve insulin sensitivity by increasing the amount of sugar taken into muscle tissue to be burned for fuel.

Obesity and Insulin Resistance - Partners in Crime:

Obesity severely impairs the body’s ability to efficiently burn dietary carbohydrates. This is caused primarily by the body’s inability to use insulin, which is the hormone that helps the transport of sugars into muscles where they can be used for fuel instead of being stored as fat. Optimal micronutrient and mineral status are necessary for proper insulin function.

Vascular Health and ObesityVascular Health in Obesity:

Blood vessels in overweight individuals are typically not as pliable and healthy as normal weight people. Vitamin C supplementation has been demonstrated to improve vascular function in overweight people. Similarly, minerals such as Magnesium, Zinc, Calcium and Copper have all shown positive effects on blood pressure and vascular health. Overweight people tend to have high blood pressure, which is intensified by vitamin deficiencies. Since so many nutrients (Folate, Biotin, Carnitine, Vitamins A, C, and E and several minerals) are involved in the maintenance of healthy blood vessels of both normal weight and overweight people, a comprehensive evaluation of how they are performing in the cells of obese patients is crucial.

Oxidative Stress and Inflammation:

Numerous studies link oxidative stress and inflammation with  obesity. Visceral adiposity (belly fat) is particularly high in dangerous enzymes that cause oxidative stress. Weight loss certainly counteracts this phenomenon and studies show that the amount of weight lost directly correlates to decreases in oxidative stress. Belly fat also causes inflammation of the liver, which is particularly common in obese people. One recent study  demonstrated that Coenzyme Q10 decreased obesity-induced inflammation of the liver. Similarly, inflammation in blood vessels of obese patients contributes to heart disease and stroke, which can be alleviated in part through proper antioxidant supplementation. It is imperative that antioxidant status be optimized, especially in obese patients. SpectraCell’s micronutrient testing measures several specific antioxidants and gives an overall picture of how well all the antioxidants are working together.

Malabsorption Issues After Bariatric SurgeryMalabsorption Issues After Bariatric Surgery:

The impaired ability to absorb nutrients after bariatric procedures routinely causes multiple vitamin and mineral deficiencies in patients. Due to fat malabsorption after bariatric surgery, deficiencies in fat soluble Vitamins (A, D, E and K) are extremely common. Neurological complications such as confusion, impaired muscle coordination, even seizures may occur after bariatric procedures, due to a lack of B Vitamins, especially Thiamine. These complications can occur acutely or decades later. A comprehensive evaluation of nutritional status in bariatric patients is critical in maintaining post-op health.

Also, share with us your experience with the role micronutrients have played in obesity with your patient population! Do you have a particular success?

Topics: Coenzyme Q10, Asparagine, zinc, folate, Vitamin D, Carnitine, Magnesium, Vitamin C, Vitamin E, Vitamin A, Copper, Calcium, biotin, Glutamine, Vitamin B5, Hormones, Oxidative Stress, Insulin Resistance, Niacin, Obesity

Can Nutrient Deficiencies Provide Insight into the Health of a Neuron and Your Brain?

Posted by SpectraCell Laboratories, Inc. on Mon, Jan 09, 2012 @ 10:55 AM

Nutritional Brain HealthGuest Blog by: Dr. Arland Hill (D.C.)

Most of us are familiar with the saying use it or lose it.  Many times when individuals say this, they are likely referring to muscle tissue.  However, this saying is equally valid regarding the health of the brain and nervous tissue.  Since the brain has impact on every system in the body, keeping it healthy is of the utmost importance.  Doing so takes 3 key ingredients; energy, fats, and stimulation.

While most probably don’t think about the energy demands of the nervous system, they are in fact quite high.  The production of energy for a neuron, or nerve cell, goes beyond just good function.  The ability to produce energy is the difference between life and death.  As with all cells, an energy substrate must be available, preferably glucose.  Uptake of glucose by neurons depends on healthy insulin receptors.  Healthy insulin receptors that are sensitive optimize neuron function by efficiently controlling synapse density, promoting neuronal growth, or neuroplasticity, and refining the function of the involved neurocircuitry.  In short, neurons function better and extend their network when insulin receptors are sensitive.  But as attractive as this sounds, it fails to happen when nutrient deficiencies such as chromium and B3 exist.  Chromium and niacin help make up the glucose tolerance factor which has significant bearing on the glucose-insulin interaction.

