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Tag: deficiency

  • Who Should Take Them and Safe Iron Deficiency Treatment Tips for Anemia

    Who Should Take Them and Safe Iron Deficiency Treatment Tips for Anemia

    Iron supplements play an important role in maintaining healthy red blood cells and supporting oxygen transport throughout the body. When used appropriately, they can be an effective part of iron deficiency treatment and anemia management, but unnecessary use can cause side effects and even serious health risks.

    Understanding who needs them and who should avoid them helps readers make safer, more informed decisions.

    What Are Iron Supplements?

    Iron supplements are products designed to increase iron levels in the body when diet alone is not enough. They are commonly used to support iron deficiency treatment and to help manage anemia caused by low iron stores.

    Most over-the-counter iron supplements contain forms such as ferrous sulfate, ferrous gluconate, or ferrous fumarate, often available as tablets, capsules, or liquids. These forms differ slightly in how much elemental iron they deliver and how well they are tolerated.

    In many cases, healthcare professionals choose the specific type and dose based on blood test results, existing health conditions, and how severe the anemia is.

    Who Really Needs Iron Supplements?

    Not everyone benefits from taking iron supplements, and starting them without medical guidance can be risky. In general, people who need them have documented low iron levels or clear signs of iron deficiency anemia confirmed through laboratory testing.

    Individuals with diagnosed iron deficiency usually have low ferritin (the body’s iron storage protein) and may also have low hemoglobin or hematocrit. In such cases, iron supplements become a central part of iron deficiency treatment to restore iron stores and support normal red blood cell production.

    Those at higher risk include pregnant people, infants and children in rapid growth phases, individuals with heavy menstrual bleeding, frequent blood donors, and people with chronic blood loss from conditions such as ulcers or gastrointestinal disorders.

    Some groups are more prone to iron deficiency even when they try to eat well. Vegetarians and vegans may not get enough highly absorbable heme iron from animal sources and can be more vulnerable to low iron over time if intake is not carefully planned.

    People with gastrointestinal conditions such as celiac disease, inflammatory bowel disease, or those who have had bariatric surgery may have poor absorption and may rely on iron supplements as part of their long-term anemia management.

    Athletes, especially endurance athletes, can also have increased iron needs because of higher red blood cell turnover and losses through sweat and minor gastrointestinal bleeding.

    Signs That Someone Might Need Iron Supplements

    Iron deficiency and anemia can be subtle at first, but they often share a cluster of recognizable symptoms. Common signs include persistent fatigue, weakness, pale or sallow skin, shortness of breath with mild exertion, and feeling unusually cold. Some people develop headaches, dizziness, brittle nails, or hair thinning as their iron levels drop.

    Cognitive and neurological symptoms can also appear with iron deficiency anemia. Difficulty concentrating, irritability, and restless legs, particularly at night, may be linked to insufficient iron, according to the World Health Organization.

    Because these symptoms can mimic other conditions such as thyroid problems, chronic fatigue, or depression, self-diagnosis is unreliable. Iron supplements should not be started solely based on symptoms without confirming iron deficiency through blood tests like ferritin, serum iron, transferrin saturation, and a complete blood count.

    A proper evaluation for potential iron deficiency treatment usually includes a health history that covers diet, menstrual patterns, digestive symptoms, blood loss, and existing medical conditions.

    This assessment helps determine whether iron supplements are appropriate, whether dietary changes might be enough, or whether another underlying cause needs attention.

    How Iron Supplements Are Used in Iron Deficiency Treatment

    In iron deficiency treatment and anemia management, supplements are often used for a defined period rather than indefinitely. Once a healthcare professional confirms iron deficiency anemia, an oral iron preparation is usually prescribed with a specific dose and schedule.

    For many people, energy levels start to improve within a few weeks as hemoglobin begins to rise, but full replenishment of iron stores often takes several months.

    Iron supplements are generally more effective when taken on an empty stomach because food can reduce absorption. However, this approach can increase stomach upset for some individuals.

    To balance comfort and absorption, many people are advised to take iron with a small amount of food or to adjust the timing. Vitamin C, whether from a supplement or a glass of orange juice, may help enhance iron absorption when taken at the same time as the iron tablet.

    Dietary strategies are usually recommended alongside supplements. Including iron-rich foods such as lean red meat, poultry, fish, beans, lentils, tofu, and fortified cereals can support the body’s recovery from anemia.

    Pairing plant-based iron sources with vitamin C–rich foods like citrus fruits, strawberries, or bell peppers can help improve non-heme iron absorption. At the same time, limiting tea, coffee, and calcium-rich foods around supplement time can prevent interference with absorption.

