Hormones​

This test detects antithyroglobulin antibodies, which can indicate autoimmune thyroid disorders such as Hashimoto’s thyroiditis or Graves’ disease. Blood is drawn and analysed to assess the presence of these autoantibodies, helping healthcare providers diagnose and monitor thyroid dysfunction. Early detection allows timely intervention, including hormone therapy and monitoring, to prevent complications such as hypothyroidism, hyperthyroidism, or long-term organ damage. Understanding antithyroglobulin status supports personalised treatment plans, helps manage symptoms effectively, and improves long-term thyroid health.

This test measures calcitonin, a hormone produced by the thyroid, important in regulating calcium levels and bone metabolism. Blood is drawn, and abnormal levels may indicate thyroid C-cell Tumours or other endocrine disorders. Understanding calcitonin levels allows healthcare providers to diagnose, monitor, and guide treatment for thyroid-related conditions. Patients benefit from early detection, preventive monitoring, and management strategies to protect bone and endocrine health.

This test measures catecholamines in urine, hormones produced by the adrenal glands such as adrenaline, noradrenaline, and dopamine. Elevated or abnormal levels can indicate adrenal Tumours, stress-related conditions, or metabolic disorders. A urine sample is collected over a specified period, and results guide diagnosis, monitoring, and treatment planning. Patients benefit from early detection of endocrine disorders, allowing timely interventions and improved long-term health outcomes.

This test measures cortisol, a hormone produced by the adrenal glands involved in stress response, metabolism, and immune regulation. Blood is drawn at specific times to evaluate daily fluctuations and detect disorders such as adrenal insufficiency or Cushing’s syndrome. Results help healthcare providers guide diagnosis, treatment, and monitoring. Patients benefit by understanding hormone balance, managing stress-related conditions, and maintaining long-term metabolic and adrenal health.

This test measures C-peptide, a marker of insulin production. Blood is drawn and analysed to assess pancreatic beta-cell function, which helps differentiate between type 1 and type 2 diabetes. Results guide healthcare providers in diagnosis, therapy selection, and monitoring glucose management. Patients benefit by understanding insulin production, enabling tailored treatment plans, improving glycemic control, and reducing long-term complications such as cardiovascular or kidney disease.

This test evaluates blood glucose and other markers to diagnose and monitor diabetes. Blood is collected via venipuncture to assess fasting glucose, HbA1c, and sometimes additional metabolic parameters. Results help healthcare providers confirm the presence of type 1 or type 2 diabetes, track disease progression, and guide treatment plans including diet, lifestyle changes, and medication. Early detection and monitoring allow patients to prevent complications such as cardiovascular disease, neuropathy, or kidney damage. Understanding these results empowers patients to manage blood sugar effectively, make informed lifestyle choices, and maintain long-term health.

This test measures DHEA sulfate, a hormone produced by the adrenal glands that affects metabolism, energy, and reproductive function. Blood is drawn and analysed to evaluate adrenal function, hormone balance, or fertility status. Abnormal levels can indicate adrenal disorders, polycystic ovary syndrome, or age-related hormonal changes. Understanding DHEA-S levels helps healthcare providers guide treatment, hormone therapy, or lifestyle interventions. Patients benefit by optimising endocrine health, supporting energy balance, and improving long-term metabolic and reproductive wellness.

This test measures dihydrotestosterone (DHT), a hormone derived from testosterone, which influences hair growth, prostate health, and other androgen-dependent processes. Blood is drawn and analysed to assess hormone imbalance or androgen-related conditions. Elevated or low DHT can indicate hair loss, prostate enlargement, or metabolic concerns. Results help healthcare providers guide therapy, lifestyle interventions, and preventive care. Patients benefit by understanding hormone status and taking informed steps to support reproductive, hair, and overall health.

This test measures erythropoietin, a hormone that stimulates red blood cell production. Blood is collected and analysed to assess anemia, kidney function, or other hematologic conditions. Abnormal levels help healthcare providers identify underlying causes, guide therapy, and monitor treatment response. Patients benefit by optimising oxygen transport, preventing complications of anemia, and maintaining long-term health.

This test calculates the free androgen index (FAI), reflecting the balance between testosterone and sex hormone-binding globulin. Blood is drawn to assess androgen status, which can influence fertility, hair growth, metabolism, and menstrual cycle regulation. Abnormal FAI may indicate polycystic ovary syndrome (PCOS), hormonal imbalance, or endocrine disorders. Healthcare providers use results to guide therapy, lifestyle adjustments, and monitoring. Patients benefit by understanding androgen levels, managing symptoms effectively, supporting reproductive health, and preventing long-term complications. FAI testing empowers patients to make informed health and lifestyle decisions.