Neuron Once glucose is taken in by the neuron, it must enter the mitochondria to produce ATP, the energy molecule.  However, to get ATP, several key nutrients must be available.  These nutrients fuel each step of the energy cycle and include B1, B2, B3, B5, glutamine, and magnesium just to name a few.  For the neuron, the importance of this cannot be understated.

When the neuron is able to receive adequate oxygen, it can combine the metabolites formed from the energy production cycle and generate ATP.  In the absence of adequate nutrient stores, ATP is not produced efficiently leading to the demise of the neuron.  This can be the early onset of neurodegeneration.  Moreover, since neurons depend on stimulation from each other to maintain functional neurocircuitry, losing a neuron will in turn have effects on adjacent neurons.  The potential “snowball-like” effect of neurodegeneration emphasizes the consequence of allowing seemingly harmless nutrient deficiencies to persist.

Lastly, a protective coating is needed.  Think about this as insulation for the wiring of your neurocircuity.  With it, neurological impulses are transmitted at a faster rate.  Our insulation is fat.  Micronutrient assessment provides a window into how we might be producing insulation Neuronsaround our neurological tissue.  Not only does such testing show how fats are being utilized by living cells, it also illustrates the status of nutrients such as B12 that are equally needed for production of our insulation, otherwise known as myelin.

The health of the nervous system is a commonly overlooked.  When it is functioning appropriately, it is given little attention.  In contrast, by the time a neurological condition manifests, it is difficult to make up lost ground to neurodegeneration.  However, altering its effects can take place, but only in the presence of adequate nutrient status.  Given proper precursors and stimulation, the ability of the neuron to produce energy is regained, promoting an environment of neuroplasticity.

Dr. Arland Hill

 

Arland Hill, DC, MPH, DACBN- Complete Care Chiropractic and Wellness

For more information about our client Dr. Hill, please visit his website or his blog. Or contact him at 281-557-7200.

Topics: micronutrient testing, Magnesium, B Vitamins, Glutamine, Brain, Nervous System, Chromium, Dr. Arland Hill, Glucose

The Role of Micronutrients in Cognitive Function

Posted by SpectraCell Laboratories, Inc. on Fri, Aug 05, 2011 @ 09:55 AM

Cognitive FunctionALPHA LIPOIC ACID – This nutrient protects against the neuronal injury that occurs in the presence of toxic proteins found in brain tissue of Alzheimer’s patients. Research clearly indicates that lipoic acid is a potent neuroprotective antioxidant which strengthens memory and stimulates nerve growth.

B VITAMINS – Folate, Vitamin B6 and B12 are important in methylation processes. Deficiencies in one of these vitamins can raise homocysteine levels which is linked to increased Alzheimer’s risk. Vitamin B1 protects against mitochondrial dysfunction that causes dementia. B12 improves frontal lobe functions such as language, especially in the elderly.

CARNITINE – The amino acid carnitine has potent antioxidant properties. Its role in the transport of fatty acids to the mitochondria explains its beneficial effects on fatigue, which include both physical and mental fatigue. Several trials have demonstrated a consistent improvement in memory, focus and cognition with carnitine supplementation.

CHOLINE – Another member of the B-complex, choline is the precursor molecule for the neurotransmitter acetylcholine, which is intimately involved in memory. Choline deficiency can induce mitochondrial dysfunction in the brain that clinically presents as cognitive impairment.

CHROMIUM – In a placebo-controlled, double-blind trial, chromium supplementation for twelve weeks enhanced cerebral function in older adults, possibly as a downstream effect of improved glucose disposal in patients with insulin resistance.

COPPER – Intracellular copper deficiency increases the formation of amyloid deposits in the brain. Specifically, copper accumulates in amyloid plaques while remaining deficient in neighboring brain cells indicating that copper deficiency is a plausible cause of Alzheimer’s.

GLUTATHIONE – This antioxidant is used up faster in brain tissue in the presence of choline deficiency.

GLUTAMINE and ASPARAGINE – Both act as neurotransmitters in the brain.

INOSITOL – A member of the B-complex of vitamins, inositol regulates cell membrane transport, thus explaining its key interaction with several hormone and regulatory functions. Research suggests it can protect against the formation of abnormally folded toxic proteins seen in Alzhiemer’s patients. Inositol treatment also has beneficial effects on depression and anxiety.

