Doctors Enroute Dr NP Veliotes 082 451 2810

Maintaining balance is a complex process involving the brain, inner ear, muscles, and sensory nerves. As we age, this system becomes more vulnerable, and certain medications can disrupt it, leading to dizziness, unsteadiness, or even falls. 

Understanding which medications may affect balance is crucial, especially for older adults.

1. Benzodiazepines

Used to treat 

anxiety, 

insomnia, and 

seizures, 

diazepam (Valium), 

lorazepam (Ativan), and 

alprazolam (Xanax) 

can cause 

drowsiness, 

dizziness, and 

impaired coordination. 

These side effects increase the risk of imbalance and falls.

2. Antidepressants

Medications such as 

amitriptyline, 

fluoxetine (Prozac), and 

sertraline (Zoloft) 

can lower blood pressure or affect brain signaling, 

leading to light-headedness or unsteadiness, 

particularly when standing up.

3. Antipsychotics

Drugs like 

haloperidol (Haldol), 

risperidone (Risperdal), and

olanzapine (Zyprexa) 

may cause sedation, 

muscle stiffness, and 

inner ear dysfunction, 

all of which can disturb balance.

4. Antihypertensives (Blood Pressure Medications)

Medications such as 

amlodipine, 

metoprolol, and 

lisinopril 

lower blood pressure. 

If blood pressure drops too much, especially when changing positions (a condition known as orthostatic hypotension),

it can lead to dizziness and loss of balance.

5. Diuretics (“Water Pills”)

Drugs like 

furosemide (Lasix) and

hydrochlorothiazide 

reduce fluid in the body, 

which can affect blood volume and pressure,

sometimes causing dizziness, especially in older adults.

6. Antihistamines

Commonly used for allergies, nausea, or motion sickness, 

diphenhydramine (Benadryl),

meclizine, and 

promethazine 

can cause drowsiness and confusion, 

affecting coordination and balance.

7. Opioid Painkillers

Powerful pain medications like 

morphine, 

oxycodone, and 

hydrocodone 

can depress the central nervous system,

leading to sedation and instability.

8. Sleep Medications

Drugs designed to aid sleep, including 

zolpidem (Ambien) and 

eszopiclone (Lunesta), 

can cause grogginess or disorientation the next day, impairing balance.

9. Anticonvulsants (Anti-Seizure Drugs)

Medications such as 

phenytoin, 

carbamazepine, and 

gabapentin, 

used for epilepsy and nerve pain, can interfere with 

motor coordination and 

inner ear function, 

increasing fall risk.

10. Chemotherapy Drugs

Some chemotherapy agents, like 

cisplatin and 

vincristine, 

are neurotoxic and 

can damage the nerves involved 

in balance and coordination, 

leading to dizziness or ataxia (unsteady walking).

If you are experiencing new or worsening balance issues, do not stop your medications without consulting your doctor. It may be possible to adjust the dosage, change medications, or manage side effects with safer alternatives.

Managing Medication-Induced Balance Problems

Regular Medication Review:

Periodically review all medications with your healthcare provider to assess their necessity and potential side effects.

Monitor for Symptoms: 

Be vigilant for signs of dizziness, unsteadiness, or falls, and report them to your doctor promptly.

Lifestyle Adjustments: 

Incorporate balance exercises, ensure proper hydration, and maintain a safe home environment to reduce fall risk.

Use Assistive Devices: 

Canes or walkers can provide additional stability if needed.

Diabetes: Are calf raises effective in lowering blood sugar ?

A sweet tooth can cause you much more than just a sugar rush. It could make you pre-diabetic or even lead to the diagnosis of diabetes. 

According to the Centers for Disease Control and Prevention, CDCP >18,000 young people have type 1 diabetes, and > 5,000 have type 2 diabetes T2D.

With the rise of café culture and binge eating, more and more adults are toying with the line of diabetes diagnosis and most of them are not even aware of the same.

I see so many young people flirting with pre-diabetic levels and want to share a few things that helped me – an easy to do exercise while sitting anywhere. With diabetes on the rise, performing seated calf raises for 10 minutes after meals indicates this exercise activates the soleus muscle, potentially lowering sugar levels by up to 52% by improving insulin response and glucose uptake.

Most diabetologists will tell you to go for walk after your meals to control your sugar spikes.

As per a study published in the National Library of Medicine, the soleus muscle in the calves is capable of raising and sustaining for hours the local rate of oxidative metabolism to high levels.

Another study published in Science Direct stated that doing simple resistance activities such as calf raises for 3 minutes, every 30 minutes over 8 hours, decreased postprandial glucose increase. What engaging the soleus muscles does is, it makes the cells more responsive to insulin and improves glucose uptake. Their movement also ensures the flow of glucose and oxygen throughout the body, thus promoting better blood sugar regulation.

Thus, calf raises can be one of the efforts you need to take to control your post-meal sugar spikes.

Erythropoietin

• Definition1
• Function2
• Tests3
• Results4
• Injections5
• Summary6

Erythropoietin is a vital hormone that stimulates the bone marrow to create red blood cells in the body. 

Having too much or 

too little erythropoietin in the body may contribute to problems with the blood. 

Doctors may recommend tests to check erythropoietin levels in people with blood disorders such as anemia.

People with very low levels of erythropoietin may need injections of the hormone. These injections may successfully resolve the issue, but they do carry their own risks.

In this article, learn more about erythropoietin, including what it does and who is at risk of deficiency.

1Definition

A doctor may order a blood test to check erythropoietin levels.

Erythropoietin is a hormone that plays an important role in making red blood cells. Red blood cells help carry oxygen to other cells and tissues in the body through the bloodstream.

The kidneys and liver produce erythropoietin when oxygen levels in the cells are low. The hormone then stimulates the bone marrow, which, in turn, makes more red blood cells.

It is normal for a small amount of erythropoietin to circulate in the blood, as this helps replenish the body’s natural blood stores. 

Having higher levels of erythropoietin in the blood may be a sign that the body is not getting enough oxygen, however. This may be due to a low red blood cell count from anemia or another condition. 

On the other hand, low levels of erythropoietin in the blood in someone with anemia may be a sign of other issues.

2Function

Erythropoietin helps keep the blood balanced by stimulating the marrow to make red blood cells. This is an important role, as all cells in the body need a fresh supply of blood and oxygen to stay healthy.

Without fresh red blood cells, the organs and tissues in the body may experience hypoxia, which is a lack of oxygen. 

Hypoxia can alter the way the cells behave and may ultimately lead to illness or cell death in the area.

Erythropoietin also helps protect these blood cells once the body creates them.

