Ulta Lab Tests

Thyroid Health

Thyroid Health Tests bring together the core labs that evaluate how your thyroid is working, screen for autoimmune thyroid disease, and monitor treatment over time. Thyroid hormones influence energy, weight, mood, heart rate, fertility, and temperature regulation. Because symptoms can overlap with other conditions, a lab-first, stepwise approach offers clarity and helps you and your clinician decide on next steps.

Most people start with TSH (thyroid-stimulating hormone) and Free T4Free T3 can add context, especially when hyperthyroidism is suspected. Thyroid antibodiesTPOAb and TgAb—help confirm autoimmunity such as Hashimoto thyroiditisTRAb/TSI supports Graves disease. Selected markers like thyroglobulin (Tg) or calcitonin are used for thyroid cancer follow-up, not routine screening. These tests support screeningdiagnostic triage, and monitoring, but they do not replace imaging or a clinician’s exam when nodules or eye symptoms are present.

Signs, Symptoms & Related Situations

  • Underactive pattern (hypothyroid): fatigue, cold intolerance, weight gain, dry skin/hair loss, constipation, low mood, heavy or irregular periods

  • Overactive pattern (hyperthyroid): anxiety or irritability, heat intolerance, weight loss, tremor, palpitations/rapid heart rate, frequent stools, lighter periods

  • Neck & eyes: neck fullness or goiter, hoarseness, trouble swallowing; gritty eyes, light sensitivity, bulging eyes (Graves)

  • Life stages & risks: pregnancy or trying to conceive, postpartum, family history of thyroid/autoimmune disease, prior neck radiation, known nodules or past thyroid surgery

  • Medication/exposure flags: amiodaronelithium, iodine contrast, kelp/iodine supplements, high-dose biotin (lab interference)

  • Seek urgent care now: chest pain, severe shortness of breath, high fever with confusion, or sudden vision changes

All symptoms and risks should be reviewed by a qualified clinician.

Why These Tests Matter

What testing can do

  • Confirm thyroid function and distinguish underactive vs overactive patterns

  • Identify autoimmune thyroid disease with antibody testing

  • Guide monitoring of therapy, life changes (e.g., pregnancy), and long-term trends

What testing cannot do

  • Diagnose nodules or cancer by blood test alone—ultrasound and, if needed, biopsy are clinical decisions

  • Replace clinical judgment when TSH is unreliable (e.g., pituitary disease, late pregnancy)

  • Overcome assay interference (high-dose biotin, rare antibodies) without proper preparation

What These Tests Measure (at a glance)

  • TSH (Thyroid-Stimulating Hormone): first-line screen and treatment monitor; typically high in hypothyroidism, low in hyperthyroidism.

  • Free T4 (± Free T3): unbound hormones that reflect biologic activity; clarify severity and type of dysfunction.

  • Thyroid antibodies:

    • TPO Antibodies (TPOAb): hallmark of Hashimoto thyroiditis; may also be present in Graves.

    • Thyroglobulin Antibodies (TgAb): autoimmune context and important because TgAb interferes with thyroglobulin assays.

    • TSH-Receptor Antibodies (TRAb) / Thyroid-Stimulating Immunoglobulin (TSI): support a Graves disease diagnosis.

  • Cancer follow-up (selected use): Thyroglobulin (Tg) for differentiated thyroid cancer surveillance; Calcitonin (± CEA) for medullary thyroid carcinoma—not routine screening.

  • Binding & context markers: Total T4/T3 and TBG if binding-protein changes (pregnancy, oral estrogen) are suspected; lipidsCBCCMP for general health.

  • Important prep: high-dose biotin can cause falsely low TSH and falsely high T4/T3—pause 24–48 hours before testing if advised.

