Natural Ways to Boost Iron Levels: If you’ve been informed that your iron levels are low, you’re not alone. Anemia, which is frequently linked to insufficient iron, is becoming increasingly common. While iron supplements and pills can elevate your iron levels, they don’t address the underlying issue. Rather than merely alleviating the symptoms, here are some natural methods to boost your iron levels.
What Is the Role of Iron in Our Body?
Iron is an essential mineral that plays a critical role in maintaining our health. It is a key component of hemoglobin, the protein in red blood cells responsible for transporting oxygen from the lungs to the body’s tissues. Iron is also found in myoglobin, a protein that delivers oxygen to the muscles. Adequate iron levels are crucial for a robust immune system.
Iron supports various functions in the body, including physical growth, brain development, cellular function, and hormone production. Its role in delivering oxygen to the brain is particularly important, as insufficient oxygen can impair cognitive functions, such as thinking, memory, and decision-making.
When iron levels are consistently low, various symptoms can start to manifest over time.
What If Iron Isn’t the Root Cause?
Certain health experts suggest that rather than being deficient, we might actually be overloaded with iron. The real issue could be whether our bodies can effectively utilize the iron we have. Copper plays a crucial role in regulating both oxygen and iron levels in the body, and without adequate copper, the amount of usable iron can decrease. Additionally, maintaining proper iron balance requires other essential vitamins and minerals.
What Are the Signs of Low Iron?
Identifying low iron levels can be challenging. Symptoms of iron deficiency anemia often include:
- Severe tiredness
- Pale complexion
- Rapid or irregular heartbeat
- Difficulty breathing
- Mental fog
- Weakened immune system
In mild cases, you might not notice any symptoms. It’s only when iron levels drop significantly that you may experience these issues, as the body struggles to transport oxygen effectively.
Testing for Iron Levels
Determining if you have low iron involves more than just a simple blood test. Approximately 70% of our body’s iron is stored in hemoglobin and myoglobin, which are located in red blood cells and muscle cells and are crucial for oxygen transport. The remaining 25% of iron is stored in ferritin proteins, primarily found in the liver and immune cells.
Ferritin levels can indicate the amount of iron stored in the body, with low ferritin levels often being an early sign of iron deficiency anemia. For a comprehensive assessment, healthcare providers typically test both ferritin and serum (blood) iron levels.
Even with these tests, we still don’t get a complete picture of how much usable iron is available in the body. Since the majority of our iron is stored in tissues, it won’t be detected in a standard blood test. To assess iron levels accurately, we must also consider factors like copper, magnesium, and other vitamins that regulate iron in the body.
Our bodies have a natural iron recycling system, and when it malfunctions, it can lead to iron deficiency anemia in blood tests, even if there is plenty of iron stored in tissues. For more insights on this topic, you can listen to my discussion with minerals expert Morley Robinson here.
How Much Iron Is Right for You?
The amount of iron required varies by age, gender, and health status. Different groups have distinct iron needs:
- Women aged 19-50 require 18 mg/day due to monthly menstrual blood loss.
- Men aged 19-50 need 8 mg/day.
- Adults over 51 years old need 8 mg/day.
- Pregnant women need 27 mg/day to support fetal development.
- Breastfeeding women need 9 mg/day to ensure adequate iron for both mother and baby.
Infants, children, and teenagers have varying iron needs based on their age and sex:
- Birth to 6 months: 0.27 mg/day
- Infants (7-12 months): 11 mg/day
- Children (1-3 years): 7 mg/day
- Children (4-8 years): 10 mg/day
- Children (9-13 years): 8 mg/day
- Teen boys (14-18 years): 11 mg/day
- Teen girls (14-18 years): 15 mg/day
What Leads to Iron Shortages?
Low iron levels can arise from a variety of causes, including insufficient dietary intake, blood loss, or issues with nutrient absorption. Key risk factors for developing iron deficiency anemia include:
- Pregnancy
- Infants and young children
- Heavy menstrual bleeding
- Frequent blood donation
- Medical conditions such as cancer or gastrointestinal disorders
- A vegan diet
- Deficiencies in iron-related nutrients like copper, magnesium, and vitamin C
- Chronic inflammation
In otherwise healthy adults, low iron levels are often linked to poor digestion rather than simply a lack of iron-rich foods. For those consuming animal proteins, the key may not be increasing iron intake but improving the absorption and utilization of the iron they already consume.