Erythropoietin levels may vary slightly under normal circumstances, such as when a person moves to a higher altitude. However, some conditions may also interrupt the natural production of erythropoietin in the body. 

For instance, anemia can make it difficult to maintain healthy red blood cells in the body. 

People with anemia may have very high levels of erythropoietin in their blood, as the body is constantly trying to stimulate the marrow to make more red blood cells. 

3Tests

If a healthcare professional suspects that a person has a condition such as anemia, they may ask to take a blood sample to conduct an erythropoietin test. 

Doctors will generally order an erythropoietin test only after the results of a complete blood count test come back abnormal. 

An erythropoietin test measures the levels of erythropoietin in the blood. Doctors use the test to help them identify the underlying cause of anemia or the presence of another condition affecting the red blood cells. 

For example, a doctor may order an erythropoietin test for someone with anemia. Anemia can have many different causes, ranging from iron or vitamin deficiencies to decreased blood cell life span or excessive bleeding.

An erythropoietin test can help a doctor identify the underlying cause of anemia in people who do not seem to have iron or vitamin deficiencies.

Doctors can also use erythropoietin tests when a person has a very high blood cell count. This is a condition called polycythemia. The erythropoietin test can identify the underlying cause and help doctors determine the next step.

Doctors may also order this test when investigating chronic kidney disease. Chronic kidney disease can reduce the body’s ability to create erythropoietin.

Erythropoietin tests may also help diagnose other conditions affecting the bone marrow, such as myeloproliferative disorders.

4Test results

Average erythropoietin levels are around 5.8 to 9.9 international units per liter (IU/L) in males and 6 to 10.6 IU/L in females, according to research in the journal PLoS One. The average range can vary slightly depending on the laboratory conducting the test.

Significant changes in erythropoietin levels may help doctors identify the underlying cause of the issue. However, erythropoietin test results are not conclusive in every case, and doctors will often use other tests to help them identify and diagnose the underlying issue.

Test results that show that a person with anemia has high erythropoietin levels may be a sign of a bone marrow disorder. Low or normal erythropoietin levels in a person with anemia may be a sign of kidney disease.

In people with polycythemia, meanwhile, an erythropoietin test can help doctors identify the next diagnostic tools they need to use.

For instance, a person with polycythemia who has high erythropoietin levels may have a tumor or kidney condition causing them to produce too much erythropoietin. 

A person with polycythemia and normal or low erythropoietin levels may have polycythemia vera, which is a rare type of blood cancer.

In any case, healthcare professionals will use additional tests to help clarify their results and confirm their diagnosis.

5Injections

Blood transfusions using healthy, erythropoietin-rich blood may help treat some forms of anemia from chronic kidney failure.

Sometimes, however, a blood transfusion is not possible. When this is the case, a doctor may recommend synthetic injections called erythropoietin-stimulating agents (ESAs). 

Doctors can deliver these drugs through an injection that activates the bone marrow in the same way that natural erythropoietin does, stimulating red blood cell production.

ESA injections can effectively treat some of the symptoms of kidney failure. In fact, the author of one 2013 article notes that ESA injections are by far most common in people with kidney failure. 

Injections can help restore erythropoietin and red blood cell levels, but it may take time for levels to build up in the blood. It can take weeks, for example, before the person notices a reduction in their symptoms. 

ESA injections may also help treat anemia due to other causes, such as:

• bone marrow conditions
• cancer
• chemotherapy
• drug treatments

ESA injections also have the potential for abuse. Some athletes looking for a competitive edge may seek injections of synthetic erythropoietin to increase the red blood cells and oxygen levels in their body. 

However, adding more erythropoietin to a healthy body can be dangerous and increase the risk of side effects.

Side effects and risks

ESA injections can help treat a number of conditions, but they do have the potential for side effects and risks.

Some common side effects of ESA injections include:

• pain at the injection site
• swelling
• high blood pressure
• fever
• nausea
• dizziness

More serious side effects are also possible. There may be an increased risk of:

• blood clots
• pulmonary embolism
• heart attack
• stroke
• heart failure
• death

Healthy people who abuse ESA injections may be more at risk of these side effects, as the unnecessary increase of red blood cells may make the blood thicker and more prone to clotting.

In some cases of use among people with cancer, the ESA may cause the tumor to grow. Therefore, these people may only receive ESAs for a short time to help prevent the symptoms of chemotherapy.

Also, ESA injections are costly, which can be a barrier to treatment in some cases.

During treatment, doctors will monitor a person’s blood levels regularly. They may adjust the dosage or treatment according to the results of blood tests to reduce the person’s risk of side effects.

6Summary

Erythropoietin is a hormone that plays an important role in the production of red blood cells. 

Abnormal erythropoietin levels may indicate an issue in the kidneys or bone marrow. Tests for erythropoietin levels can help doctors identify the underlying cause of blood conditions. Such causes include anemia.

In people with low erythropoietin levels due to kidney disease or other conditions, ESA injections may help treat the issue.

ESA injections carry some risks, however, as they make the blood thicker and more prone to clotting. Also, healthy people who abuse these injections may be at a higher risk of more serious complications.

Anyone who is uncertain about their diagnosis or treatment should talk to their doctor about all the treatment options before making any changes.

is a condition where there are too few red blood cells in the body due to a shortage of iron.

The body uses iron to produce red blood cells, which transport oxygen around the body.

Without enough iron, there may be too few healthy red blood cells to carry sufficient oxygen to satisfy the body’s needs.

The result of this situation is called iron deficiency anemia, which can leave a person feeling extremely tired and out of breath.

This article further defines iron deficiency anemia. It also explains the causes, risk factors, symptoms, and treatment for the condition. 

Iron Deficiency Anemia

• Definition1
• Causes2
• Risk factors3
• Symptoms4
• Diagnosis5
• Treatment6
• Summary7

1What is anemia?

Fiordaliso/Getty Images

Anemia is a blood condition characterized by a lower number of red blood cells or a lower concentration of hemoglobin within those cells.

Hemoglobin is the part of the red blood cells that binds to oxygen. When the body does not have enough hemoglobin circulating, not enough oxygen gets to all parts of the body. As a result, organs and tissues may not function properly, and a person may feel fatigued.

According to the World Health Organization (WHO)

Trusted Source

, anemia is a serious global health concern. It generally affects children, females who are menstruating, and females who have recently had a baby or recently completed menopause. The WHO estimates that anemia affects around:

• 30% of females ages 15-49
• 37% of pregnant people
• 40% of children ages 6-59 months

Iron deficiency anemia occurs when the body does not have enough iron. It is the most common type of anemia worldwide. 