Quick Build Guide

Clinical goal Start with Add if needed
General thyroid screen TSH Free T4 if TSH abnormal or symptoms strong
Hypothyroid symptoms TSH • Free T4 TPOAblipid panel • CBC for context
Hyperthyroid symptoms TSH • Free T4 • Free T3 TRAb/TSITPOAb for autoimmune context
Known hypothyroidism—dose check TSH (± Free T4 on T4 therapy) Adjust cadence per clinician
Suspected autoimmune thyroiditis TSH • Free T4 • TPOAb TgAb for depth; consider ultrasound for goiter/nodules (clinician-directed)
Pregnancy/trying to conceive TSH (trimester-aware) Free T4TPOAb selected; clinician sets ranges
Binding changes (estrogen, pregnancy) TSH • Free T4 Total T4/T3 • TBG
Thyroid cancer follow-up (selected) TSH • Tg • TgAb or Calcitonin ± CEA TSH-stimulated Tg (clinician-directed)

How the Testing Process Works

  1. Pick a starting set: most begin with TSH plus Free T4 (and Free T3 when hyperthyroidism is suspected).

  2. Prepare for accuracy: list medicines/supplements; pause high-dose biotin 24–48 hours if advised. Fasting is usually not required.

  3. Provide a sample: standard blood draw.

  4. View secure results: most post within a few days.

  5. Plan next steps: your clinician interprets labs with your history and exam and may add ultrasound or other tests.

Interpreting Results (General Guidance)

  • High TSH + low Free T4 → overt primary hypothyroidism.

  • High TSH + normal Free T4 → subclinical hypothyroidism; risk of progression is higher with positive TPOAb.

  • Low TSH + high Free T4 and/or Free T3 → overt hyperthyroidism.

  • Low TSH + normal Free T4/T3 → subclinical hyperthyroidism; confirm and trend.

  • Positive TPOAb/TgAb → autoimmune context (Hashimoto pattern more likely).

  • Positive TRAb/TSI → supports Graves disease.

  • Detectable/rising Tg after thyroid cancer treatment (consider TgAb status) → evaluate for residual/recurrent disease.
    Ranges vary by lab, pregnancy, and age. Always interpret results with a qualified healthcare professional.

Choosing Panels vs. Individual Tests

  • Core function panel: TSH • Free T4 (± Free T3 with hyperthyroid symptoms)

  • Autoimmune panel: TPOAb • TgAb (± TRAb/TSI when Graves is suspected)

  • Binding-protein panel: Total T4/T3 • TBG for pregnancy/oral estrogen contexts

  • Cancer follow-up (clinician-directed): Tg • TgAb (± TSH-stimulated Tg) or Calcitonin ± CEA for medullary contexts
    Use bundled panels for efficient screening; add targeted markers to answer specific questions and track progress.

FAQs

Do I need to fast for thyroid labs?
Usually no. Follow any instructions on your order.

Can supplements affect results?
Yes. Biotin can distort TSH and thyroid hormones. Share all supplements and medicines before testing.

When is Free T3 helpful?
When hyperthyroidism is suspected or symptoms persist despite normal T4, Free T3 can add clarity.

Do antibodies mean I need treatment now?
Not always. Antibodies confirm autoimmunity; treatment depends on TSH/Free T4, symptoms, and plans (e.g., pregnancy).

Can blood tests detect cancer?
They help monitor after treatment (Tg, calcitonin) but do not diagnose nodules—that requires ultrasound and possibly biopsy.

Is TSH reliable in pregnancy?
Yes, with trimester-specific ranges. Your clinician may also review Free T4 and symptoms.

How often should I recheck labs?
Commonly 6–8 weeks after any medication change, then every 6–12 months when stable—your clinician will set the schedule.

Related Test Categories & Key Tests

  • Thyroid Tests Hub

  • All Thyroid Tests • Hypothyroidism Tests • Hyperthyroidism & Graves Disease Tests • Hashimoto Thyroiditis Tests • Thyroid Antibodies • Thyroid Cancer Tests • Thyroid in Pregnancy

  • TSH • Free T4 • Free T3 • Total T4 • Total T3 • TPO Antibodies • Thyroglobulin Antibodies • TRAb/TSI • Thyroglobulin (Tg) • Calcitonin • CEA • TBG • Lipid Panel • CBC • CMP

References

  • American Thyroid Association — Guidelines for hypothyroidism, hyperthyroidism, and thyroid nodules/cancer.
  • AACE/ACE — Clinical practice guidelines for thyroid disease.
  • Endocrine Society — Thyroid testing considerations in pregnancy and special populations.
  • NCCN — Thyroid carcinoma follow-up principles.
  • AACC/NACB — Laboratory support for thyroid testing; biotin interference advisories.
  • Clinical reviews on interpreting TSH/Free T4/T3 patterns and antibody positivity.

