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Friday, April 28, 2017

Why Soy Should Be Avoided in a Thyroid Diet?

When it comes to thyroid health processed soy foods and foods containing soy ingredients should be strictly avoided in a thyroid diet. Soy is goitrogenic, a term used to describe many foods and environmental compounds that have a serious potential to block normal thyroid activity and should be avoided in a thyroid diet.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



Western societies are now consuming an increasing amount of soy that is unfermented and highly processed.

The reason?

Food manufacturers favour soy as a cheap and versatile ingredient. It’s added to a wide range of human food products and is also routinely used in the animal feed industry.

You really need to become a vigilant label checker to discover if a food contains some type of soy ingredient.

Soy is now found in bread, breakfast cereals, biscuits, crackers, margarine, chocolate, sauces and soups. Soy is also used to make soy milk, baby formula, soy protein shakes, soy cheese, soy ice cream, vegetable stock, texturised vegetarian soy protein, soy flour, soy protein bars, soy lecithin and soybean oil.

Soy protein products and infant formulas often contain soy protein isolate. This is not something that you can make in your kitchen. This soy ingredient is made in high tech chemical processing plants.

The extraction process utilises high temperatures and the soybeans are bathed in hexane, a toxic chemical solvent. This happens despite hexane use is prohibited when processing organic soy foods.

The safety of soy based infant formula is hotly debated as these products naturally contain a class of plant compounds called isoflavones. The primary isoflavones are genistein and daidzein. These isoflavones are referred to as phytoestrogens because they are found in plants (phyto) and they have the ability to mimic estrogens in the body.

It is well recognised infants are sensitive to estrogen exposure as they progress though different developmental stages. This makes infants more likely than adults to be vulnerable to the estrogen-like effects of the phytoestrogens found in soy.

There is also research to show that genistein and similar isoflavones can compete for iodine when iodine stores are low. Further, infants fed soy containing formula in early life have a higher risk of developing autoimmune thyroid disease.

For infants fed soy formula their rate of exposure to phyotestrogens is much higher which may a negative impact on both their thyroid health and hormonal balance.

Soy + Asian cultures

In Asia, small quantities of whole bean soy products are considered a traditional staple of the diet. From the simple soybean comes a variety of foods including tofu, natto, miso, tempeh, and boiled soy beans (edamame). These foods are prepared using traditional methods to make these otherwise inedible foods nutritious.

Soybeans like other beans, nuts, and seeds contain naturally occurring enzyme inhibitors. Termed phytic acid or phytates, these compounds make soy difficult to digest and also have the potential to bind to minerals in the digestive system. In this way phytic acid acts as an ‘anti-nutrient’ to prevent the absorption of important minerals such as calcium, magnesium, iron and zinc.

Soybeans contain a much higher phytic acid content than most other grains and legumes. If you have been over doing soy products you may be low in these minerals.

Does soy harm the thyroid?

An incredible amount of hype has accompanied the meteoric rise of soy as a popular ‘health’ alternative. Once reserved as a staple for vegetarians’ soy is finding its way into the shopping baskets of more conventional consumers in various forms, usually disguised as a refined soy ingredient.

When it comes to thyroid health processed soy foods and foods containing soy ingredients should be strictly avoided in a thyroid diet. Soy is goitrogenic, a term used to describe many foods and environmental compounds that have a serious potential to block normal thyroid activity and should be avoided in a thyroid diet.

Highly processed soy products are not normally manufactured using the phytic acid reducing techniques used in traditional cultures such as soaking or long slow cooking. This makes these foods harder to breakdown in the digestive system. Overt time this can lead to digestive distress and lowered micronutrient intake.

This is not good news for thyroid health as the thyroid is particularly sensitive to nutrient deficiencies. For example; iodine, zinc and selenium are three minerals critical to aid ongoing thyroid hormone activity.

Globally soybean oil has become the most widely used dietary oil. This soy derived oil is routinely used in margarine and shortening. It is also used in salad dressings, mayonnaise, frozen foods, commercially baked goods and simulated dairy and meat products. Soy oil along with palm oil and canola oil is often deceptively referred to as ‘vegetable oil’ on food labels.

Food manufacturers label dietary oils as ‘vegetable oils’ to make them sound healthy. However this is far from the truth. They are neither nutritious nor healthy.