2Causes of iron deficiency anemia

Iron deficiency anemia relates directly to a lack of iron in the body. However, the cause of iron deficiency varies based on

Trusted Source

 age, gender, and socioeconomic status.

Some common causes include:

• blood loss
• diet
• decreased ability to absorb iron
• pregnancy

Blood loss

One of the most common causes of iron deficiency in adults is blood loss. 

There are various causes of blood loss that can lead to iron deficiency. These include: 

• traumatic injury
• surgery
• bleeding in the gastrointestinal (GI) tract due to a condition, such as:
  • inflammatory bowel disease (IBD)
  • ulcer
  • colon cancer
  • celiac disease
• regular use of medications, such as nonsteroidal anti-inflammatory drugs (NSAIDs) or aspirin
• bleeding in the urinary tract
• bleeding during childbirth
• heavy bleeding during menstruation

Up to 5% of females develop iron deficiency anemia due to heavy bleeding during their periods. 

Some less common causes of blood loss that can lead to iron deficiency include chronic nose bleeds and frequent blood donations. 

Diet

Iron deficiency may occur due to a lack of iron in a person’s diet. This may be especially true during times that require more iron, such as: 

• infants
• young children
• adolescent females
• pregnant people

However, in the United States, iron deficiency from consuming too little iron is rare. This is mainly due to supplemental iron being added to various foods. 

Foods rich in iron, such as eggs and meat, supply the body with much of the iron it needs to produce hemoglobin. If a person does not eat enough to maintain their iron supply, an iron deficiency can develop.

Decreased ability to absorb iron

There are certain medications, factors, and conditions that can make it more difficult to absorb iron. This can lead to iron deficiency anemia. 

Some of these conditions and factors include: 

• Endurance sports: Athletes who participate in endurance sports may be more likely to lose iron through the GI tract and the breakdown of red blood cells. 
• Surgery: Surgery on the stomach or intestines, including weight loss surgery, can make it more difficult for an individual to absorb iron. 
• Digestive and intestinal conditions: Certain conditions may make it more difficult to absorb iron. These include:
  • Crohn’s disease
  • ulcerative colitis
  • celiac disease
  • Helicobacter pylori (H. pylori) infection

Pregnancy

Low iron levels are a common issue

during pregnancy. This is because the body needs more iron than normal in order to support the developing fetus. 

Pregnancy can also cause low iron levels because plasma and blood volumes are increased in the pregnant person during this time. 

3Risk factors for iron deficiency anemia

Some groups of people may have a higher risk of developing iron deficiency anemia.

Vegetarians and vegans

People, such as vegetarians or vegans, who eat a plant-based diet, may have low iron levels. This may be at least partially due tothe body absorbing iron from vegetables differently from iron from meat and poultry. 

It is important for vegetarians and vegans to make sure they are including enough iron in their diet. The Vegetarian Society suggests the following foods:

• chickpeas, lentils, and other pulses
• tofu
• breakfast cereals
• kale
• cabbage
• broccoli
• nuts
• dried fruits

Individuals can also discuss iron supplements with their healthcare professional. 

Females 

Pregnancy, menopause, and heavy bleeding during menstruation can all increase the riskof iron deficiency anemia in females. 

Blood donors

Regular blood donation can lead to iron deficiency or iron deficiency anemia. According to research from 202, this is a potential risk of blood donation that individuals should be made aware of. 

The research also notes that it may be able to be prevented by limiting the amount of blood that is drawn, screening for iron deficiencies, and extending the amount of time between donations. 

Infants and children

Infants and children may be at risk for iron deficiency. By 6-9 months, full-term infants may become iron deficient unless they get enough iron through their diet or through iron-rich formula. 

Similarly, children going through growth spurts may have an increased risk of iron deficiency. It is important for children to eat a varied and nutrient-rich diet to help prevent iron deficiencies.

4Symptoms of iron deficiency anemia

Iron deficiency anemia often develops slowly. This is partially due to it taking several months for the body to use up its iron reserves. 

In some cases, an iron deficiency may improve with no intervention, as a person’s situation changes, such as after giving birth.

However, if a person has any symptoms of iron deficiency anemia, they should speak with a healthcare professional.

A person with an iron deficiency can have some of the following symptoms:

• general weakness
• dizziness or lightheadedness
• extreme fatigue
• fast heartbeat
• easily broken and brittle nails
• paleness
• chest pain
• shortness of breath
• headaches
• cold hands and feet
• soreness or inflammation of the tongue
• cravings for non-nutritive things, such as dirt, starch, or ice
• poor appetite, especially in children

Complications

In milder cases of iron deficiency anemia, a person is unlikely to experience complications. However, additional complications can occur if the iron deficiency anemia is left untreated.

Possible complications include:

• slow growth and developmental delays in children and infants
• heart problems, including heart failureor an enlarged heart due to it compensating for lack of oxygen
• pregnancy complications, including low birth weights and an increased risk of premature birth
• depression
• restless leg syndrome

5Diagnosing iron deficiency anemia

Only a healthcare professional can diagnose iron deficiency anemia. It is important for a person to seek advice from a medical professional if they have noticeable symptoms.

It is likely that a healthcare professional will usually begin the exam by asking questions about a person’s general health. They may examine the skin tone, the fingernails, and under the eyelids to look for physical signs of iron deficiency anemia.

A healthcare professional will also generally order blood tests to check complete blood count (CBC), hemoglobin levels, blood iron levels, and ferritin levels. 

They may ask further questions or run additional tests to help determine if the iron deficiency anemia is the result of an undiagnosed underlying condition.

These tests may vary, depending on other symptoms a person describes. For example, someone experiencing pain during digestion may require an endoscopy to see if a gastrointestinal disease is the cause of the iron deficiency.

6Treatment and self-management

Iron deficiency anemia is usually treated in two ways, which involve

increasing iron intake and treating any underlying conditions.

Healthcare professionals may recommend using iron supplements to help correct iron intake levels. Supplements are often available over the counter. It is important to take the supplements as prescribed, because too much iron can be toxic and damage the liver.

Furthermore, large amounts of iron can cause constipation. As a result, a healthcare professional may prescribe stool softeners or laxatives to ease bowel movements.

If an underlying condition is found, further treatment may be needed. Treatments for underlying conditions will depend on the problem but may mean additional medications or surgery.

Self-management can involve adding more iron and vitamin C to the diet. 