Available Tests & Panels

Your Thyroid Health Tests menu is pre-populated in the Ulta Lab Tests system. Start with a core function panel (TSH with Free T4), then use filters to add Free T3antibodies (TPOAb, TgAb, TRAb/TSI), or oncology markers (Tg ± TgAb, calcitonin) based on your goals and history. Follow any prep guidance—especially pausing high-dose biotin if advised—and review results with your clinician to confirm findings and set a monitoring plan.

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The Lipid Panel Test checks six key blood lipids: total cholesterol, HDL cholesterol, LDL cholesterol, non-HDL cholesterol, triglycerides, and the Chol/HDL ratio. This panel assesses risk for cardiovascular disease, heart attack, and stroke by evaluating cholesterol balance and fat levels in the blood. Doctors use lipid panel results for routine screening, treatment monitoring, and guiding lifestyle or medication adjustments.

Also Known As:  Lipid Profile Test, Cholesterol Panel Test, Lipids Blood Test 
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The Lipid Panel with Ratios Test measures seven key markers: total cholesterol, HDL, LDL, non-HDL cholesterol, triglycerides, Chol/HDL ratio, and LDL/HDL ratio. This advanced panel evaluates cardiovascular risk by assessing cholesterol balance and fat metabolism. Doctors use it to detect high cholesterol, atherosclerosis risk, and heart disease, and to monitor treatment. Often part of routine exams, it provides insight into long-term heart and metabolic health.

Also Known As: Lipid Profile Test, Cholesterol Panel Test, Lipid Blood Test
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The Quantitative Thyroglobulin without Thyroglobulin Antibodies Test measures thyroglobulin levels in the blood to help monitor thyroid cancer treatment or recurrence. By excluding antibody interference, results are more accurate. Doctors use this test to track patients after thyroidectomy or radioactive iodine therapy and to assess thyroid tissue activity, ensuring precise monitoring and effective long-term management of thyroid cancer.

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Blood Draw
Also Known As: Tg Test, Thyroglobulin Test, Quantiative Thyroglobulin without Thyroglobulin Antibodies Test
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The Selenium Micronutrient Blood Test measures selenium levels in the blood to assess nutritional status and detect deficiencies or excess. Selenium is a powerful antioxidant that supports thyroid function, immune defense, and protection against oxidative stress. This test helps identify dietary insufficiency, malabsorption, or toxicity, supporting diagnosis and management of overall health and wellness.

Patient must be 18 years of age or older.
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The Selenium Test measures selenium levels in blood to evaluate nutritional status and overall health. Selenium is essential for thyroid function, antioxidant defense, and immune support. Low levels may cause fatigue, muscle weakness, thyroid problems, or impaired immunity, while high levels may indicate toxicity. Doctors use this test to monitor nutrition, supplementation, or suspected deficiency. Results provide key insight into metabolic health and antioxidant balance.

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The T3 Reverse (rT3) Test measures reverse triiodothyronine, an inactive thyroid hormone, to assess thyroid and metabolic function. High rT3 may occur in hypothyroidism, chronic illness, stress, or during certain treatments, while low levels may reflect hormone imbalance. Doctors use this test along with TSH, Free T4, and Free T3 to evaluate fatigue, weight changes, or slow metabolism. The rT3 Test provides insight into thyroid regulation, energy balance, and endocrine health.

