Iron

Trace Element

Latest measurements

Date Measurement Severity Notes
December 16, 2024 01:12 PM 1.56 Normal (1.151 - 1.847) Mostly meat, some sweets, fruits, sauna, test directly after lunch
November 29, 2024 12:11 PM 1.568 Normal (1.151 - 1.847)  
November 18, 2024 12:11 PM 1.564 Normal (1.151 - 1.847) No supplements, animal and fruit diet, electrolytes
November 5, 2024 11:11 AM 1.549 Normal (1.151 - 1.847) No supplements, animal and fruit diet, electrolytes
October 24, 2024 12:10 PM 1.547 Normal (1.151 - 1.847) No supplements, animal and fruit diet, electrolytes
October 17, 2024 07:10 AM 1.542 Normal (1.151 - 1.847) Stopped strict carnivore diet, more fruits, no supplements
October 8, 2024 12:10 PM 1.262 Normal (1.151 - 1.847) Snake juice fasting continues, Beef yesterday. Electrolytes. No supplements. Long walk in the evening.
October 7, 2024 06:10 AM 1.243 Normal (1.151 - 1.847) 36 hours of water fasting with electrolytes, Magnesium
October 5, 2024 10:10 AM 1.251 Normal (1.151 - 1.847) Bacon, Eggs, Vitamin C, Homocysteine Resist, Magnesium, Zinc
October 4, 2024 09:10 AM 1.246 Normal (1.151 - 1.847) Zinc, B complex, Vitamin C, 1 liter blueberry juice, K2, Calcium, Vit D, Collagen, Beef

Predictions

Predictions based on Least Squares linear regression model

Prediction for Predicted to happen
1.847 Normal (1.151 - 1.847) September 18, 2025 08:09 PM

Iron

Trace Element

Iron is an essential trace element that plays a crucial role in the human body. Here's an explanation of what iron is, its functions in the body, and how patients can improve their iron levels:

What is Iron?

Iron is a mineral that is essential for various physiological functions in the body. It is present in trace amounts and is necessary for overall health and well-being. Iron is commonly found in foods such as red meat, poultry, fish, beans, lentils, spinach, and fortified cereals.

Functions of Iron in the Body:

  1. Hemoglobin Production: Iron is a key component of hemoglobin, a protein in red blood cells that carries oxygen from the lungs to tissues throughout the body. Hemoglobin binds with oxygen in the lungs and releases it to cells and tissues, supporting cellular respiration and energy production.

  2. Oxygen Transport: Iron plays a vital role in oxygen transport, allowing red blood cells to deliver oxygen to organs and tissues. Adequate iron levels are necessary for maintaining optimal oxygen-carrying capacity in the blood.

  3. Cellular Metabolism: Iron is involved in various metabolic processes within cells, including the synthesis of DNA, the formation of neurotransmitters, and the production of energy through cellular respiration.

  4. Immune Function: Iron is essential for the proper functioning of the immune system. It supports the proliferation and activity of immune cells, helping the body defend against infections and diseases.

Consequences of Iron Deficiency:

  1. Anemia: Iron deficiency can lead to anemia, a condition characterized by low levels of hemoglobin and red blood cells in the blood. Anemia can cause symptoms such as fatigue, weakness, pale skin, shortness of breath, and dizziness.

  2. Impaired Oxygen Delivery: Iron deficiency reduces the oxygen-carrying capacity of the blood, leading to tissue hypoxia (oxygen deprivation) and compromising cellular function and metabolism.

  3. Developmental Delays: Iron deficiency in infants and children can impair cognitive development, growth, and learning abilities, leading to developmental delays and behavioral problems.

Improving Iron Levels:

  1. Dietary Sources: Consume iron-rich foods as part of a balanced diet. Good dietary sources of iron include red meat, poultry, fish, beans, lentils, tofu, spinach, fortified cereals, and nuts.

  2. Iron Supplements: Consider taking iron supplements if dietary intake is inadequate or if there is an increased need for iron, such as during pregnancy or periods of rapid growth.

  3. Vitamin C: Pair iron-rich foods with sources of vitamin C, such as citrus fruits, bell peppers, strawberries, and tomatoes, to enhance iron absorption in the body.

  4. Cooking Practices: Use cast-iron cookware for food preparation, as cooking in iron pots can increase the iron content of foods.

  5. Limit Factors that Inhibit Iron Absorption: Avoid consuming foods or beverages that can inhibit iron absorption, such as tea, coffee, and calcium-rich foods, during meals.

By incorporating iron-rich foods into their diet, considering iron supplementation when necessary, and following healthy lifestyle practices, individuals can support optimal iron levels in the body and maintain overall health and well-being.