Foods rich in iron include: 

• beans
• red meat
• oysters
• liver
• dried fruits
• iron-fortified cereals
• peas 

Foods rich in vitamin C include: 

• citrus fruits
• leafy greens
• broccoli

It is important to remember that correcting iron deficiency takes time. Treating iron deficiency anemia with supplements typically takes 3-6 weeks and requires continuation for 6 months after blood levels return to normal.

7Summary

Iron deficiency anemia is the most common type of anemia. It occurs when there are too few red blood cells in the body due to a lack of iron. 

It often occurs during pregnancy, due to blood loss, or due to a decreased ability to absorb iron. Symptoms can include fatigue, pale skin, and shortness of breath. 

Treatment for iron deficiency anemia typically involves iron supplements and treating any underlying conditions. 

causes the body to absorb too much iron from foods. 

To minimize the symptoms and reduce the risk of complications, people can follow a

hemochromatotis diet. 

1Dietary factors

2What to eat

3What to avoid

4Effects of diet

5Other treatments

6FAQs

7Summary

1Dietary factors
The goal of treating hemochromatosis is to reduce the amount of iron in the body to normal levels.

As well as eating only foods that are low in iron, there are other factors to consider. For example, some dietary components affect how much iron the body absorbs.

Examples include:

• Iron type: Heme iron is easier for the body to absorb than nonheme iron. Plant-based foods contain only nonheme iron, whereas meat, poultry, fish, and seafood contain both heme and nonheme iron.
• Vitamin C: This vitamin enhances nonheme iron absorption.
• Calcium: This mineral can reduce iron absorption.
• Phytates, tannins, and polyphenols:These dietary components limit the absorption of nonheme iron.

In addition to dietary changes, doctors can treat hemochromatosis with medication and therapeutic phlebotomy, a treatment that removes blood from the body.

2What to eat

Currently, the American College of Gastroenterology (ACG) and the European Association for the Study of the Liver (EASL)offer guidelines for the hemochromatosis diet. While there are some conflicting recommendations, the guidelines largely offer similar suggestions.

Fruits and vegetables

Fruits and vegetables are an important part of any healthful diet. They are rich in vitamins and minerals that are vital for the body to function properly. A 2021 overview advises people with hemochromatosis to consume as much fruit and vegetables as they can. 

Some fruits and vegetables, including spinach, mushrooms, and olives, are high in nonheme iron. However, as nonheme iron is harder for the body to absorb, they are less likely to affect iron levels significantly.

Many fruits and vegetables also contain substances that reduce iron absorption. 

Some examples include:

• spinach
• kale
• rhubarb
• strawberries
• beetroot
• leafy greens
• edamame beans

Certain proteins

Lean protein is an essential part of a healthful, balanced diet, but many sources of lean protein contain iron. 

Preferable sources of protein on a hemochromatosis diet include:

• lean white meat, such as poultry
• fish
• eggs

Additionally, soy proteins, such as tofu, tempeh, soybeans, soy milk, and edamame beans can help to inhibit iron absorption.

Wholegrains

Wholegrains contain phytates, which can make it difficult for the body to absorb iron. A 2021 narrative review advises that people should consider non-sourdough, yeast-fermented bread with at least 50% whole grain to help slow the absorption of iron.

It is advisable to avoid sourdough bread, as the bacteria that ferments it produces lactic acid, which can enhance iron absorption. 

Tea and coffee

Tea and coffee contain tannins, which are types of polyphenol plant compounds.

The tannins in tea and coffee may reduce iron absorption. Drinking these beverages is another way for people with hemochromatosis to manage their iron levels.

Calcium-rich foods

Calcium can inhibit the absorption of both nonheme and heme iron.

Examples of calcium-rich foods include:

• yogurt
• milk
• cheese
• tofu
• green leafy vegetables, such as broccoli 

3What to avoid

Doctors generally advise people with hemochromatosis to avoid iron-fortified foods and supplements. Other foods to consider avoiding

Red meat

Most red meats, including beef, lamb, and venison. Chicken and pork contain lower amounts of heme. As heme iron is easy for the body to absorb, people with hemochromatosis may wish to avoid most red meat.

If a person wishes to consume read meat, they can pair it with foods that reduce iron absorption.

Raw shellfish

Shellfish, such as mussels, oysters, and clams, sometimes contain Vibrio vulnificus bacteria. These bacteria can cause a serious infection called vibriosis.

People with hemochromatosis are more susceptible to vibriosis infection. Therefore, it is important to cook any shellfish thoroughly to kill the bacteria. People can also reduce their risk of infection by discarding any raw shellfish that have open shells and avoiding eating any shellfish that remain unopened after cooking.

Vitamin C

Vitamin C increases the absorption of nonheme iron. Due to this, people with hemochromatosis should avoid vitamin C supplements. 

The amount of vitamin C in fruits and vegetables is generally too low to have a significant effect on iron absorption. These foods also contain a variety of other nutrients that are important in a healthful diet.

However, eating foods or drinking beverages high in vitamin C alongside iron-rich foods may enhance iron absorption. For this reason, pairing iron-rich foods with vitamin C-rich foods may not be the best choice for those with hemochromatosis.

Fortified foods and iron supplements

Fortified and enriched foods contain added vitamins and minerals that aim to improve nutrition. For example, many cereal products are fortified with calcium, vitamin D, and iron. Similarly, iron supplements aim to increase a person’s iron intake. 

As such, it is advisable for people with hemochromatosis to avoid iron-fortified foods or supplements containing iron.

Alcohol

Consuming alcohol can promote the absorption of iron. Additionally, digesting alcohol causes the body to produce substances that damage the liver. 

As such, a doctor may suggest

 to a person with hemochromatosis that they limit their alcohol intake. 

4Does diet have much effect on this condition? 

Diet can affect iron absorption, but whether it has much of an effect on hemochromatosis is unclear. 

According to the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), dietary changes have only a small effect on iron levels compared with standard treatments for hemochromatosis. Although dietary changes may help reduce iron levels in small amounts, they are not nearly as effective as medications or phlebotomy. However, it is advisable for a person with hemochromatosis to consult a dietician.

Additionally, the Centers for Disease Control and Prevention (CDC)

 suggest that people with hemochromatosis should avoid:

• iron supplements
• vitamin C supplements
• raw shellfish
• high alcohol use

Managing Genetic Hemochromatosis: 

An Overview of Dietary Measures, Which May Reduce Intestinal Iron

Genetic hemochromatosis causes iron overload by excess absorption of dietary iron, due to a decreased expression of hepcidin. 

The objective was to elaborate dietary recommendations that can reduce intestinal iron absorption in hemochromatosis patients, based on our present knowledge of the iron contained in nutrients and the mechanisms of iron uptake. 

This is a narrative review. 