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Blood Draw
Also Known As: Reverse T3 Test, RT3 Test, T3R Test
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The T3 Total Test measures total triiodothyronine (T3), a combination of both bound and unbound (free) T3, to assess thyroid function. Abnormal levels may indicate hyperthyroidism, hypothyroidism, goiter, or pituitary disorders. Doctors use this test to evaluate symptoms like fatigue, weight changes, anxiety, or irregular heartbeat and to monitor thyroid treatment. The T3 Total Test provides essential insight into metabolism, energy regulation, and overall endocrine health.

Also Known As: Total T3 Test, Total Triiodothyronine Test, T3 Test, Bound and Unbound T3
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The T3 Uptake Test estimates thyroid hormone-binding capacity by measuring how well proteins in the blood bind triiodothyronine (T3). It does not measure T3 directly but helps assess thyroid function when combined with Total T4. Abnormal results may indicate hyperthyroidism, hypothyroidism, pregnancy, or protein-binding disorders. Doctors use this test to investigate fatigue, weight changes, or irregular heartbeat and to guide thyroid treatment decisions.

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The T3 Free Test measures free triiodothyronine (T3), the active thyroid hormone not bound to proteins, to assess thyroid function. It helps diagnose hyperthyroidism, hypothyroidism, goiter, and pituitary disorders. Doctors order this test to evaluate symptoms like fatigue, weight changes, anxiety, or irregular heartbeat and to monitor thyroid replacement or antithyroid therapy. The Free T3 Test provides key insight into metabolism, energy regulation, and overall endocrine health.

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Blood Draw
Also Known As: Free T3 Test, Free Triiodothyronine Test, FT3 Test, T3F Test, Unbound T3 Test
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The T3 Free, Tracer Dialysis Test quantifies both free T3 and total T3 to assess active thyroid hormone levels, especially in contexts of abnormal binding protein levels. Because it uses tracer dialysis, the assay reduces interference from thyroid hormone–binding proteins and offers enhanced accuracy in diagnosing hyperthyroidism, and distinguishing binding abnormalities from thyroid dysfunction.

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Blood Draw
Also Known As: T3 Tracer Dialysis Test
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The T4 Total Test measures total thyroxine (T4) in blood, a combination of both bound and unbound (free) T4, to assess thyroid function. Abnormal levels may indicate hypothyroidism, hyperthyroidism, goiter, or pituitary disorders. Doctors use this test to evaluate symptoms like fatigue, weight changes, hair loss, or irregular heart rate and to monitor thyroid replacement or antithyroid therapy. The T4 Total Test provides key insight into metabolic, hormonal, and endocrine health.

Also Known As: Total T4 Test, Total Thyroxine Test, T4 Test, Bound and Unbound T4 Test
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The T4 Free Test measures the level of free thyroxine (T4) in blood, the active thyroid hormone not bound to proteins. It helps diagnose thyroid disorders such as hypothyroidism, hyperthyroidism, and goiter, as well as pituitary conditions affecting hormone regulation. Doctors use this test to evaluate symptoms like fatigue, weight changes, hair loss, or irregular heartbeat and to monitor thyroid replacement or antithyroid therapy, providing insight into metabolic and endocrine health.

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Blood Draw
Also Known As: Free T4 Test, Free Thyroxine Test, FT4 Test, T4F Test, Unbound T4 Test
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The T4 Free Direct Dialysis Test measures free thyroxine (T4) levels in the blood using equilibrium dialysis, considered the gold standard for accuracy. Unlike routine immunoassays, this method avoids interference from binding proteins or medications, giving a clearer picture of thyroid function. It is used to evaluate hyperthyroidism, hypothyroidism, and monitor treatment response, supporting precise assessment of thyroid hormone status.

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Blood Draw
Also Known As: T4 Free Test
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The Thyroxine Binding Globulin (TBG) Test measures levels of TBG, the protein that carries thyroid hormones T4 and T3 in the blood. Abnormal levels can affect total thyroid hormone measurements and may indicate liver disease, genetic conditions, pregnancy, or medication effects. Doctors use this test to evaluate unexplained thyroid function results, distinguish true thyroid disorders from binding protein abnormalities, and guide treatment decisions.