The long term consumption of these oils has the potential to harm the thyroid and should be avoided in a thyroid diet. As more of these oils are incorporated into the thyroid cells their goitrogenic effects becomes more obvious.



The environmental impact of soy

The biggest shift in farming methods occurred over the last century, particularly with the introduction of ‘monocultures’. These are large scale farming areas dedicated to a single crop. Soy crops are monocultures favoured by multinational agribusiness to supply a growing demand.

As traditional farming methods are lost and the modern monoculture system of production emerges there is an increasing susceptibility of crops to insects and disease. This then pushes up the use of toxic agricultural chemicals.

Large soy plantations are viewed by environmentalists as a growing menace. Intense soybean cultivation threatens fragile ecosystems and is taking a significant toll on deforestation of the globe.

Soy + genetic engineering

Genetic engineering is the process of using biotechnology to transfer specific traits or genes from one organism into a different plant species. The result is a genetically modified (GM) food. The safety and potential long term health risks of these ‘frankenfoods’ is regularly questioned.

Soy, canola and corn are the most prevalent GM ingredients and are used in many food products. The first genetically engineered soybeans were planted in the USA in 1996. Now more than 90% of the USA soy crop is GM.

As the GM industry grows there has been a corresponding demand for food labels to clearly state if GM plants or microorganisms have been used in production. In the European Union all food, and any ingredients directly produced from a GM source must be labelled even when the GM ingredients may be undetectable in the final product.

The ‘Roundup Ready’ soybean controversy

The GM soybean known as the Roundup Ready (RR) soybean was developed by the biotech giant Monsanto based in the USA. This crop variety was developed to make it resistant to the Roundup herbicides products which are toxic to conventional soybean plants. Apart from the issue with genetic engineering this GM soy is contaminated with pesticide residues which can easily find their way into the food supply.

Watch this video below about the foods that should be included in a thyroid diet




Read the following related articles:







Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com



Wednesday, April 26, 2017

Thyroid Medication - What is Oxidative Stress?

In an Italian study the researchers propose the levothyroxine (the common drug used for hypothyroidism) induces greater thyroid hormone activity with the potential to generate increased activity of reactive oxygen species which can trigger oxidative stress eventually leading to cancer.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



A synthetic form of the thyroid hormone thyroxine (T4), known as levothyroxine, is the most widely prescribed drug to treat hypothyroidism.

If you have been diagnosed with hypothyroidism it means your thyroid is underactive. Your thyroid is either not producing adequate amounts of thyroid hormones or the thyroid hormones are not working effectively in the body.

Concerns have recently been raised about the potential hazards of this thyroid drug. A new Italian study has revealed a significant link between the levothyroxine medication and an increased lung cancer risk.

The study titled ‘Levothyroxine and lung cancer in females: the importance of oxidative stress’ was recently published in the Reproductive Biology and Endocrinology journal.

The research was carried out exclusively with a population of Italian women as the majority of levothyroxine prescribed in the Italian regions was for women.

Levothyroxine + oxidative stress

Reactive oxygen species (ROS) are oxygen derived free radicals. These compounds are continually produced within the body as part of normal ongoing processes.

Oxidative stress is a term that refers to the imbalance that occurs when the body’s natural defence systems are overwhelmed by the activity of reactive oxygen species (ROS). Excessive oxidative stress due to over activity of ROS attack can result in the stimulation, and progression of cancer.

In this new Italian study the researchers propose the levothyroxine drug induces greater thyroid hormone activity with the potential to generate increased activity of ROS.

Due to the rich oxygen state of the lungs, the lung tissue is highly susceptible to damage by ROS. A major trigger for the development of lung cancer is excessive oxidative stress within the lung tissue.

The Italian researchers state there are some limitations to their findings. However, this is not the first study to reveal a link between standard hypothyroidism treatment and oxidative stress. A study published in the Journal of the Italian Medical Association Panminerva medica revealed levothyroxine prescribed at a dose of 75 micrograms per day for hypothyroidism caused oxidative stress.

Measuring oxidative stress is not normally performed to adjust an individual’s levothyroxine dose. Thyroid stimulating hormone (TSH), thyroxine (T4) and triiodothyronine (T3) are routinely checked to make any necessary adjustments to the medication.