Literature search in PubMed and Google Scholar of papers dealing with iron absorption from the diet was conducted. 

Most important proposed dietary recommendations are: 

1) Choose a varied vegetarian, semi-vegetarian or flexitarian diet. A “veggie-lacto-ovo-poultry-pescetarian” diet seems optimal. Avoid iron enriched foods and iron supplements. 

2) Eat many vegetables and fruits, at least 600 g per day. 

Choose protein rich pulses and legumes (e.g., kidney- and soya beans). Fresh fruits should be eaten between meals. 

3) Abstain from red meat from mammals and choose the lean, white meat from poultry. Avoid processed meat, offal and blood containing foods. 

Eat no more than 200 g meat from poultry per week. 

Choose fish, eggs, vegetables and protein rich legumes the other days. 

Eat fish two to four times a week as main course, 350 – 500 g fish per week, of which half should be fat fish. 

4) Choose whole grain products in cereals and bread. 

Avoid iron enriched grains. 

Choose non-sourdough, yeast-fermented bread with at least 50% whole grain. 

5) Choose vegetable oils, and low-fat dairy products. 

6) Eat less sugar and salt. 

Choose whole foods and foods with minimal processing and none or little added sugar or salt. 

7) Quench your thirst in water. 

Drink green- or black tea, coffee, or low-fat milk with the meals, alternatively water or non-alcoholic beer. 

Fruit juices must be consumed between meals. 

Abstain from alcoholic beverages. 

Drink soft drinks, non-alcoholic beer, or non-alcoholic wine instead. 

These advices are close to the official Danish dietary recommendations in 2021. 

In the management of hemochromatosis, 

dietary modifications that 

lower iron intake and decrease iron bioavailability may provide additional measures to reduce iron uptake from the foods and reduce the number of phlebotomies.

5Other treatment options

Treatment for hemochromatosis usually involves:

Phlebotomy

Doctors remove excess iron by drawing about 1 pint of blood at a time. They will regularly order blood tests to check iron levels.

Chelation therapy

Chelation therapy removes iron using pills or injections. These treatments are necessary for people who are unable to undergo blood removal due to conditions such as anemia or heart problems.

Chelation therapies are less effective than phlebotomy in removing iron.

5Frequently asked questions

Some FAQs about the hemochromatosis diet may include:

What foods should you avoid if you have hemochromatosis?

People with hemochromatosis should try to limit iron-fortified or iron-rich foods, such as red meat. It may also be helpful to avoid pairing these foods with sources rich in vitamin C, such as citrus fruits. This is because vitamin C can increase iron absorption.

However, it is important to note that diet only has a small effect on iron levels in comparison to the medical treatments for hemochromatosis. 

Is chicken bad for hemochromatosis?

Many protein sources may also contain iron. Despite this, people following the hemochromatosis diet do not need to avoid animal protein. However, it is advisable to opt for lean animal proteins that contain lower amount of iron, such as chicken.

Can you eat cheese if you have hemochromatosis?

Calcium-rich foods, such as cheese, can help to inhibit the absorption of iron. As such, it can be helpful for those following a hemochromatosis diet to include foods such as cheese.

What foods lower your iron levels?

Foods that can reduce the body’s ability to absorb iron include soy proteins, such as tofu, beverages containing tannins, such as tea and coffee, wholegrain fibers, such as bran, and calcium-rich foods, such as cheese.

6Summary

Hemochromatosis causes people to absorb too much iron from foods.

The goal of treating hemochromatosis is to remove excess iron from the blood through phlebotomy or chelation therapy. Avoiding vitamin C supplements, raw shellfish, and high alcohol use may also be helpful. 

Eating foods that are lower in iron or reduce iron absorption may also help keep iron levels within normal limits. However, reducing dietary iron is not as effective as other hemochromatosis treatments. 

Iron overload causes the body to store excess iron, increasing the risk of liver disease and other complications.

The body cannot excrete excess iron, so it stores it in certain organs, notably the liver, heart, and pancreas, which can lead to organ damage. Damage to the pancreas can cause diabetes. 

Without treatment, excess iron can also turn the skin a bronze color.

With treatment, people with hemochromatosis generally have a positive outlook. Treatments may include drawing blood to reduce the body’s iron levels and making dietary changes to reduce iron intake.

This article discusses the types, causes, symptoms, and treatment of hemochromatosis.

1What is hemochromatosis (iron overload)?

Jacob Wackerhausen/Getty Images

In a healthy body, when the stores of iron are sufficient, the intestines reduce the absorption of this mineral from food and drink to prevent its levels from rising too high.

People with iron overload absorb more iron than usual from food or supplements. The body cannot excrete the extra iron fast enough, so it continues to build up. The body stores it in organ tissue, mainly in the liver, heart, and pancreas.

There are several types of iron overload disorder. Hereditary hemochromatosis is a primary condition that has a genetic component. People can also have secondary hemochromatosis, which develops as a result of another disease or condition.

2Types and causes of hemochromatosis

There are several types of iron overload disorder, each with different causes.

Primary hemochromatosis: A genetic mutation

Hereditary hemochromatosis, which people may also refer to as primary or classic hemochromatosis, is one of the most common genetic conditions in the United States. Not everyone with the condition experiences symptoms.

This condition mostly affects white people. According to a 2018 study, about 1 in 200 white people in the United States and Australia have hereditary hemochromatosis. Around 10–14% of each of these populations carry the genetic mutations.

Hereditary hemochromatosis occurs due to a mutation in a gene called HFE. This gene controls the amount of iron that the body absorbs. There are over 100 identified mutations in the HFE gene that can lead to hereditary hemochromatosis. Two possible mutations in the HFE gene are C282Y and H63D.

In the U.S., most people with inherited hemochromatosis have inherited two copies of C282Y, one from the mother and the other from the father. A person who inherits just one faulty gene is not certain to develop iron overload syndrome, but they will be a carrier, and they will probably absorb more iron than normal.

Some people inherit one C282Y mutation and one H63D mutation. A small proportion of these people will develop hemochromatosis symptoms. Inheriting two copies of H63D is rare, and research has not yet confirmed whether this may increase the risk of hemochromatosis.

Secondary hemochromatosis:

can result from health conditions, such as liver disease and anemia.

Most people absorb and lose about 1 milligram (mg) of iron per day. People with hemochromatosis can absorb up to 4 mg of iron each day.

An excessive buildup of iron in the organs can be toxic and cause damage. 