    Side Effects, Risks, and Overdose

    Even when used properly, iron supplements can cause side effects. Common complaints include constipation, nausea, stomach discomfort, diarrhea, or dark stools.

    These reactions are not necessarily dangerous but can be uncomfortable enough for some people to stop treatment prematurely, which can slow or reverse the progress of iron deficiency treatment.

    To reduce side effects, healthcare professionals may adjust the dose, switch to another type of iron supplement, or recommend taking the supplement with food despite the slight reduction in absorption, as per the National Institutes of Health.

    Sometimes, lower but more frequent doses are better tolerated. Slow-release formulations might be suggested for specific cases, although their absorption characteristics can differ.

    Taking too much iron is particularly dangerous for children, as accidental ingestion of adult iron supplements can lead to poisoning and requires urgent medical care. In adults, chronic overuse of iron supplements without monitoring can gradually lead to iron overload.

    This excess iron may accumulate in organs such as the liver, heart, and pancreas, potentially contributing to conditions like cirrhosis, heart arrhythmias, or diabetes in susceptible individuals. This risk reinforces the importance of using iron supplements only when they are truly needed.

    Alternatives and When Intravenous Iron Is Considered

    For some people, oral iron supplements are not effective or not tolerated despite adjustments in dose and timing. Individuals with severe anemia, ongoing blood loss, very poor iron absorption, or significant digestive side effects may require a different approach.

    In these situations, healthcare professionals sometimes consider intravenous (IV) iron as part of more intensive anemia management.

    Intravenous iron delivers iron directly into the bloodstream, bypassing the digestive tract. This method can replenish iron stores more quickly, especially when rapid correction is needed or when oral iron simply does not work.

    However, IV iron is usually given in clinical settings due to the need for monitoring during infusion and the small risk of allergic reactions.

    In mild cases or early stages of deficiency, dietary strategies alone may be enough without supplements. Addressing underlying causes, such as treating heavy menstrual bleeding, managing gastrointestinal conditions, or improving overall nutrient intake, can help prevent recurring anemia.

    Regular monitoring through blood tests allows adjustments over time and helps determine whether iron supplements can be safely stopped once iron levels have normalized.

    Frequently Asked Questions

    1. Can someone take iron supplements long term for energy?

    Long-term use of iron supplements just for “energy” is not advised without confirmed deficiency and medical supervision. Excess iron can build up over time and increase the risk of organ damage, so duration and dose should be guided by blood tests.​

    2. Is it safe to take iron supplements together with other vitamin or mineral supplements?

    Iron supplements can be used with many vitamins, but nutrients like calcium may reduce iron absorption if taken at the same time. Spacing iron away from high-calcium products and checking for individual interactions with a healthcare professional is generally recommended.​

    3. How often should iron levels be checked while on iron deficiency treatment?

    Iron levels are often checked after several weeks to a few months of iron deficiency treatment to see if anemia is improving. Once levels normalize, testing can be less frequent, and supplements may be reduced or discontinued to avoid unnecessary long-term use.​

    4. Can dietary changes alone reverse mild anemia without iron supplements?

    Mild anemia from low intake may improve with more iron-rich foods and better absorption strategies, such as pairing plant iron with vitamin C. More significant anemia, blood loss, or absorption problems usually require iron supplements or other medical treatment in addition to diet changes.​



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  • Vegans and Iodine Deficiency Risk 

    Vegans and Iodine Deficiency Risk 

    Most plant-based milks are not fortified with iodine.

    “Adequate dietary iodine is required for normal thyroid function.” In fact, the two thyroid hormones are named after how many iodine atoms they contain: T3 and T4. “Given that iodine is extensively stored in the thyroid gland itself, it can safely be consumed intermittently,” so we don’t need to consume it every day. However, our overall diet does need a good source of it. Unfortunately, the common sources aren’t particularly health-promoting: iodized salt and dairy foods. (Iodine-based cleansers like betadine are used on cows “to sanitize the udders, resulting in leaching of iodine in the milk.”) Iodine may also be added to cattle feed, and some commercially produced breads contain food additives with iodine.

    If you put people on a paleo-type diet and cut out their dairy and table salt, they can develop an iodine deficiency, even though they double their intake of seafood, which can also be a source of iodine. What about those switching to diets centered around whole plant foods? They also cut down on ice cream and Wonder Bread, and if they aren’t eating anything from the sea, like seaweed or other sea vegetables, they can run into the same problem.