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Blood Draw
Also Known As: Thyroxine Binding Globulin Test
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The Thyroglobulin Antibodies (TgAb) Test detects antibodies that attack thyroglobulin, a protein essential for thyroid hormone production. Elevated levels may indicate autoimmune thyroid disorders such as Hashimoto’s thyroiditis or Graves’ disease. Doctors order this test to evaluate symptoms like fatigue, weight changes, neck swelling, or irregular heartbeat and to confirm thyroid disease. It provides key insight into autoimmune activity and overall thyroid function.

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Blood Draw
Also Known As: TgAb Test
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The Thyroglobulin Panel Test measures thyroglobulin and thyroglobulin antibodies to evaluate thyroid function and monitor thyroid cancer. Elevated thyroglobulin may indicate thyroid tissue activity, while antibodies can interfere with results or suggest autoimmune thyroid disease. Doctors order this test after thyroidectomy, during cancer follow-up, or for suspected autoimmune disorders. Results provide insight into thyroid health, cancer monitoring, and treatment planning.

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Blood Draw
Also Known As: Thyroid Autoantibodies Test, Antithyroid Antibodies Test, Antithyroglobulin Antibody Test, TgAb Test, Tg Test, Thyroglobulin Test
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 The Thyroid Complete Profile is a comprehensive panel designed to provide an in-depth assessment of thyroid function. This profile evaluates various hormones, antibodies, and proteins that are critical to the thyroid's health and its regulatory mechanisms. By measuring these components, healthcare providers can gain a detailed understanding of thyroid activity, identify potential disorders, and monitor treatment efficacy. This panel is essential for diagnosing a wide range of thyroid conditions, including hyperthyroidism, hypothyroidism, and autoimmune thyroid diseases.
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The Thyroid Panel Test measures Free T4 Index (T7), T3 Uptake, and Total T4 to evaluate thyroid hormone production and overall thyroid function. Abnormal results may indicate hypothyroidism, hyperthyroidism, or other endocrine disorders. Doctors use this test to investigate symptoms such as fatigue, weight changes, or irregular heartbeat and to monitor thyroid therapy. Results provide key insight into metabolism, energy balance, and endocrine health.

Blood
Blood Draw
Also Known As: Thyroid Test, Thyroid Function Test
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The Thyroid Peroxidase and Thyroglobulin Antibodies Test measures TPO and TgAb antibodies that target thyroid enzymes and proteins essential for hormone production. High levels are linked to autoimmune thyroid disorders such as Hashimoto’s thyroiditis and Graves’ disease. Doctors order this test to evaluate fatigue, weight changes, neck swelling, or irregular heartbeat and to confirm thyroid autoimmunity. It provides vital insight into thyroid function and endocrine health.

Also Known As: Thyroid Antibodies Test, TPO and TgAb Test
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The Thyroid Peroxidase Antibodies (TPOAb) Test detects antibodies that target thyroid peroxidase, an enzyme vital for thyroid hormone production. High levels often indicate autoimmune thyroid disorders such as Hashimoto’s thyroiditis or Graves’ disease. Doctors order this test to evaluate symptoms like fatigue, weight changes, hair loss, or irregular heartbeat and to confirm thyroid disease. It provides key insight into autoimmune activity and overall thyroid health.

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Also Known As: TPO Test, TPO Ab Test
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The TPO Antibody Endpoint Test measures thyroid peroxidase antibodies, which target the enzyme needed for thyroid hormone production. Elevated levels often indicate autoimmune thyroid disorders such as Hashimoto’s thyroiditis or Graves’ disease. Doctors use this test to confirm thyroid autoimmunity, investigate symptoms like fatigue or weight changes, and guide treatment planning for hypothyroidism, hyperthyroidism, or other thyroid-related conditions.