Any side effects are considered temporary and are usually dealt with by reducing levothyroxine intake. Increased oxidative stress is not normally considered a factor when there are noticeable adverse side effects.

Safer alternatives to levothyroxine medication?

The new Italian research also raises important questions regarding alternative thyroid medications. One of the main drawbacks of giving T4 in isolation is that the T4 may not convert sufficiently to T3. This can lead to T4 ‘backing up’ and causing excessive T4 activity.

This can easily occur when zinc and selenium levels are low in the body as these two minerals assist conversion of T4 to T3 to meet the body’s ongoing demand for T3.

Low T4 to T3 conversion also occurs in response to cutting calories, toxicity and stress. The researchers propose combination T4/T3 therapy or single T3 preparations may be safer options to treat hypothyroidism.

Smoking + levothyroxine risk

There is no doubt smoking dramatically increases lung cancer risk. Smoking was recognised as a stand-alone risk for this new Italian study so smoking risk was adjusted for.

Despite this, the relationship between levothyroxine and lung cancer was still significant. Their research also showed smoking and levothyroxine therapy did increase lung cancer risk more than ageing.

This study raises serious concerns for women who take levothyroxine and smoke. Should a warning become mandatory to notify individuals that taking thyroxine and continuing to smoke can significantly increase lung cancer risk?

Watch these following videos










If you want to read more there is an excellent blog post regarding this new levothyroxine drug study at Green Med Info.

Read the following related articles:







Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com



Tuesday, April 25, 2017

Which Hormone Controls Thyroid Hormones Production?

Thyroid disease results from an underactive or overactive thyroid that produces too little or too much of the thyroid hormones. Knowing how your thyroid works helps you understand your thyroid problem.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



The thyroid produces two main thyroid hormones, thyroxine (T4) and triiodothyronine (T3). Production of your thyroid hormones is governed by another thyroid hormone produced in the pituitary gland located deep within the brain. This thyroid hormone is called thyroid stimulating hormone (TSH).

While TSH is considered a thyroid hormone it is not actually produced in the thyroid. Once released by the pituitary TSH travels to the thyroid via the bloodstream to stimulate production of the thyroid hormones.

When levels of T4 and T3 fall, the pituitary secretes more TSH. Conversely, as T4 and T3 levels rise the pituitary secretes less TSH. Normally this feedback system ensures your body has adequate amounts of both T4 and T3. When TSH is high it is a clear indication your body is suffering from inadequate thyroid activity.

A healthy thyroid gland manufactures far greater quantities of T4 than T3. While T4 does have some effects, it is considered the ‘storage’ form. T4 is converted to T3 by the body when a greater thyroid response is needed. This means T4 is on standby, ready to be quickly converted into the active T3 when it is required to boost the metabolic rate.

Thyroid disease results from an underactive or overactive thyroid that produces too little or too much of the thyroid hormones. Knowing how your thyroid works helps you understand your thyroid problem. It also helps you understand why it’s vital to get more than TSH tested. The widely held belief that TSH is an accurate marker of thyroid health is misleading.

Below Here are 2 videos for you to understand more about thyroid hormones.








Read the following related articles:







Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com



Friday, April 21, 2017

Is there Link between Strong Bones and Healthy Parathyroid Glands?

Strong bones need healthy parathyroid glands. The parathyroid glands keep your bones strong by ensuring your body gets the calcium it needs to maintain bone strength.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



If you have hypothyroidism and are worried about your bone health, or have been told you have osteoporosis you will definitely want to read this article to find out why healthy parathyroid glands keep your bones strong.

The parathyroid glands are endocrine organs. They play an important role in the body’s complex hormone system to keep you fit and well.

‘Para’ means near, or next to which explains the name given to these four glands that are attached to the rear of the thyroid. In fact, the tiny parathyroid glands are so closely situated to the thyroid that they share the same blood supply.

Although the parathyroid and thyroid glands have similar sounding names each gland produces different hormones, each with their own specific functions.

Strong bones need healthy parathyroid glands

When it comes to bone health, the most fundamental nutrient is calcium. This mineral plays a critical role to safeguard against osteoporosis, which leads to weak and fragile bones. The bones are a vast reservoir for calcium as it is an essential building block to maintain healthy bone structure.