OLEIC ACID – This fatty acid found primarily in olive oil and is the precursor to oleamide, which interacts with several neurotransmitters and has demonstrated anti-depressant like properties. Oleic acid also facilitates absorption of vitamin A into cells.

SERINE – This amino acid is the major component of phosphatidylserine, an integral part of cell membranes in the brain. Phosphatidylserine increases the release of several neurotransmitters, including dopamine, serotonin, acetylcholine and epinephrine, thus improving the rate at which mental processes occur, without the hyperactivity or compulsive behavior that often occurs with drugs that stimulate a single neurotransmitter.

VITAMIN A – In the Physician’s Health Study II, vitamin A supplementation (50mg) improved cognition and verbal memory in men. Short term (1 year) effects of cognitive function were not seen, but significant benefit occurred in those on long-term treatment (18 years.)

VITAMIN C – Next to adrenal glands, nerve endings contain the highest levels of vitamin C in the body. High intakes of vitamin C are associated with lower risk of Alzheimer’s disease.

VITAMIN E – In addition to antioxidative properties, vitamin E reduces death to cells in the hippocampus and protects brain from glutamate toxicity. High dietary intake of vitamin E may lower Alzheimer’s risk.

ZINC – Low functional status of zinc is linked to negative alterations of the immune-inflammatory system, which can cause depression, impair learning and memory and a reduce neurogenesis. Zinc also regulates synaptic plasticity.

Additional nutrients tested by SpectraCell’s Micronutrient Test – BIOTIN, CALCIUM, COENZYME Q10, CYSTEINE, MAGNESIUM, SELENIUM, VITAMINS B2, B3, B5, D, K and SPECTROX™ (a measure of total antioxidant function)

 

 

Topics: serine, micronutrient testing, Oleic Acid, Alpha-Lipoic Acid, Asparagine, zinc, Carnitine, Choline, Vitamin C, Vitamin A, B Vitamins, Copper, inositol, Glutamine, Glutathione, Chromium

Using Micronutrient Testing to Improve the Management of Autoimmune Conditions

Posted by SpectraCell Laboratories, Inc. on Mon, Jul 25, 2011 @ 10:09 AM

Autoimmune Disorders and MNTAutoimmune conditions are a rapidly growing segment of the medical population. They go by such names as Hashimoto’s thyroiditis, Rheumatoid Arthritis, Ulcerative Colitis and Crohn’s Disease just to name a few. The noted growth of these conditions appears to be related to many factors, including increased stressors, poor diet, and degradation of the lining of the gastrointestinal tract allowing formation of a hyperpermeable gut.

Management of these conditions is not always a straightforward process and most therapies have traditionally centered on reducing inflammation. However, long term management of autoimmune conditions requires not only reducing the total inflammatory burden, but also working to add balance to the immune system. This is dependent on the function of the cells of the immune system. Therefore, having an assessment method that directly targets the cells of the immune system would serve as an invaluable tool in the management of autoimmune conditions.

One of the hallmarks of autoimmune conditions is that they promote the destruction of a large amount of tissue secondary to inflammation. Typically when this occurs, the ability of the cells to resist further destruction is reduced, leaving them even more susceptible. Micronutrient testing offers insight into the ability of the cells to resist tissue destruction. When levels of SpectraCell’s novel Spectrox marker start to drop, it is an indication that the tissues are no longer able to resist the inflammation. This is generally accompanied by lower levels of selenium and vitamin E since these nutrients serve to protect the lipid bilayer cell wall.

Blood CellsThe nutrient test goes beyond simply relaying the degree of destruction associated with autoimmune conditions. It also provides insight into where the destruction may be coming from. Autoimmune diseases are noted for a lack of regulation of the immune system. During states of autoimmunity, the T lymphocytes known specifically as T regulatory cells lose their ability to guide the appropriate type of immune response. The misguidance of the ideal immune response is what eventually manifests as the fulminant inflammation associated with autoimmune diseases. Proper function of the T regulatory cells is dependent on vitamin D, glutathione and omega 3’s. A deficiency in any of these nutrients opens the door to immune system dysfunction and increased autoimmunity. Lower levels of glutathione and vitamin D appear to be most representative of the state of the T regulatory cells and the likelihood of dysfunction. When these levels are low, especially glutathione, it can be noted that the inflammatory burden has become overwhelming. Ironically, the micronutrient test is probably one of the better suited tests to pick up the needed repletion of these nutrients since it is looking directly at the T lymphocytes.