This test measures free cortisol in urine over 24 hours to evaluate adrenal gland function. Cortisol regulates metabolism, stress response, and immune system activity. Abnormal levels may indicate Cushing’s syndrome, adrenal insufficiency, or stress-related disorders. Urine is collected and analysed to guide diagnosis, treatment, and monitoring. Healthcare providers use results to adjust therapy, recommend lifestyle interventions, or assess hormone replacement needs. Patients benefit by identifying hormonal imbalances early, optimising metabolic and adrenal health, reducing symptoms, and preventing long-term complications related to cortisol dysregulation.

This test measures free triiodothyronine (FT3), an active thyroid hormone that regulates metabolism, energy production, and cardiovascular health. Blood is drawn and analysed to evaluate thyroid function, detect hypo- or hyperthyroidism, and guide treatment. Abnormal FT3 levels can cause fatigue, weight changes, or mood disturbances. Healthcare providers use results to adjust medications, monitor therapy, and optimise metabolic function. Patients benefit by understanding thyroid status, preventing complications, maintaining energy levels, and supporting overall endocrine health. Timely detection allows for personalised interventions.

This test measures free thyroxine (FT4), a thyroid hormone essential for metabolism, growth, and cellular function. Blood is collected to evaluate thyroid gland function and detect hypothyroidism or hyperthyroidism. Abnormal levels guide healthcare providers in treatment planning, hormone therapy, and monitoring. Patients benefit by maintaining metabolic balance, preventing symptoms such as fatigue or weight changes, and supporting long-term endocrine health. Understanding FT4 levels allows early intervention and proactive management of thyroid-related conditions.

This test measures fructosamine, reflecting average blood glucose levels over 2–3 weeks. Blood is collected and analysed to monitor short-term glycemic control, particularly for diabetes management. Elevated fructosamine indicates hyperglycemia and may prompt adjustments in diet, exercise, or medication. Healthcare providers use results to guide treatment plans, monitor therapy effectiveness, and prevent diabetes-related complications such as neuropathy, kidney disease, or cardiovascular events. Patients benefit from timely monitoring, informed self-management, and improved long-term metabolic health.

The Oral Glucose Tolerance Test (OGTT) assesses how your body processes sugar over time. After fasting overnight, you drink a glucose solution, and blood samples are taken at specific intervals to track your body’s response. It is commonly used to diagnose diabetes, prediabetes, or gestational diabetes. This test provides more detailed information than a single fasting glucose measurement, highlighting how efficiently insulin regulates blood sugar. Patients may experience mild discomfort from multiple blood draws or temporary nausea from the glucose drink. Results help your healthcare provider create personalised dietary, exercise, or medication plans to manage blood sugar, prevent complications, and monitor treatment effectiveness.

The Growth Hormone test measures the level of human growth hormone (GH) in the blood after fasting. GH is essential for growth, metabolism, muscle development, and bone health. Abnormal levels may indicate pituitary gland disorders, growth deficiencies in children, or hormone imbalances in adults. This test is usually ordered when patients present with growth issues, unexplained weight changes, or fatigue. Fasting is required to ensure accurate results. Interpreting GH levels helps healthcare providers diagnose conditions, guide hormone therapy, and monitor treatment response. Understanding your GH status allows patients to take informed steps in managing growth or metabolic health and supports long-term wellbeing.

Measures Insulin-like Growth Factor 1 (IGF-1), a hormone reflecting growth hormone activity. Useful in evaluating growth disorders, acromegaly, or nutritional status. Blood is drawn, and results are interpreted with age and sex reference ranges. Understanding IGF-1 levels helps guide hormone therapy, growth assessments, and long-term metabolic health management.

The Insulin test measures the level of insulin in the blood, a hormone essential for regulating blood sugar. Abnormal levels may indicate diabetes, insulin resistance, or pancreatic disorders. Fasting is usually required for accurate measurement. Results are interpreted alongside glucose and HbA1c to evaluate metabolic health and guide treatment. Understanding insulin levels helps patients and healthcare providers adjust diet, lifestyle, or medications to improve blood sugar control and reduce the risk of complications like cardiovascular disease or neuropathy.

Measures how effectively your body responds to insulin by combining fasting insulin and glucose values. Helps identify insulin resistance, a precursor to type 2 diabetes and metabolic syndrome. Blood is drawn after overnight fasting. Results are used to guide lifestyle, diet, and treatment strategies to reduce long-term risk of diabetes and cardiovascular disease.