    A three-year-old’s parents reported striving to feed her only the healthiest foods, and her diet included only plant-based, unsalted, and unseasoned foods. She got no unprocessed foods, but she also got no vitamin supplementation, which could be deadly. Without vitamin B12, those on strictly plant-based diets can develop irreversible nerve damage, but in this case, a goiter arose first, due to inadequate iodine intake.

    In another case of “veganism as a cause of iodine-deficient hypothyroidism,” a toddler became ill after weaning. Before weaning, he was fine because his mother kept taking her prenatal vitamins, which fortunately contained iodine.

    Most vegetarians and vegans are apparently unaware of the importance of iodine intake during pregnancy, “for the neurodevelopment of the unborn child, similar to their omnivorous counterparts.” The American Thyroid Association and the American Academy of Pediatrics have recommended that women, even just planning on getting pregnant, should take a daily supplement containing 150 micrograms (mcg) of iodine, yet only 60 percent of prenatal vitamins marketed in the United States contain this essential mineral. So, despite the recommendations, about 40 percent of prenatal vitamins don’t contain it. “Therefore, it is extremely important that women, especially when pregnant, breastfeeding, or planning a pregnancy, read the labels of their multivitamin supplements to ensure that they are receiving an adequate amount of iodine.”

    Women of reproductive age have an average iodine level of 110 mcg/liter, which is fine for nonpregnant individuals, but we’d really like women to get at least 150 mcg/liter during pregnancy. (It’s basically a 24-hour urine test, in which iodine sufficiency is defined as 100 mcg/liter of urine in nonpregnant adults; the average vegan failed to reach this in the largest study done to date, one out of Boston.)

    The recommended average daily intake is 150 mcg per day for most people, which we can get in about a cup and a half of cow’s milk. Regrettably, plant-based milks aren’t typically fortified with iodine and average only about 3 mcg per cup. Although many plant-based milks are fortified with calcium, researchers found in the largest systematic study to date that only 3 out of 47 were fortified with iodine. Those that were fortified had as much as cow’s milk, but those that weren’t fell short, as you can see at 3:30 in my video Are Vegans at Risk for Iodine Deficiency?

    Plant-based milk companies brag about enriching their milks with calcium and often vitamins B12, D, and A, but only rarely are attempts made to match iodine content. The only reason cow’s milk has so much is that producers enrich the animals’ feed or it comes dripping off their udders. So, why don’t plant-milk companies add iodine, too? I was told by a food scientist at Silk that my carrageenan video played a role in the company switching to another thickener. Hopefully, Silk will see this video, too, and consider adding iodine, or maybe another company will snatch the opportunity for a market advantage.  

    The researchers conclude that individuals who consume plant-based milks not fortified with iodine may be at risk for iodine deficiency, unless they consume alternative dietary iodine sources, the healthiest of which are sea vegetables, which we’ll cover next.

    Doctor’s Note:

    This is the first in a four-video series on thyroid function. The next three are: 

    For more on iodine, see the related posts below.



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  • Vitamin D Deficiency In Kids Raises Risk Of Auto-Immune Disorders: Study Explains How

    Vitamin D Deficiency In Kids Raises Risk Of Auto-Immune Disorders: Study Explains How

    Ensure your child is getting adequate sunshine vitamins. Beyond the role of calcium absorption and bone strengthening, researchers have discovered more about its connection to the immune system. A recent study revealed how a deficiency of vitamin D in young children can raise the risk of developing autoimmune disorders.

    According to the latest study published in the journal Science Advances, the deficiency of vitamin D in kids is linked to premature aging of the thymus gland. The thymus is a small lymph gland that makes and trains T-cells that are crucial for the immune system, defending the body against infections and diseases. While most of these vital cells are produced before birth, the remainder are generated during childhood, and by puberty, individuals would have developed the complete T cells for their lifetime.

    “An aging thymus leads to a ‘leaky’ immune system. This means the thymus becomes less effective at filtering out immune cells that could mistakenly attack healthy tissues, increasing the risk of autoimmune diseases like type 1 diabetes,” said the lead author of the study John White in a news release.

    Studies have shown that vitamin D is essential for immunity but according to White, the recent study findings “bring new clarity to this connection and could lead to new strategies for preventing autoimmune diseases.”

    During the trial, researchers examined mice that could not produce vitamin D to assess how this deficiency affected their thymus glands. They then conducted cell analyses and gene sequencing to understand the impact of vitamin D deficiency on the immune system. The researchers expect similar findings in humans as the thymus functions similarly in both species.