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Blood Draw
Also Known As: Thyroid Peroxidase Antibodies Endpoint Test
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The TSH Receptor Binding Antibody (TRAb) Test detects autoantibodies that bind to thyroid-stimulating hormone receptors, often causing hyperthyroidism and Graves’ disease. Elevated results may confirm Graves’ or help distinguish it from other thyroid disorders. Doctors order this test for patients with weight loss, rapid heartbeat, or eye problems. Results provide critical insight into autoimmune thyroid disease, treatment monitoring, and relapse risk assessment.

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Blood Draw
Also Known As: TSH Receptor Binding Antibody Test
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The Thyroid Stimulating Hormone (TSH) Test measures TSH levels in blood to assess thyroid function and diagnose hypothyroidism or hyperthyroidism. It evaluates how the thyroid controls metabolism, energy, weight, and heart rate. Doctors use the TSH test to investigate symptoms such as fatigue, hair loss, or mood changes. Frequently included in routine health exams, it is also key for monitoring thyroid disease treatment and overall endocrine balance.

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Blood Draw
Also Known As: Thyroid Stimulating Hormone Test, Thyrotropin Test
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The TSH Antibody Test measures thyroid-stimulating hormone receptor antibodies (TRAb), including stimulating, blocking, or neutral variants. These antibodies interfere with TSH receptor activity and are strongly associated with autoimmune thyroid disease such as Graves’ disease and sometimes Hashimoto’s thyroiditis. This test supports diagnosis, assessment of disease activity, and monitoring of autoimmune thyroid conditions.

Also Known As: Thyroid Stimulating Hormone Antibody
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Guide to the Thyroid and Thyroid Diseases

Guide to the Thyroid and Thyroid Diseases

Your thyroid is a small butterfly-shaped gland on the base of your throat. The thyroid plays an essential role in helping to control the metabolism of your body by producing thyroid hormones, mainly triiodothyronine (T3) and thyroxine (T4). They are substances that travel through your blood to all parts of your body. Thyroid hormones inform the cells within your body how quickly to produce proteins and use energy. Calcitonin is also made by the thyroid gland. Calcitonin is a hormone that helps with regulating the levels of calcium inside the blood through inhibiting re-absorption (breakdown) of bone as well as increasing the elimination of calcium through the kidneys.     

The body features an elaborate feedback system for controlling the amounts of T3 and T4 inside the blood. Whenever the blood levels of these hormones fall, thyrotropin-releasing hormone is released by the hypothalamus. This, in turn, causes thyroid-stimulating hormone (TSH) to be released by the pituitary gland. The thyroid gland is stimulated by TSH to secrete and produce T3 and T4 (primarily). Whenever the system is functioning correctly, thyroid production turns off and on to maintain thyroid hormone levels that are relatively stable. 

Inside of the thyroid, a majority of the T4 is bound to the thyroglobulin protein and stored away. Whenever necessary, more T4 is produced by the thyroid gland and/or some of the stored amount is released. Inside the blood, most of the T3 and T4 are bound to thyroxine-binding globulin (TBG) protein and are inactive. There are small, unbound amounts, called free T3 and free T4, that are the active forms of these hormones. T4 gets converted into T3 inside of the liver as well as other tissues. The primary responsibility of T3 is to control body function rates.

Thyroid diseases are mainly conditions affecting how much thyroid hormones are produced. The American Thyroid Association estimates that there are 20 million Americans who some type of thyroid disease, and around 60% of people with thyroid disease are not aware of it. It is more likely for women to have thyroid issues than men, with 1 out of 8 women developing a thyroid disorder at some point in her life. Below is a list of the most common types of thyroid disorders.