An area that appears to open the door to autoimmunity is a breakdown in the integrity of the gastrointestinal lining, also referred to as a hyperpermeable gut. Nutrients such as glutamine, vitamin A and zinc are needed to maintain the integrity of these cells. As these nutrients trend lower, the suspicion of the gastrointestinal tract as a player in the autoimmunity milieu grows.

While not the only test warranted in managing autoimmunity, micronutrient testing should be one of the first considerations as it provides a window into not only areas that contribute to the autoimmune process, but also details the specific nutrients needed to manage it.

Dr. Arland HillArland Hill, DC, MPH, DACBN - Complete Care Chiropractic and Wellness

For more information about our client Dr. Hill, please visit his website or his blog. Or contact him at 281-557-7200.

 

 

 

Topics: micronutrient testing, autoimmune diseases, zinc, Vitamin D, Vitamin E, Vitamin A, Selenium, immune system, Omega 3s, Glutamine, Glutathione, Inflammation, Spectrox, Dr. Arland Hill

Athletes at Risk for Multiple Nutrient Deficiencies

Posted by SpectraCell Laboratories, Inc. on Thu, Jul 07, 2011 @ 04:20 PM

Guest Blog by Arland Hill, DC, MPH, DACBN

Athlete RunningMost athletes become very driven to excel in the sport in which they compete.  These aspirations require great dedication to not only a regimented training schedule, but also to higher intensity levels and training volume.  Regardless of the sport, great demands are placed on the bodies of athletes.  Most of these are secondary to higher levels of oxygen uptake, constant flirting with catabolism and the need to generate energy more frequently.  Most of these are related to nutrient status in some way and underscore the importance of an athlete maximizing their training routine, but also their diet and supplement regimen to stay at peak performance.

The final stages of energy production are dependent on adequate supplies of oxygen.  Without oxygen, fatigue and lethargy quickly set in and the ability to produce ATP, the primary energy molecule, is quickly curtailed.  While this is an issue for some athletes, the opposite is true for the majority of the athletic population.  Most athletes are constantly pushing themselves, thus the need for greater levels of oxygen.  With more oxygen come higher levels of oxidative stress, also termed free radical production.  This is characteristically noted as low or marginally low vitamin E, selenium, glutathione and Spectrox.  This pattern presents as a result of the damage brought forth by oxidative stress.  The lower nutrient profiles are the efforts of the body to offset this damage.  Ironically, this is a pattern similar to that seen in some chronic disease states.

RunningIt is almost impossible to train at a higher level and not undergo some degree of catabolism.  The key however is to minimize this breakdown process and compliment it with an anabolic, or building response.  Maintenance of an anabolic state is imperative to continued progression.  Many areas are sacrificed when the balance between anabolism and catabolism is lost.  One area that appears to be most affected is protein balance.  Protein balance can be monitored through glutamine stores.  Glutamine, the most abundant amino acid in muscle tissue, is rapidly processed during higher intensity activity.  The affects don’t just end at muscle tissue however, but cross over into gastrointestinal health and immune function.  This in part explains why athletes become more susceptible to changes in immune health when they are really pushing themselves.

BikingThe ability to perform at the highest level requires the immediate need to produce energy.  Energy production is not one step, but multiple.  Moreover it is a factor of being able to derive energy from all the major macronutrients; carbohydrates, fats and protein.  These macronutrients require many of the B vitamins as well as some of the minerals to help produce energy.  Apart from those nutrients, the last step in energy production, also known as the electron transport chain, requires reliable amounts of CoQ10.  Conversely, energy production cannot be limited to just the energy production pathways, but must also be linked to the delivery of oxygen as the aerobic energy cycles are far more efficient.  This requires healthy red blood cells, for which the nutrients B12, folate, iron and copper are required.

While athletes trying to achieve excellence must put in the necessary hours of training, they must also properly fuel their body and monitor the need to support it nutritionally.  Routine micronutrient testing provides a window into the metabolic needs of the athlete helping them to achieve maximum performance.

Dr. Arland HillArland Hill, DC, MPH, DACBN - Complete Care Chiropractic and Wellness   

For more information about Dr. Hill, please visit his website or his blog. Or, contact him at 281-557-7200.