Secondary hemochromatosis occurs as the result of:

• taking too many iron supplements
• receiving a high number of blood transfusions
• having a condition where red blood cells are not formed efficiently

Conditions that can lead to secondary iron overload include:

• sickle cell disease
• thalassemia
• sideroblastic anemia
• hemolytic anemia
• myelodysplasia

Juvenile hemochromatosis

Juvenile hemochromatosis is an inherited condition that results from defects in a gene called HJV. Iron builds up earlier in life, and symptoms typically appear before the age of 30.

Symptoms include diabetes, problems with sexual development, and heart abnormalities. Without treatment, juvenile hemochromatosis can cause serious, life threatening complications. 

Neonatal hemochromatosis

Neonatal hemochromatosis affects fetuses and newborns. It is associated with liver disease that is the result of iron buildup in the liver and other parts of the body. In severe cases, this can lead to stillbirth. Most infants with neonatal hemochromatosis shows signs within the first 48 hours after birth. 

Research suggests that the cause is not genetic. It may happen because the pregnant person’s immune system produces antibodies that damage the fetal liver.

3Risk factors for hemochromatosis

The following risk factors may increase a person’s likelihood of having hemochromatosis:

• Genetic factors: Having two copies of a faulty HFE gene is the main risk factor for hereditary hemochromatosis. The person inherits one copy of the mutated HFE gene from each parent. H refers to high, and FE means iron.
• Family history: A person with a parent, child, brother, or sister with hemochromatosis may be more likely to have it.
• Gender: Iron overload affects both males and females, although it may have a less significant effectTrusted Source
   on females. The reason for this is that most females regularly lose blood during menstruation, and blood loss reduces iron levels. 

4Symptoms of hemochromatosis

The signs and symptoms of iron overload are often mild, and in 3 out of 4 cases, people with iron overload show no symptoms.

Signs usually do not appear on average until the age of 40. However, females may be more likely to experience symptoms 10 years later than males.

If the condition advances, the main symptoms include:

• chronic fatigue
• weakness
• joint pain
• abdominal pain
• irregular heartbeat
• a loss of libido, or sex drive
• hypogonadism, which means the reduction in the production of hormones in the testes or ovaries

In time, the following conditions may develop:

• arthritis
• liver disease or cirrhosis (permanent scarring) of the liver
• enlargement of the liver
• diabetes
• hypothyroidism
• heart disease
• pancreatitis

5Diagnosing hemochromatosis

Hemochromatosis can be difficult to diagnose from the symptoms as these can overlap with the symptoms of other conditions. A healthcare professional may refer a person to a hepatologist (a liver specialist) or a cardiologist (a heart specialist).

Some tests can help doctors diagnose hemochromatosis. These include blood tests, liver tests, MRI scans, and genetic testing.

Two different types of blood tests can detect iron overload, even before symptoms appear.

The serum transferrin saturation test measures the amount of iron bound to transferrin — a protein that carries iron in the blood. Saturation values of more than 45% are considered too high.

The serum ferritin test measures the amount of iron that the body has stored. Knowing these levels helps a healthcare professional diagnose a person and monitor them during treatment.

Doctors need to perform both blood tests, and they may need to repeat them for increased accuracy, as other conditions can also raise ferritin levels.

These are not routine blood tests, and they are typically only performed if someone has a parent, child, or sibling with hemochromatosis. However, they may also be used in people with anemia, blood loss, malnutrition, liver disease, and other conditions. 

However, people may also undergo these tests if they have any of the following signs, symptoms, and conditions:

• diabetes
• elevated liver enzymes
• erectile dysfunction
• extreme tiredness
• heart disease
• joint disease

In people who consume excessive amounts of alcohol or those who have had many blood transfusions or hepatitis C, the results of these blood tests may suggest iron overload.

These additional tests can help confirm a diagnosis of hereditary hemochromatosis:

• genetic testing can determine whether the person carries the HFE gene.
• MRI scans to check iron levels in the liver
• a liver biopsy can determine iron levels in the liver and reveal any cirrhosis or other damage, but this test is less common 

6Treatment for hemochromatosis

If a person receives early diagnosis and treatment, they usually have a typical life expectancy. They should have regular blood tests, though, and treatment typically continues for life.

There are several treatments for iron overload.

Phlebotomy

Phlebotomy, or venesection, is a regular treatment to remove iron-rich blood from the body.

Usually, this will need to take place weekly until levels return to normal. When iron levels build up again, the person will need to repeat the treatment.

How much blood is taken, and how often, depends on:

• the person’s age and sex
• the person’s overall health
• the severity of the iron overload

Healthcare professionals may remove 1 pint of blood once or twice each week in the early stages of treatment. After this, they may remove blood every 2–4 months.

Phlebotomy cannot reverse cirrhosis, but it can improve symptoms, such as nausea, abdominal pain, and fatigue. It may also improve heart function and joint pain.

Chelation

Iron chelation therapy involves taking oral or injected medication to remove excess iron from the body. Medications can include a drug that binds the excess iron before the body excretes it.

Although doctors do not tend to recommend this as a first-line treatment for hemochromatosis, it may be suitable for some people.

Hemochromatosis diet

Dietary changes to limit iron intake can help reduce symptoms and lower iron levels. Dietary changes can include:

• avoiding supplements that contain iron
• avoiding supplements that contain vitamin C, as this vitamin increases iron absorption
• reducing iron-rich and iron-fortified foods
• avoiding uncooked fish and shellfish
• limiting alcohol intake, as this can damage the liver

7Complications of hemochromatosis

Without treatment, an accumulation of iron can lead to health complications, such as:

• cirrhosis
• a higher chance of liver cancer relating to cirrhosis or hemochromatosis
• diabetes and associated complications
• congestive heart failure, if too much iron builds up in the heart and the body cannot circulate enough blood
• irregular heart rhythms, or arrhythmias, leading to chest pain, palpitations, and dizziness
• endocrine problems, such as hypothyroidism or hypogonadism
• arthritis, osteoarthritis, or osteoporosis
• bronze or gray skin due to the deposits of iron in skin cells

Other complications can include depression, gallbladder disease, and some cancers.

According to the Iron Disorders Institute, some autopsies have revealed that people with neurodegenerative diseases — such as Alzheimer’s disease, multiple sclerosis, and epilepsy — had problems with iron levels in the brain.

8Summary

Hemochromatosis it iorn overload involves excess levels of iron building up in the body. Without treatment, the condition can cause serious complications, and it can be life threatening.

People can have a typical life expectancy with treatment, especially with early diagnosis and effective management.