Chronic inflammation is another major contributor to low iron levels. Conditions such as chronic infections, gastrointestinal disorders, and heavy metal exposure can all cause persistent inflammation. Stress and inflammation can also impact our ability to manage iron effectively. Elevated cortisol levels from ongoing stress can hinder the production of ceruloplasmin, a protein crucial for copper transport, further disrupting iron balance.
Optimizing Digestion to Increase Iron Absorption
If you’ve been diagnosed with anemia or low iron levels, it’s essential to start by examining your digestive health. The small intestine is where iron absorption from food primarily occurs, and a compromised gastrointestinal system can hinder the absorption of iron and other nutrients.
To enhance iron absorption through better digestion, consider implementing the following strategies:
Chew Your Food : Often overlooked, chewing is a vital part of digestion. Thoroughly chewing your food not only physically breaks it down but also initiates the production of saliva and digestive enzymes. Proper chewing is essential for the effective digestion and absorption of nutrients, including iron.
Maintain Adequate Stomach Acid : Effective digestion begins with sufficient stomach acid. Antacids and proton pump inhibitors can disrupt this process by reducing stomach acid levels. Ensuring optimal stomach acid helps in the proper breakdown of food.
Address Gut Dysbiosis : An imbalance in gut bacteria, known as dysbiosis, can hinder nutrient absorption. Based on gut health testing, it might be necessary to eliminate harmful bacterial overgrowth or support the growth of beneficial bacteria. Restoring gut health is crucial for improving nutrient absorption. By focusing on gut health, you’ll enhance your ability to absorb nutrients, including iron, from the foods you eat.
Heme Iron Sources
Animal products contain both heme and non-heme iron, but heme iron is unique to them. Heme iron is more efficiently absorbed by the body compared to non-heme iron. Some excellent sources of heme iron include:
- Red Meat: Grass-fed beef, bison, venison
- Poultry: Chicken, turkey, duck
- Fish: Sardines, tuna, salmon, mackerel, halibut, haddock, perch
- Seafood: Shrimp, clams, oysters, scallops
- Organ Meats: Calf’s liver, kidneys, chicken liver, cod liver, beef heart, tripe, and more
Focusing on these heme iron-rich foods can enhance iron absorption. Including non-heme iron sources is also beneficial, provided you do not have issues with oxalates.
Avoid Factors That Reduce Iron Absorption
To enhance the effectiveness of the iron in your diet, it’s important to avoid substances that can hinder iron absorption. Some common culprits include:
- Calcium: Found in dairy products and other calcium-rich foods.
- Tannins: Present in beverages like cola, tea, and coffee.
- Phosphates: Contributing to the fizz in carbonated drinks.
- Fiber: Supplements or bran added to meals can reduce iron absorption.
It’s beneficial to avoid consuming these items in conjunction with iron-rich foods. For instance, having iron-fortified cereal with milk may not be ideal for maximizing iron intake.
Don’t Overlook Vitamin C
Vitamin C (ascorbic acid) is essential for enhancing iron absorption. Including foods high in vitamin C, such as grapefruit, alongside iron-rich foods can boost the body’s ability to absorb iron. However, citrus fruits are not the only sources of vitamin C.
Other good sources include broccoli, cauliflower, bell peppers, and tomatoes. For instance, you might enjoy burgers topped with tomato slices or chicken fajitas with bell peppers. Many cultures have long combined iron-rich foods with vitamin C sources; for example, adding a squeeze of lemon juice to iron-rich fish.
If you use vitamin C supplements, consider taking them with iron-rich meals to maximize their effectiveness.
Cook With Cast Iron to Boost Iron Levels
Using cast iron cookware can boost the iron content in your meals. A few cast iron pans can make a significant difference, as they are versatile enough for use on the stovetop, in the oven, on the grill, or even over a campfire.
Top Iron Supplements
After testing my genetics, I found that I personally thrive with lower iron levels, which has led me to reduce my red meat consumption. My children also do not take iron supplements; instead, I prefer them to get their iron from food and nutrient-rich herbs. Even during pregnancy, I chose to obtain iron through dietary sources rather than supplements.
For those seeking to enhance their iron levels, traditional iron supplements might not always be the best choice. A more natural alternative is the Floradix Iron and Herbs supplement, which is frequently recommended by midwives during pregnancy. Another whole-food source of iron is beef liver pills.
It’s also crucial to balance other minerals and co-factors in the body to optimize iron utilization.
Key Takeaways for Boosting Iron Levels
Enhancing your digestion and focusing on a nutrient-rich diet can significantly raise your iron levels. If you suspect you have low iron, consult with your healthcare provider to have your levels tested. This will help determine if you need to adjust your dietary iron intake or address factors that may be hindering iron absorption.