The Leptin test measures the level of leptin, a hormone produced by fat cells that helps regulate appetite and energy balance. High or low leptin levels may indicate metabolic disorders, obesity, or issues with appetite regulation. This test is useful for understanding weight management challenges, hormonal imbalances, and metabolic health. Blood is collected via venipuncture, and results are interpreted alongside body composition, diet, and lifestyle factors. Understanding leptin levels helps healthcare providers design personalised nutrition, exercise, or medical interventions to improve energy balance, weight management, and overall metabolic function.

This test measures pregnenolone, a precursor hormone involved in producing testosterone, estrogen, and cortisol. Blood is collected and analysed to assess hormonal balance, adrenal function, and reproductive health. Abnormal levels can affect mood, energy, fertility, and stress response. Healthcare providers use results to guide therapy, supplementation, and lifestyle interventions. Patients benefit by understanding hormonal status, optimising endocrine function, and maintaining overall health and well-being. Timely detection supports long-term metabolic and reproductive wellness.

This test measures pregnenolone, a precursor hormone involved in producing testosterone, estrogen, and cortisol. Blood is collected and analysed to assess hormonal balance, adrenal function, and reproductive health. Abnormal levels can affect mood, energy, fertility, and stress response. Healthcare providers use results to guide therapy, supplementation, and lifestyle interventions. Patients benefit by understanding hormonal status, optimising endocrine function, and maintaining overall health and well-being. Timely detection supports long-term metabolic and reproductive wellness.

This test measures prolactin, a hormone that influences reproductive health, lactation, and metabolic function. Blood is collected and analysed to evaluate elevated or low levels that may affect menstrual cycles, fertility, or sexual function. Abnormal prolactin levels may indicate pituitary disorders or medication effects. Healthcare providers use results to guide therapy, monitor treatment response, and recommend interventions. Patients benefit by understanding hormone balance, supporting reproductive and metabolic health, and addressing issues such as fertility or menstrual irregularities. Timely assessment allows personalised management, improving long-term wellness and quality of life.

This test measures reverse T3, a thyroid hormone reflecting metabolic adaptation, stress, or illness. Blood is collected and analysed to assess thyroid function and metabolic health. Abnormal levels may indicate hypothyroidism, illness-related thyroid suppression, or impaired conversion of thyroid hormones. Healthcare providers use results to guide thyroid therapy, lifestyle interventions, and monitoring. Patients benefit by understanding thyroid and metabolic health, optimising energy and wellness, and preventing long-term complications. Timely assessment supports informed decisions and overall health.

This test measures sex hormone-binding globulin (SHBG), a protein that binds sex hormones such as testosterone and estrogen. Blood is collected and analysed to assess hormone availability, fertility, metabolic function, and endocrine health. Abnormal SHBG levels can affect reproductive health, energy, and metabolism. Healthcare providers use results to guide hormone therapy, lifestyle adjustments, or further investigations. Patients benefit by understanding hormone regulation, optimising reproductive and metabolic health, and supporting long-term wellness. Timely assessment enables informed care and proactive health management.

This test measures serotonin in blood, a neurotransmitter that regulates mood, sleep, and gastrointestinal function. Blood is collected and analysed to detect imbalances linked to mood disorders, digestive issues, or neurological conditions. Abnormal levels help healthcare providers guide treatment, supplementation, or lifestyle interventions. Patients benefit by understanding neurotransmitter status, improving mental and physical health, and supporting overall wellness. Timely assessment enables proactive interventions and long-term health maintenance.

This test evaluates adrenal function using the Synacthen stimulation test, which measures cortisol response. Blood is collected before and after synthetic ACTH administration. Abnormal cortisol response may indicate adrenal insufficiency or other endocrine disorders. Healthcare providers use results to diagnose, monitor therapy, and guide treatment. Patients benefit by understanding adrenal health, managing hormonal imbalance, preventing adrenal crisis, and supporting long-term wellness. Timely assessment enables proactive care, personalised interventions, and improved quality of life.

This test measures total testosterone in blood to assess male reproductive and endocrine health. Blood is collected and analysed to evaluate hormone levels, fertility, sexual function, and metabolic status. Abnormal levels may indicate low testosterone, hypogonadism, or endocrine disorders affecting energy, mood, and overall wellness. Results allow healthcare providers to guide therapy, lifestyle adjustments, or supplementation. Patients benefit by understanding hormonal status, optimising reproductive and metabolic health, and supporting long-term wellness. Timely assessment enables proactive interventions and improved quality of life.

This test measures free testosterone in serum, representing bioavailable hormone not bound to proteins. Blood is collected and analysed to assess endocrine health, fertility, and sexual function. Abnormal levels can impact libido, energy, mood, and metabolic health. Healthcare providers use results to guide therapy, hormone supplementation, or lifestyle interventions. Patients benefit by understanding hormone availability, optimising reproductive and metabolic function, and maintaining long-term wellness. Accurate measurement supports informed decisions and proactive care.