10 blueberries 🫐 

9 bell peppers 🫑 

8 apples 🍎 

7 egg white 🥚⬜️

6 garlic 🧄 

5 cauliflower 🔘

4 cabbage 🥬 

3 cranberry 🔴

2 pineapple 🍍 

1 onion 🧅 

FRUITS TO CLEAN KIDNEYS

1 watermelon 🍉 

2 Lemons 🍋 

3 apples 🍎 

4 berries 🍓

5 cranberries 🔴

6 pineapple 🍍 

In the ongoing quest for better health and disease prevention, certain foods have garnered attention for their potential cancer-fighting properties. 

While no single food guarantees immunity against cancer, incorporating specific nutrient-rich items into your diet may contribute to overall well-being and reduce the risk of certain cancers.

1. Berries

Berries, including blueberries, raspberries, and strawberries, are rich in antioxidants like anthocyanins and ellagic acid. These compounds help neutralize free radicals, reducing oxidative stress and potentially inhibiting cancer cell growth. Regular consumption of berries has been associated with a lower risk of various cancers, including those of the digestive tract.

2. Cruciferous Vegetables

Vegetables such as broccoli, cauliflower, Brussels sprouts, and kale belong to the cruciferous family. They contain glucosinolates, which, when broken down, form biologically active compounds like indoles and isothiocyanates. These substances have been studied for their potential to inhibit cancer development, particularly in the colon, breast, and prostate.

3. Garlic

Garlic is known for its sulfur-containing compounds, such as allicin, which may have anti-cancer effects. Studies suggest that garlic consumption can reduce the risk of certain cancers, including those of the stomach and colon, by enhancing DNA repair, slowing cell proliferation, and inducing apoptosis in cancer cells.

4. Turmeric

Turmeric contains curcumin, a compound with potent anti-inflammatory and antioxidant properties. Research indicates that curcumin can interfere with various molecular pathways involved in cancer development, potentially inhibiting tumor growth and spread. Incorporating turmeric into your diet may offer protective benefits against several cancer types.

5. Green Tea

Green tea is rich in polyphenols, particularly epigallocatechin-3-gallate (EGCG), which exhibit antioxidant and anti-inflammatory effects. These compounds may help prevent cancer cell proliferation and induce apoptosis. Regular consumption of green tea has been linked to a reduced risk of cancers, including those of the breast, prostate, and colon.

6. Fatty Fish

Fatty fish like salmon, mackerel, and sardines are excellent sources of omega-3 fatty acids. These healthy fats have anti-inflammatory properties and may inhibit cancer cell growth. Some studies suggest that higher intake of omega-3s is associated with a lower risk of colorectal and prostate cancers. 

7. Legumes

Beans, lentils, and peas are rich in fiber, protein, and various phytochemicals. High fiber intake is associated with a reduced risk of colorectal cancer. Additionally, legumes contain saponins and lignans, compounds that may have anti-cancer effects by inhibiting tumor growth and inducing apoptosis.

Incorporating these foods into a balanced diet can contribute to overall health and may reduce the risk of certain cancers. It’s essential to combine dietary choices with other healthy lifestyle practices, such as regular physical activity, maintaining a healthy weight, and avoiding tobacco and excessive alcohol consumption, to maximize cancer prevention efforts.

Research shows that nearly 7 in 10 adults over 40 are now struggling with weight gain, especially around the belly.

“You were probably told that cutting calories, exercising harder, or trying supplements would help.

But the truth is—these provide little to no effect when it comes to losing weight after 40.

Scientists now confirm: As you age, it’s not just testosterone or estrogen that change.

There’s another hormone silently building up over time—and it may be the real reason you’re gaining weight, feeling tired, and can’t seem to burn fat no matter what you try.

“It causes brain fog, fatigue, cravings, and yes—belly weight that won’t budge.

But first, let’s talk about why “eat less, move more” no longer works after 40.

“After 40, cortisol—your stress hormone—gradually builds up in the body, and when cortisol stays high, it triggers several changes:

1. Your metabolism slows down, so you burn fewer calories
2. Insulin resistance increases, making it easier for fat to accumulate
3. Hunger hormones rise, leading to overeating and strong sugar cravings
4. Sleep quality and energy levels drop, making it harder to stay active and recover
5. You may start noticing your body changing even if your habits haven’t. It’s not just about weight—it’s where the fat goes that matters most. Cortisol changes fat distribution.  

Even if you’ve always been thin, you may start gaining belly fat.

Additionally, more of it is stored deep around your organs—what’s called visceral fat.

And that’s the dangerous kind—linked to heart disease, diabetes, and inflammation.

Even if you’ve tried cutting calories, fasting, or pushing yourself at the gym… if you don’t address cortisol, nothing really changes.

That’s why most people over 40 find themselves stuck in the same cycle. Low energy. Weight gain. Poor sleep. No plan seems to work.

While many believe weight gain after 40 is just due to aging or slowing metabolism, the real issue goes deeper.

And it’s not something a typical “healthy” diet or exercise plan can fix. Because if eating clean and working out were enough, millions of people over 40 wouldn’t still be struggling with stubborn belly fat.

“The truth is, most weight loss plans don’t address the root cause of this weight gain—elevated cortisol after 40.”

Cortisol, also known as the stress hormone, naturally rises when your body feels under pressure physically or emotionally. And it accumulates as you age.

“And when cortisol stays high, it throws off your whole system—our metabolism slows down, your hunger hormones spike, and you start storing extra fat around your belly, making it nearly impossible to lose weight.”

That’s exactly why traditional weight loss methods don’t work after 40:

1. They don’t lower cortisol.
2. They don’t reduce inflammation.
3. They don’t work with your body.

Carnivore Cortisol Detox Programme:

1. It’s not a supplement.
2. It’s not a cleanse.
3. It’s not a strict workout plan.
4. It’s not about starving or avoiding meat.

It’s a specific way of eating that helps to lower cortisol naturally—by removing the hidden stressors in food and rebalancing the body. It’s backed by science.

A recent study found that eating a Carnivore diet—high in nutrient density and low in inflammatory triggers—helped people over 40 lower their morning cortisol levels by up to 50%, reduce systematic inflammation, and stabilize energy metabolism. Better sleep. Fewer cravings. Less bloating. Clearer thinking.  Fat melting off the belly.

How the Carnivore Cortisol Detox Works:

1. Removes hidden stressors from food (like processed carbs, seed oils, and anti-nutrients)
2. Provides steady energy and protein to support lean muscle and hormone production
3. Promotes deep metabolic healing and cortisol regulation
4. Targets visceral fat around the belly
5. Reduces inflammation, bloating, and brain fog
6. Supports testosterone, estrogen, and better sleep
7. There’s no need to count calories, give up the food you like, do exhausting workouts, or live in the gym.