 

 

 

Topics: micronutrient testing, Coenzyme Q10, folate, Vitamin E, Selenium, B Vitamins, Copper, Vitamin B12, supplements, immune system, deficiencies, Glutamine, Glutathione, Iron, Oxidative Stress, Spectrox, Energy, Free Radicals, Athletes, Performance

SpectraCell Partners with Gluten Free Works

Posted by SpectraCell Laboratories, Inc. on Thu, Apr 21, 2011 @ 03:48 PM

Hand and HealthSpectraCell has recently partnered with Gluten Free Works who is “Helping people get well, look good and stay healthy living gluten free.” ™

Gluten Free Works® helps you understand your food, your diet and your digestion. They show you what causes health problems and how to treat them naturally. One of the tools that they suggest is nutritional testing.  They believe that the key to good health for those with gluten sensitivity and/or celiac disease is a gluten-free lifestyle.

What is Celiac Disease?

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.

I take a Multi-Vitamin and Eat a Gluten Free Diet.  Isn’t that Enough?

Multi-VitaminThe simple answer is no. Just as every person is different, the “normal” amount of each micronutrient varies from person to person, and even in the same person depending on circumstances in his or her life.  We are all biochemically unique, and several factors affect personal micronutrient needs – age, lifestyle, metabolism, prescription drug usage, past and present illnesses, absorption rate, genetics and more.

Especially in the case of celiac disease, whether diagnosed or undiagnosed, comprehensive nutritional testing is super 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 is just plain wrong.  Balance is key. SpectraCell’s Micronutrient test is the answer.

SpectraCell’s Micronutrient Test measures 33 vitamins and minerals in your body.  But the SpectraCell test goes even further – it measures functional, long-term levels within the cell, which means SpectraCell’s Micronutrient Test evaluates how well your body actually utilizes each nutrient.  Your body may need more of a nutrient than someone else, or perhaps your body lacks the coenzymes needed to transport it, or perhaps it is not absorbed properly after ingestion.  That is why an individual assessment of your nutritional status is important.

True healing begins with your body’s foundation – micronutrients – the vitamins, minerals and antioxidants your body needs to function optimally every day and over a lifetime.

Predisposition to Nutritional 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 compromised.  

Antioxidant Status of Celiac Patients

Intestinal inflammation, so commonly seen in celiac patients, creates oxidative stress and 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.

Fortunately, SpectraCell’s micronutrient test also gives your SpectroxTM score, which is a measurement of your Total Antioxidant Function. In short, it measures how well your cells stand up to oxidative stress.  SpectraCell’s micronutrient test also measures the function of several powerful antioxidants such as lipoic acid, coenzyme Q10 and vitamin E.  Even a single deficiency can negatively affect your SpectroxTM score.  Since oxidative stress is an important factor in the pathogenesis of celiac disease, raising your SpectroxTM score is important.

A Special Role for Glutamine

One hallmark of celiac patients is that they tend to have damage in the lining of their 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.

NeurologyNeurological Problems Stem from Nutrient Deficiencies

Researchers estimate that 11-41% of celiac patients have vitamin B12 defiency, which impairs function of the nervous systems.  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 intestingal 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

The impact of mineral deficiencies is extremely broad.  For example, zinc deficiency compromises the immune system and is implicated in many skin disorders, which often accompany celiac disease.  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, which also serves as a powerful antioxidant, can contribute thyroid dysfunction.

Fatigue in Celiac – Corrected with Supplementation

Fatigue is a very common symptom of celiac disease.  Although several nutrients contribute to energy production (such as B vitamins and chromium, for example), the relatively unknown amino acid carntine 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 Approach

Since so many nutrients are needed to keep our amazingly complex digestive, immune and other systems functioning properly, a comprehensive assessment of your nutritional status is key, especially indisorders 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 test evaluates how well your body absorbs and utilizes each of these nutrients.

Talk to your doctor about SpectraCell’s micronutrient test or order online from Gluten Free Works.

Gluten Free Works

SpectraCell Laboratories

Topics: SpectraCell, micronutrient testing, Coenzyme Q10, Alpha-Lipoic Acid, Cysteine, folate, Vitamin D, Carnitine, Vitamin C, Vitamin E, Selenium, B Vitamins, Folic Acid, Fatigue, Nutrition, immune system, Calcium, deficiency, Glutamine, Neurology, Diet, Minerals, Digestion, Inflammation, Gluten Sensitivity, Gluten-Free, Celiac Disease, Gluten Free Works