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SupportFrom T3 to Thyroid Health: A Comprehensive Guide to Triiodothyronine
We all have certain chemicals in our blood known as hormones that act like messengers and pass information to different tissues, organs, and skin for their correct functioning. Two such hormones, collectively referred to as the thyroid hormones, act like body managers. They mainly control our body’s metabolic processes for the utilisation of energy from food that is needed by all the cells in the body for activity, helping us stay at the right weight and full of energy. They also regulate our growth, keep our heart beating normally, and keep our brain working well. So, we really need them to make sure our bodies work just right. Let us discuss about thyroid hormones in detail, with a special emphasis on the triiodothyronine (T3) hormone.
Understanding Thyroid Hormones
Thyroid hormones are of two types: thyroxine (T4) and triiodothyronine. T3 is the active form of thyroid hormone, meaning that triiodothyronine is used up by the cells for their normal functioning. T4 (a precursor of T3) is the inactive form of thyroid hormone, which means that it is present in the bloodstream but the cells cannot utilise it. Thus, when there is a thyroid hormone requirement in the body, the inactive form T4 in the bloodstream is converted into the active form T3, which can then be utilised by the body for its normal functioning.
The thyroid gland, resembling a butterfly shape, is located beneath the skin of the neck and consists of follicles, its functional units. These follicles contain cells that have a protein called thyroglobulin that aids in the production of thyroxine and triiodothyronine hormones.
The Basics of Triiodothyronine (T3)
The molecular structure of triiodothyronine consists of a tyrosine amino acid backbone with three iodine atoms attached, forming a triiodothyronine molecule.
The unique structure of T3 makes it biologically active, that is, it is freely available for absorption and utilisation by the cells as compared to T4 and can directly affect cellular metabolism.
Thyroid Hormones and Metabolism
Thyroid hormone plays an essential part in metabolism. Metabolism is nothing but the breakdown of food by the cells in our body for energy production. Thyroid hormones control metabolism by controlling the metabolic rate (the speed of the breakdown of substances to produce energy).
Triiodothyronine functions by increasing the metabolising speed of the cells, making them use glucose and fatty acids more effectively to produce energy. It can facilitate fat and protein synthesis or breakdown depending on the metabolic state, which supports body functions, growth, and development.
T3's Impact on Body Systems
T3 has a major impact on our body systems as follows:
- Heart: T3 augments the action of beta-receptors present on the heart cells, boosting the heart rate, enhancing the contraction of the heart muscles, and increasing the volume of blood released from the heart.
- Musculoskeletal System: T3 promotes the growth of type 2 muscle fibres, known as fast-twitch fibres, which contract rapidly and forcefully. Alteration in its levels can lead to myopathy (conditions that affect the muscles that are attached to the bones).
- Gastrointestinal System: T3 affects digestion and nutrient absorption, ensuring efficient breakdown of food and absorption of essential nutrients.
- Central Nervous System: T3's significance extends to brain development as well, where it enhances the function of neurons (functional unit of the brain that helps in signal generation and action by different parts of the body) and impacts cognitive function (thinking, learning, reasoning), memory, and mood regulation.
The Importance of T3 for Growth and Development
Thyroid hormone aids in the maturation of the brain in children by promoting the synthesis of nerve fibres.
In young individuals, thyroid hormones work together with growth hormones to collaboratively promote bone development. They trigger the activation of bone cells, like chondrocytes, osteoblasts, and osteoclasts.
T3 and Thermoregulation
Triiodothyronine’s vital function is to regulate body temperature by influencing metabolic processes that generate heat. High triiodothyronine levels increase metabolic activity and heat production, causing excessive warmth. Conversely, low triiodothyronine levels slow metabolism, resulting in cold intolerance. Thus, maintaining T3 balance is crucial for proper temperature control in the body.
Regulation of T3 Levels
The hypothalamus-pituitary-thyroid axis is a system in the body that controls thyroid hormone synthesis by the conjoined actions (called a feedback loop) between the hypothalamus, pituitary, and thyroid glands. The hypothalamus releases thyrotropin-releasing hormone, which causes the pituitary gland to release thyroid-stimulating hormone (TSH). TSH causes the thyroid to generate predominantly T4 and a little T3. To prevent excessive T3 and T4 synthesis by the thyroid gland, free T4 then inhibits the pituitary gland, lowering TSH and T3 and T4 production by the thyroid. On the other hand, tissues enhance T4 absorption and conversion to T3, lowering free T4, thereby increasing TSH and, consequently, T3 and T4 synthesis. Thus, the pituitary, thyroid, and peripheral tissues communicate constantly to keep free T4 concentrations within the acceptable range.
Factors Affecting T3 Levels
- Nutrition: Nutrients like iodine, selenium, and zinc are integral for thyroid hormone synthesis. For example, iodine is essential for T3's structure, while selenium helps in the conversion of T4 to T3.
- Stress and Illness: Stress impacts the feedback loop of the hypothalamus-pituitary-thyroid axis discussed above, and results in the decreased production of thyroid hormone.Likewise, systemic illnesses, including chronic inflammatory conditions, impact the function of enzymes in our body and the conversion of T4 to T3 and its transport.
Common T3 Imbalances
- Hyperthyroidism:
Hyperthyroidism i.e., an increased activity of the thyroid gland, leads to excessive T3 and T4 production and lower TSH levels. This leads to increased metabolism rate and promotes the generation of heat in the body. This affects various organ systems in the body, leading to weight loss, intolerance of heat, fatigue, weakness, increased sweating and rapid heartbeat. Grave’s disease, an autoimmune disease caused by increase in TSH receptor antibodies, is a common cause of hyperthyroidism.
- Hypothyroidism:
Hypothyroidism leads to a decrease in thyroid hormone levels. This leads to decreased metabolic rate, dryness of the skin, weight gain, fatigue, decreased sweating, and slowed cognition. Hypothyroidism may be caused by reduced thyroid hormone production by the thyroid gland, or due to secondary causes such as pituitary problems and hypothalamic disorders. Hashimoto’s thyroiditis, a condition leading to the autoimmune destruction of the thyroid gland, is a common cause of hypothyroidism.
Book Thyroid Tests at Home With Orange Health Labs
Triiodothyronine acts as a principal mediator of thyroid function, affecting a number of physiological processes that govern metabolism, growth, and development. Regular monitoring through thyroid function tests (TFT), freeT3 (fT3) or a total T3 blood test is necessary to check and maintain an adequate amount of thyroid hormone in the body for the regulation of many bodily functions. TFTs include a measurement of the levels of TSH, T4, and T3 in the blood and detecting the type of thyroid disorder you have to start the specific treatment. If you or your doctor suspect you might have a thyroid disorder, just follow these simple steps to get your diagnosis using the quickest and safest route of laboratory tests at your doorstep:
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