    Based on the study findings, researchers suggest that young children should get adequate vitamin D, either through natural sources such as fortified food and sunlight or through supplementation.

    “If you have a young child, it’s important to consult with your healthcare provider to ensure they’re getting enough,” said White.

    Earlier research conducted by the same team in 2021, which followed up more than 10,000 children showed that early vitamin D supplementation can reduce the risk of developing type 1 diabetes by up to five-fold.

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  • Testing for Vitamin B12 Deficiency 

    Testing for Vitamin B12 Deficiency 

    Many doctors mistakenly rely on serum B12 levels in the blood to test for vitamin B12 deficiency.

    There were two cases of young, strictly vegetarian individuals with no known vascular risk factors. One suffered a stroke, and the other had multiple strokes. Why? Most probably because they weren’t taking vitamin B12 supplements, which leads to high homocysteine levels, which can attack our arteries.

    So, those eating plant-based who fail to supplement with B12 may increase their risk of both heart disease and stroke. However, as you can see in the graph below and at 0:47 in my video How to Test for Functional Vitamin B12 Deficiency, vegetarians have so many heart disease risk factor benefits that they are still at lower risk overall, but this may help explain why vegetarians were found to have more stroke. This disparity would presumably disappear with adequate B12 supplementation, and the benefit of lower heart disease risk would grow even larger.

    Compared with non-vegetarians, vegetarians enjoy myriad other advantages, such as better cholesterol, blood pressure, blood sugars, and obesity rates. But, what about that stroke study? Even among studies that have shown benefits, “the effect was not as pronounced as expected, which may be a result of poor vitamin B12 status due to a vegetarian diet. Vitamin B12 deficiency may negate the cardiovascular disease prevention benefits of vegetarian diets. To further reduce the risk of cardiovascular disease, vegetarians should be advised to use vitamin B12 supplements.” 

    How can you determine your B12 status? By the time you’re symptomatic with B12 deficiency, it’s too late. And, initially, the symptoms can be so subtle that you might even miss them. What’s more, you develop metabolic vitamin B12 deficiency well before you develop a clinical deficiency, so there’s “a missed opportunity to prevent dementia and stroke” when you have enough B12 to avoid deficiency symptoms, but not enough to keep your homocysteine in check. “Underdiagnosis of this condition results largely from a failure to understand that a normal serum [blood level] B12 may not reflect an adequate functional B12 status.” The levels of B12 in our blood do not always represent the levels of B12 in our cells. We can have severe functional deficiency of B12 even though our blood levels are normal or even high.

    “Most physicians tend to assume that if the serum B12 is ‘normal,’ there is no problem,” but, within the lower range of normal, 30 percent of patients could have metabolic B12 deficiency, with high homocysteine levels. 

    Directly measuring levels of methylmalonic acid (MMA) or homocysteine is a “more accurate reflection of vitamin B12 functional statuses.” Methylmalonic acid can be checked with a simple urine test; you’re looking for less than a value of 4 micrograms per milligram of creatinine. “Elevated MMA is a specific marker of vitamin B12 deficiency while Hcy [homocysteine] rises in both vitamin B12 and folate deficiencies.” So, “metabolic B12 deficiency is strictly defined by elevation of MMA levels or by elevation of Hcy in folate-replete individuals,” that is, in those getting enough folate. Even without eating beans and greens, which are packed with folate, folic acid is added to the flour supply by law, so, these days, high homocysteine levels may be mostly a B12 problem. Ideally, you’re looking for a homocysteine level in your blood down in the single digits.

    Measured this way, “the prevalence of subclinical functional vitamin B12 deficiency is dramatically higher than previously assumed…” We’re talking about 10 to 40 percent of the general population, more than 40 percent of vegetarians, and the majority of vegans who aren’t scrupulous about getting their B12. Some suggest that those on plant-based diets should check their vitamin B12 status every year, but you shouldn’t need to if you’re adequately supplementing. 

    There are rare cases of vitamin B12 deficiency that can’t be picked up on any test, so it’s better to just make sure you’re getting enough.

    If you do get your homocysteine tested and it’s still too high, up in the double digits despite B12 supplementation and eating beans and greens, I have a suggestion for you in the final videos of this series, which we’ll turn to next with: Should Vegetarians Take Creatine to Normalize Homocysteine? and The Efficacy and Safety of Creatine for High Homocysteine.

    How did we end up here? To watch the full series if you haven’t yet, check the related posts below. 



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