Types of Abnormal Thyroid Functioning

Some of the diseases of abnormal thyroid functioning include the following:

Hypothyroidism: this refers to a condition where there is an insufficient amount of thyroid hormone and body functions slow down. Some of the main symptoms include menstrual irregularity within women, fatigue, hair loss, puffy skin, cold intolerance, constipation, dry skin, and weight gain. Myxedema, which is severe untreated hypothyroidism, may lead to coma, seizures, and heart failure. In children, hypothyroidism may delay sexual development and stunt growth. Specific hypothyroidism types include the following: 

Congenital hypothyroidism: a condition that affects babies from birth caused by insufficient thyroid hormone; is mainly due to when a thyroid gland is partially developed, missing, or when it is in part of the body that is abnormal. The remainder of cases is either due to an enlarged or normal-sized thyroid that isn’t functioning correctly or producing enough thyroid hormone. When this condition is left untreated, it may cause delays in intellectual and physical development. In the US, hypothyroidism testing is done as part of blood screening programs for newborns because early detection, as well as treatment, helps to minimize long-term damage to babies. 

Hashimoto thyroiditis: in the US, this is the most common type of hypothyroidism. It is a chronic autoimmune condition where the thyroid is targeted by the immune system, which causes damage and inflammation and produces autoantibodies. With Hashimoto thyroiditis, thyroid hormones are produced in lower quantities.

Iodine deficiency: when the element of iodide is lacking in the body, it diminishes the thyroid gland’s ability to produce enough thyroid hormone. There are three iodides in T3 and four iodides in T4. Throughout the environment, iodine is present. However, most iodine is contained in seaweed and seawater. Individuals who reside in countries with limited access to the ocean frequently suffer from iodine deficiency unless they consume food supplemented with iodine. Iodide is fortunately used for fighting bacterial growth in various foods (like iodized salt) and many dietary supplements as well.

Hyperthyroidism: excessive thyroid hormone, also referred to as “overactive thyroid.” Body functions are accelerated, and symptoms include weakness, tremors within the hands, difficulty sleeping, weight loss, anxiety, increased heart rate, and diarrhea sometimes. There might be puffiness surrounding the eyes, irritation, dryness, and bulging eyes in some cases. The person who is affected might experience visual disturbances and light sensitivity. Since the eyes might not move in a normal way, the individual might look like they are staring. 

Specific kinds of hyperthyroidism include the following:

Graves disease: this is the most common cause of hyperthyroidism. This is a chronic autoimmune disorder where the immune system of the affected individual produces antibodies that act like TSH, which stimulates the thyroid to make excessive thyroid hormone amounts.

Thyroid tumor: a small benign tumor might become insensitive to low TSH negative feedback and continuing producing thyroid hormone in excessive amounts.

Abnormal thyroid stimulation: when there is a tumor in the cells producing TSH, it may result in the excessive production of thyroid hormone. The hormone called human chorionic gonadotropin (hCG), which supports fetus growth during pregnancy, can act like TSH and produce hyperthyroidism in pregnant women if they have very high hCG levels.

Goiter: a visible enlargement of the thyroid gland. This condition in the past was common and caused by an iodine deficiency. However, now that food is supplemented with iodine, there are significantly fewer dietary-related goiter incidents in the US. However, in other regions of the world, iodine-related goiters are common still and in some countries are the most common cause of hypothyroidism. Goiters can compress critical structures within the neck, which include the esophagus and trachea. That compression can make it hard to swallow and breathe. Goiters can be caused by any diseases that are listed above. Thyroid hormone resistance syndrome is a rare cause and a mutation within the thyroid hormone receptor that reduces the functioning of the thyroid hormone.

Thyroiditis: an inflamed thyroid gland; it can be associated with either hyper- or hypothyroidism. It can be quite painful and feel like a sore throat, and it can also be painless. Thyroiditis can be caused by several things such as exposure to toxic chemicals, infection, or autoimmune disorders (especially if you have Hashimoto thyroiditis). The cause of thyroiditis can also be unknown. Depending on what the cause is, it may be chronic, transient, or acute.

Diseases that may be presented as thyroid tumors include the following:

Thyroid nodule: this is a small lump located on a thyroid gland. It can be either a fluid-filled or solid cyst. The nodules are very common, and a vast majority are harmless. However, occasionally, a thyroid nodule may be cancerous and require treatment.