This test measures thyroid antibodies, including thyroglobulin and thyroid peroxidase antibodies, to detect autoimmune thyroid disorders. Blood is collected and analysed to evaluate immune activity affecting thyroid function. Abnormal results may indicate Hashimoto’s thyroiditis, Graves’ disease, or other autoimmune conditions. Healthcare providers use results to guide therapy, monitor disease progression, and prevent complications. Patients benefit by understanding thyroid health, managing symptoms, maintaining metabolic and hormonal balance, and supporting long-term wellness. Timely detection enables proactive interventions and improved quality of life.

This test evaluates a full thyroid profile, including TSH, T4, and T3, to assess thyroid function for diagnosing hypothyroidism, hyperthyroidism, or other disorders. Blood is collected and analysed to guide therapy, monitor treatment response, and maintain metabolic health. Abnormal results may affect energy, weight, mood, and cardiovascular health. Healthcare providers use results to optimise thyroid function, recommend interventions, and prevent complications. Patients benefit by understanding thyroid health, improving metabolic balance, and supporting long-term wellness. Timely assessment enables proactive care and symptom management.

This test evaluates thyroid function to monitor diagnosis and treatment of thyroid disorders. Blood is collected and analysed to assess hormone levels, metabolic balance, and endocrine health. Abnormal results may indicate hypothyroidism, hyperthyroidism, or other conditions. Healthcare providers use results to guide therapy, adjust medication, and prevent complications. Patients benefit by understanding thyroid health, managing symptoms, maintaining metabolic and cardiovascular wellness, and supporting long-term health outcomes. Timely assessment ensures proactive monitoring and care.

This test measures thyroid profile 3, including key hormones and metabolites, to assess thyroid function in detail. Blood is collected and analysed to evaluate T3, T4, TSH, and sometimes free hormone fractions. Abnormal results can indicate hypothyroidism, hyperthyroidism, or metabolic dysfunction. Healthcare providers use the results to guide therapy, adjust medication, and prevent complications. Patients benefit by understanding thyroid health, optimising metabolism, maintaining energy balance, and supporting long-term wellness. Early detection allows proactive management, informed decision-making, and improved quality of life through proper thyroid care.

This test measures thyroid stimulating hormone (TSH) to assess pituitary-thyroid axis function. Blood is collected and analysed to detect hypothyroidism, hyperthyroidism, or subclinical thyroid disorders. Abnormal TSH levels may affect energy, weight, mood, and metabolism. Healthcare providers use results to guide therapy, hormone replacement, or lifestyle interventions. Patients benefit by understanding thyroid regulation, maintaining metabolic health, and preventing complications. Timely testing ensures proactive care, symptom management, and long-term wellness.

This test measures total thyroxine (T4) in blood, reflecting overall thyroid hormone production. Blood is collected and analysed to evaluate thyroid function, detect disorders, and guide therapy. Abnormal T4 may indicate hypo- or hyperthyroidism, affecting metabolism, energy, and cardiovascular health. Healthcare providers use results to tailor treatment and monitor response. Patients benefit by understanding hormone levels, maintaining metabolic balance, and supporting long-term wellness. Timely detection supports proactive care and symptom management.

This test measures triiodothyronine (T3), an active thyroid hormone regulating metabolism, energy, and growth. Blood is collected and analysed to assess thyroid function and detect disorders such as hyperthyroidism or hypothyroidism. Abnormal levels may affect energy, weight, and cardiovascular health. Healthcare providers use results to guide therapy, hormone replacement, or lifestyle interventions. Patients benefit by understanding thyroid hormone status, maintaining metabolic balance, and supporting long-term wellness. Timely assessment ensures proactive care and symptom management.

This test detects thyroid receptor antibodies, which can indicate autoimmune thyroid disorders such as Graves’ disease. Blood is collected and analysed to assess immune activity affecting thyroid function. Abnormal results guide healthcare providers in therapy, monitoring, and prevention of complications. Patients benefit by understanding thyroid autoimmune status, managing symptoms, maintaining metabolic health, and supporting long-term wellness. Timely assessment enables early intervention and informed healthcare decisions.

This urine test measures vanillylmandelic acid (VMA) excretion, a metabolite of catecholamines, to evaluate adrenal function or detect catecholamine-producing Tumours. Urine is collected and analysed for abnormal levels. Elevated VMA may indicate pheochromocytoma or other endocrine disorders. Healthcare providers use results to guide diagnosis, treatment, and monitoring. Patients benefit by identifying adrenal or metabolic issues early, receiving timely interventions, and supporting long-term health. Accurate testing ensures proactive management and wellness.