The parathyroid glands keep your bones strong by ensuring your body gets the calcium it needs to maintain bone strength. Optimal calcium balance is also crucial for muscle function and healthy nervous system activity.

As you may already know, bone is a dynamic, living tissue. Healthy parathyroid gland activity supports the normal process of bone breakdown and bone building. Steady and balanced bone turnover is a normal process that benefits lifelong bone health.

To help regulate levels of calcium the parathyroid glands make ‘parathyroid hormone’. This hormone is often termed a calcium-regulating hormone.

When blood calcium levels drop extra parathyroid hormone is released into the bloodstream. This draws calcium from the bones and stimulates greater uptake of calcium by the kidneys. The net effect is an increase of calcium in the blood.

When blood calcium levels get too high the parathyroid glands respond swiftly by reducing parathyroid hormone production. This keeps calcium stored in the bone and puts a halt to bone breakdown.

Strong bones need a well-functioning thyroid

The thyroid plays an important role in building bone health by producing a plentiful supply of calcitonin. This thyroid hormone is also termed a calcium-regulating hormone as it helps block excessive bone breakdown.

When blood calcium levels rise, the thyroid releases greater amounts of calcitonin to bring blood calcium levels back down to normal. Parathyroid hormone and calcitonin work in sync to regulate calcium balance. By having two hormones with opposing actions, the body can closely regulate calcium concentrations.

The vitamin D – parathyroid connection

The link between vitamin D and healthy bones was made many years ago when it was realised that sunlight, or taking cod liver oil boosted vitamin D which in turn helped prevent a soft bone disorder in children called rickets.

Today, vitamin D is seen as vital for overall health and strong bones.

Calcitriol is a calcium-regulating hormone produced from vitamin D. When blood calcium levels drop, parathyroid hormone triggers the kidneys to make greater amounts of this active form of vitamin D. Calcitriol increases blood calcium levels by increasing absorption of calcium from the digestive system.

A drop in vitamin D is associated with higher production of parathyroid hormone. This has the potential to increase bone loss. Maintaining optimal vitamin D can therefore have a protective effect to guard against excessive bone turnover.

How do you check parathyroid health?

If you are worried about your bone health or have been told you have osteoporosis it is a great idea to check your parathyroid health.

A blood test that specifically measures parathyroid hormone levels is the main way to diagnose a problem. Medical practitioners and pathology labs routinely abbreviate the words parathyroid hormone to ‘PTH’. The PTH test is usually done along with a check of blood calcium levels.

Problems can occur if the parathyroid glands are either producing too much or too little parathyroid hormone.

Hypoparathyroidism is characterised by low levels of parathyroid hormone. On the other hand, when the parathyroid glands are overactive these glands produce an inappropriately high amount of parathyroid hormone.

When parathyroid hormone levels are high the rate at which bone is lost exceeds the rate at which new bone is being formed. This leads to bones becoming weak and susceptible to fractures. This is the reason hyperparathyroidism is linked to the development of osteoporosis.

The parathyroid glands are tiny and are normally only the size of a grain of rice. This makes visual identification of a problem tricky. Your medical practitioner may request a scan to help diagnose a problem with one or more of the parathyroid glands. A bone density test may also be performed to assess bone health.

The 25-hydroxycholecalciferol, or 25OHD blood test is the most accurate way to measure how much active vitamin D is in the body.

Are environmental toxins also taking a toll on parathyroid health?

Like or not we are exposed to a wide range of environmental toxins in the air we breathe, the food we eat and the water we drink. As mentioned above the thyroid and parathyroid glands share the same blood supply.

Further, there is a high volume of blood washing through these glands. This can make these glands susceptible to the damaging effects of environmentaltoxins or other harmful compounds that may be circulating in the blood supply.


Watch these videos below










Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com


Why Vitamin D is needed for a Healthy Thyroid?

For decades vitamin D was thought of only in terms of bone health. This nutrient decreases parathyroid hormone (PTH) levels which reduces calcium loss from bone. This is important for maintaining bone density.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



For decades vitamin D was thought of only in terms of bone health. This nutrient decreases parathyroid hormone (PTH) levels which reduces calcium loss from bone. This is important for maintaining bone density.