Thyroid cancer: this disease is relatively common and has seen an increase in the number of incidents over the past couple of decades. The American Cancer Society estimates that around 63,000 new cases are diagnosed in the US each year, which makes it the 8th most common form of cancer as well as the fastest-growing form. Thyroid cancer comes in form main types:

Papillary thyroid cancer: makes up around 80% of all thyroid cancer cases. More women are affected by this type of thyroid cancer than men. It is also more commonly found in younger individuals.

Follicular thyroid cancer: makes up around 15% of all thyroid cancers. It is a more aggressive form of cancer, and older women tend to be at increased risk.

Anaplastic thyroid cancer: makes up around 2% of all thyroid cancers and tends to be found mostly in older women. It is hard to treat and tends to be aggressive.

Medullary thyroid cancer (MTC): makes up around 3% of all thyroid cancers. It is malignant and may spread past the thyroid. It can be hard to treat if not detected early. Excess calcitonin is produced by MTC and might be found by itself or linked along with other types of endocrine cancers within a syndrome, which is referred to as the multiple endocrine neoplasia syndrome. Cells that produce calcitonin are different from cells that produce thyroid hormone. They can increase in number, which results in the c-cell hyperplasia disorder. The condition is benign and produces excess calcitonin as well. It might progress into becoming medullary thyroid cancer sometimes.

Lymphoma is a tumor that is made up of lymphocytes (these are cells that produce immunity out of viruses and bacteria. It can take place inside the thyroid also.

Laboratory Tests

Usually, the first test that will be ordered by a healthcare practitioner for detecting thyroid dysfunction will be a thyroid-stimulating hormone (TSH) test. If there is an abnormal TSH level, usually a free thyroxine test will be ordered by the healthcare practitioner so that the diagnosis can be confirmed.

T4 is not real soluble inside the blood. Therefore, serum proteins carry it. A small percentage of overall T4 isn’t bound to protein. That fraction is biologically active. Laboratories in the past estimated free T4 concentrations by measuring total T4 and determining binding protein levels. However, these days, it is a lot more common for free T4 to be estimated by laboratories directly through the use of immunoassay. 

At times, tests for triiodothyronine (T3), which is the other primary thyroid hormone, might also be ordered, or all the tests might be ordered as one thyroid panel.

TSH – Used for monitoring thyroid disorder treatments, screening newborn babies for hypothyroidism, and testing for both hyperthyroidism and hypothyroidism.

Free T4 – Used for monitoring thyroid disease treatment, screening newborn babies for hypothyroidism, and testing for both hyperthyroidism and hypothyroidism.

Free T3 – Mainly used for testing hyperthyroidism, particularly whenever free T4 isn’t elevated. Whenever individuals are iodine-deficient, more T3 is made by the thyroid than T4.

Other tests that might be conducted include the following:

Total T3 and total T4 might be needed still in certain rare cases.

Thyroid antibodies – Help with identifying autoimmune thyroid conditions and differentiating various kinds of thyroiditis.

Thyroid peroxidase (TPO) antibody – This is an autoimmune thyroid disease marker. It may be detected in Hashimoto thyroiditis or Grave’s disease. It can be especially useful with early Hashimoto thyroiditis since TSH is elevated while the remaining thyroid still can maintain healthy levels of free T4.

Thyroglobulin (TG) antibody – This is a marker for both Hashimoto thyroiditis and Grave’s disease. Thyroglobulin, where thyroid hormone is stored, is targeted by this antibody.

TSHR (Thyroid-stimulating hormone receptor antibodies – This is a Graves disease marker. There are two different ways that it can be measured:

TBII (Thyroid binding inhibitory immunoglobulin) -This assay the serum of a patient’s ability to block TSH from binding with receptors.

TSI (Thyroid-stimulating immunoglobulin) – This assay measures thyroid cell stimulation inside of a culture dish.

Some Grave’s disease patients have antibodies that only can be detected by one of the two approaches. Autoimmune antibodies of the TSH receptor may rarely cause hypothyroidism (instead of hyperthyroidism).

Calcitonin – Helps with detecting excessive production of calcitonin, which may happen with medullary and C-cell hyperplasia thyroid cancer.