Chronic stress can lead to prolonged periods of elevated cortisol levels.

Eating a nutritious diet of whole grains, fruits and vegetables, lean proteins, and healthy fats is one part of managing stress levels and balancing cortisol levels. This may include foods such as dark chocolate, avocados, fermented foods, spinach, bananas, green tea, lean poultry, fatty fish, and eggs.

A “carnivore cortisol detox diet” combines the principles of the carnivore diet, which focuses on meat, with the goal of reducing stress and cortisol levels. While the carnivore diet eliminates all plant-based foods, including those with potential stress-reducing properties like fruits, vegetables, and some grains, proponents suggest it can improve overall health and potentially reduce inflammation, which can indirectly impact cortisol levels. 

Here’s a breakdown of the approach: 

1. The Carnivore Diet: 

• Focus:
  Primarily consists of meat, poultry, fish, eggs, and some dairy products like cheese and heavy cream. 
  
  
  
• Elimination:
  All carbohydrates and fiber sources are removed, including fruits, vegetables, grains, nuts, and seeds. 
  
  
  
• Proponents’ Arguments:
  Some argue that eliminating plant-based foods can restore metabolic health and reduce inflammation. 
  
  
  

2. The Cortisol Detox Aspect: 

• Cortisol’s Role:
  Cortisol is a stress hormone that can be elevated due to various factors, including stress, poor diet, and lack of sleep. 
  
  
  
• Potential Benefits of Carnivore Diet (Indirectly):
  • Reduced Inflammation: By eliminating potentially inflammatory plant foods, the carnivore diet aims to reduce overall inflammation, which can indirectly impact cortisol levels. 
  • Improved Metabolic Health: Supporters claim that the carnivore diet can improve metabolic health, which can contribute to better stress management and lower cortisol levels. 
  • Individualized Approach: Some individuals find that eliminating certain food groups, like those on the carnivore diet, helps them manage stress and cortisol levels more effectively. 
    
    

3. Potential Drawbacks and Considerations: 

• Nutrient Deficiencies:
  The carnivore diet can lead to deficiencies in certain nutrients, particularly vitamins and minerals, which are primarily found in plant-based foods. 
  
  
  
• Sustainability:
  The carnivore diet may be challenging to maintain in the long term due to its restrictive nature and potential for nutrient deficiencies. 
  
  
  
• Not a Substitute for Professional Medical Advice:
  Individuals considering a carnivore diet for cortisol detox should consult with a healthcare professional or registered dietitian to ensure it’s safe and appropriate for their individual needs. 
  
  
  

4. Alternative Approaches for Cortisol Detox: 

• Whole-Food, Plant-Based Diet:
  A balanced diet rich in fruits, vegetables, lean proteins, and whole grains can help manage stress and cortisol levels. 
  
  
  
• Stress Management Techniques:
  Practices like deep breathing, meditation, yoga, and journaling can help reduce stress and lower cortisol levels. 
  
  
  
• Supplements:
  Certain supplements, like adaptogenic herbs, may help regulate cortisol levels. 
  
  
  
• Lifestyle Changes:
  Getting enough sleep, exercising regularly, and limiting caffeine intake can also help manage stress and cortisol levels. 
  
  

▪️1. BPA Lined Can

This ingredient found in hard plastics and resins is used to coat metal cans. 

Laboratory studies in cells and animals have linked BPA to cancer, infertility, diabetes, and obesity. Unless a canned item is labeled BPA-free, it’s likely to contain bisphenol-A (BPA). 

BPA can also be found in numerous plastic products and dental composites.

▪️2 Cured and Smoked Foods

Nitrates and nitrites act as preservatives to prevent food from spoiling, they also add color to meats. 

When cooked, nitrites and nitrates change into by-products called N-nitroso compounds, such as nitrosamines and nitrosamides. 

N-nitroso compounds are associated with an increased risk of cancer.

Some examples of processed meats to avoid are:

bacon, 

sausages,

hot dogs, 

pepperoni, 

prosciutto,

beef jerky, 

salami.

▪️3 Farmed Fish

According to Food and Water Watch, farmed fish contain higher levels of chemical pollutants than wild fish, including PCB’s, a known carcinogen. 

Due to overcrowding in fish farms, fish are more susceptible to disease, increasing the need to use antibiotics. 

They are also more susceptible to sea lice, which means they are also treated with pesticides.

▪️4 Grilled Meat

Polycyclic aromatic hydrocarbons, or PAHs, are produced through certain types of combustion, such as the burning of coal or wood. 

An additional problem is created when fat from meat drips onto a fire, creating a flare-up and smoke, this allows the PAHs to affix themselves to the food you’re cooking, increasing your risk for carcinogenic exposure.

▪️5 Hydrogenated oils, 

also known as trans-fats, are a man-made product.

These oils have a chemical structure that has been altered to prevent the product from going rancid in order to increase their shelf life.

The Harvard School of Public Health notes that trans fats promote immune system over-activity and inflammation and are linked to heart disease, stroke, and diabetes, among other chronic diseases. In addition to being chemically extracted from their source, chemicals are also used to mask the odor and change the taste of the oil.

▪️6 Microwave Popcorn

These bags are lined with Perfluoro-alkyls, 

per-fluoro-octanoic acid (PFOA) and per-fluoro-octane sulfonate (PFOS) to prevent oil from soaking through the packaging.

When heated, these chemicals leach into the popcorn; when ingested, they show up as blood contaminants.

PFOA has been associated with tumors in animal organs (liver, pancreas, testicles and mammary glands in rats), and increases in prostate cancer in PFOA plant workers.

▪️7 Non-Organic Fruits & Vegetables

Conventionally grown crops are grown with pesticides, herbicides, and GMO seeds; pesticides, in particular, have been associated with an increased risk of cancer. 

▪️8 Processed Foods

Cured meats tend to be high in nitrites and nitrates, preservatives that can, in large amounts, potentially increase your risk of stomach and other cancers.

Processed foods are also typically full of white flour, sugars, oils, colors, flavorings, and other unhealthy ingredients.

▪️9 Refined Sugars

Researchers have found links between sugar and numerous issues, such as unhealthy levels of blood fats, low HDL levels, increased risk for heart disease, higher blood triglyceride levels, obesity, immune suppression, arthritis, and a host of other ills. 

Cancer cells also thrive on sugar.

▪️10 Soda/Sports Drinks

There is little to no nutritional value in drinking soda or sports drinks.

These drinks contain high fructose corn syrup, sugar, dyes, brominated vegetable oil (a flame retardant), and aspartame, which has been linked to an increased risk of cancer.