However ongoing research reveals vitamin D plays a much broader role.
When converted by the body to its active form this nutrient actually has hormone-like functions. The active form of vitamin D is referred to as D3 and it is now recognised as a hormone, not a vitamin.

D3 is important for many aspects of health including supporting optimal thyroid hormone activity. D3 deficiencies occur more frequently than previously believed.

Reduced sun exposure along with ageing significantly decreases the skin’s capacity to activate D3. A specific blood test of D3, not vitamin D is a good place to assess D3 levels.

The body naturally makes vitamin D when the skin is directly exposed to ultraviolet B (UVB) rays from the sun. That’s why this nutrient is often dubbed the ‘sunshine’ vitamin.

Absorption of vitamin D occurs rapidly and you don’t need to tan or to burn in order to get adequate amounts. In addition, individuals with paler skin are able to produce vitamin D more easily than those with darker skin.

D3 deficiencies occur more frequently than previously believed and a significant number of individuals are at risk due to reduced sun exposure and the widespread use of sunscreens.

More than just bone health

Emerging research reveals vitamin D plays a much broader role to support health.  The active form of vitamin D is referred to as D3 and it is now officially termed a hormone rather than a vitamin.

D3 is important for many aspects of health. Most notably this nutrient controls the way in which cells grow and divide. For this reason research continues into the anti-cancer effects of D3.

Some of the functions of the body that D3 supports include:

·         Immune system to help fight infection
·         Muscle function by reducing inflammation within the muscles
·         Cardiovascular function for a healthy heart and circulation
·         Respiratory system for healthy lungs and airways
·         Brain development to ward off neurological decline
·         Anti-cancer effects

Low D3 now common even in countries with abundant sunshine

The most natural way to get vitamin D3 is by exposing your bare skin to sunlight. However there are some limiting factors which can affect the amount of vitamin D your body can produce. This includes:

·         The amount of skin you expose. The less skin you expose, the less vitamin D you can produce.

·         Your age. As you get older, your skin has a harder time producing vitamin D.

·         Wearing sunscreens. Sunscreens block a lot of vitamin D production.
·         The altitude you live at. The sun is more intense at the top of a mountain than at the beach. This means you make more vitamin D when you live at a higher altitude.

·         Cloudy weather. Less sunlight reaches your skin on a cloudy day and your skin therefore makes less vitamin D.

·         Air pollution. Particles in polluted air reflect sunlight back into space. This means that if you live somewhere where there is lots of air pollution your skin produces less vitamin D.

·         Working or living behind glass. Glass windows blocks UVB rays so you can’t make vitamin D even when there is sunlight outside.

·         You avoid direct sun exposure. If you have had skin cancer or if you’re worried about exposing your skin to the sun you are more likely to have low D3 levels.

D3 and thyroid health

A recent study published in Endocrine Practice reveals low D3 may contribute to the severity of Hashimoto’s thyroiditis. This thyroid disorder is extremely common, especially in women. It is associated with high levels of autoimmune antibodies that directly target the thyroid gland.

Researchers found patients diagnosed with Hashimoto’s thyroiditis had significantly low levels of active D3 in their blood and the scale of the vitamin D deficiency correlated with the severity of the thyroid disorder.

Endocrine Practice is the official journal of the American College of Endocrinology (ACE) and the American Association of Clinical Endocrinologists (AACE).

Additional research is required to determine if low thyroid function causes a vitamin D3 deficiency, or low vitamin D3 status may contribute to a thyroid disorder.

Getting the right amount of vitamin D3

The 25-hydroxycholecalciferol blood test, abbreviated to 25 OHD is the most accurate way to measure how much vitamin D is present in the body.
It’s now accepted vitamin D can do so much more than simply prevent bone disease.

However the ground breaking research into the effects of vitamin D has significantly changed the viewpoints on the accepted reference ranges. It brings into question the current reference ranges that start at around 50 nmol/L.

The Vitamin D Council is a leading US research organisation committed to educating the public on the importance of vitamin D. They currently suggests that 50 ng/ml of 25 OHD is the ideal level to aim for. The equivalent metric measurement is 125 nmol/L.

Whereas the Endocrine Society recommends taking a vitamin D supplement of around 2,000 IU daily to reach and stay above a level of 30ng/ml or 75 nmol/l.

Until the experts agree on an acceptable target if you have been told your levels are low after a blood test it’s a good idea to take a vitamin D3 supplement to restore healthy levels. This is a simple, cost effective step to ensure adequate intake.

Balanced intake using a specific vitamin D3 supplement is the best strategy to consider as this form is more effective at raising levels 25 OHD in the blood than a D2 supplement.



Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com


Thursday, April 20, 2017

Is there any link between Hypothyroidism and Depression?

The link between hypothyroidism and depression has long been recognised. One explanation for the link between hypothyroidism and depression is the influence of triiodothyronine (T3). T3 is normally concentrated in the area of the brain that controls emotions such as joy, anger and fear. Read on to find out more.

Click HERE to Find Out How You Can Achieve Thyroid Levels within a Short Period of Time



The link between hypothyroidism and depression has long been recognised. Back in 1969 researchers reported ‘clinical symptoms may mimic that of melancholic depression and dementia’.

Depression is More Than Feeling sad

Feeling sad or disappointed at times is a normal reaction to the challenges of everyday life. However when it comes to depression this condition is associated with more than general feelings of sadness.

Depression leads to feelings of pessimism and ongoing despair.

Individuals with depression suffer in many areas of their lives. It interferes with their ability to cope with everyday life. In addition, they often feel disconnected from their friends and family.

The link between your emotional health and hypothyroidism

Emotional health problems such as depression, anxiety, and post-natal depression may be due to an underlying thyroid issue.

Hypothyroidism occurs when there is low production, or reduced activity of the thyroid hormones. Hypothyroidism, especially when coupled with adrenal fatigue, gives rise to a diverse range of emotional health problems. Many individuals with a thyroid-adrenal imbalance also experience depression.

The symptoms that help identify depression include:

·         Feeling hopeless about life.
·         A lack of interest in daily activities.
·         Anger or irritability.
·         Memory and concentration problems.
·         Appetite or weight changes.
·         Sleep changes.
·         Feeling physically drained.
·         Feelings of not being worthy.
·         Addictions and addictive behaviour.
·         Unexplained muscle aches and headaches

Low T3 + mood

One explanation for the link between hypothyroidism and depression is the influence of triiodothyronine (T3). T3 is normally concentrated in the area of the brain that controls emotions such as joy, anger and fear.

T3 plays an important role in regulating activity of the three ‘feel good’ neurotransmitters. These neurotransmitters have a powerful effect on your emotions. These key neurotransmitters include serotonin, noradrenaline and GABA (gamma-aminobutyric acid).

Serotonin and noradrenaline are often referred to as the ‘happy’ messengers. They boost your mood. Serotonin also helps regulate sleep and hunger.

Chronic stress can lower both serotonin and noradrenaline production. GABA is often referred to as the ‘calming’ messenger. It helps keep you relaxed and focused.

T3 regulates the action of serotonin, adrenaline and GABA. If you do not have enough T3, or the action is blocked, production of these neurotransmitters can be affected.

Could it be hypothyroidism?

Individuals with depression, anxiety, or some type of serious psychiatric illness should be screened for hypothyroidism.

According to the American Association of Clinical Endocrinologists, “The diagnosis of subclinical, or clinical hypothyroidism must be considered in every patient with depression’.

It’s possible an individual could experience a significant shift in their mood, and cognitive function if an underlying thyroid disorder is addressed.

SPECIAL NOTE: This ‘Hypothyroidism and Depression’ article is for educational purposes to assist you in living well. It should not be used as a substitute for the advice provided by your medical practitioner.

If you suspect you are experiencing depression, promptly seek professional advice. Do not cease taking your prescribed medication without the consent of your medical doctor.

Watch the following videos







Read the following related articles:



















Author Bio:

Louise O’ Connor, the author of The Natural Thyroid Diet –The 4-Week Plan to Living Well, Living Vibrantly, who is a specialist in Thyroid Health. She is a highly regarded Australian Naturopath and founder of Wellnesswork.

The Natural Thyroid Diet goes beyond diet advice and offers practical and effective ways to achieve healthy thyroid levels within just a short period of time. For more details, Click on The-Natural-Thyroid-Diet.com


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