TRT Health Screen
Doctor Consultation24–48h ResultsDetailed Report

TRT Health Screen

“Your ultimate hormone health check — clarity, balance, and confidence.” £159 – 49 Biomarkers – Results in 24–48 hours When you’re on testosterone therapy — or thinking about starting — it’s important to see the bigger picture, not just your testosterone number. This screen explores how your hormones are working together and how your body is responding, with a focus on energy, strength, mood, and long-term health. It also looks closely at blood health, liver and kidney function, cholesterol balance, and essential vitamins and minerals, giving you the reassurance that everything is in check and supporting your treatment safely. This package is ideal if you: • Are on TRT and want regular, reliable health monitoring • Are considering TRT and want a clear baseline view of your hormone and overall health • Want reassurance that your treatment is safe and effective • Care about both how you feel now and your long-term wellbeing

4.8/5

£159

Men’s HealthHormones

49 BIOMARKERS

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Essential information about your test

What's in the test

£159 • 49 Biomarkers • Results in 24–48 hours.

What we measure:

  • Haemoglobin - Haemoglobin is the oxygen-carrying protein that gives red blood cells – and your blood – its rich red colour. This test checks how much haemoglobin is in your blood, giving a clear picture of how well oxygen is being transported throughout your body. It’s a key indicator of how efficiently your body is functioning.
  • Haematocrit (HCT) - measures the volume of your blood that’s made up of red blood cells.
  • Red blood cell (RBC) - This test measures the concentration of red blood cells (RBCs) in your bloodstream, which are essential for transporting oxygen from the lungs to tissues throughout the body and removing carbon dioxide for exhalation. An optimal RBC count is critical for supporting cellular energy, physical performance, and overall metabolic function.
  • MCV - Mean Corpuscular Volume indicates the average size of your red blood cells. This measurement provides insight into how effectively your red blood cells may be transporting oxygen throughout the body
  • MCH - Mean Corpuscular Haemoglobin reflects the average mass of haemoglobin within individual red blood cells
  • MCHC - Mean Corpuscular Haemoglobin Concentration represents the average concentration of haemoglobin within red blood cells.
  • Platelets - Platelets are small, disc-shaped cell fragments produced in the bone marrow that play a key role in preventing blood loss. When a blood vessel is damaged, platelets rapidly activate, gather at the site, and help form a stable clot to seal the injury. This clotting process is essential for wound healing and maintaining vascular integrity.
  • MPV - Mean Platelet Volume reflects the average size of platelets circulating in the blood. As an indicator of platelet activity, MPV can offer insights into how actively the bone marrow is producing platelets.
  • WCC - White Cell Count indicates the total number of white blood cells in your bloodstream. These cells are essential components of the immune system, working to detect, attack, and eliminate harmful pathogens such as bacteria, viruses, and other foreign substances. White cells also play a role in immune memory, helping your body respond more efficiently to repeated exposures.
  • Lymphocytes count - Lymphocytes are specialised white blood cells that play a central role in the body’s adaptive immune response. They help recognise, target, and eliminate specific bacteria, viruses, and other pathogens. This group includes T cells, B cells, and natural killer (NK) cells, each with distinct immune functions. Lymphocytes also produce antibodies and memory cells, allowing the immune system to respond more rapidly to future exposures. An elevated or reduced lymphocyte count may indicate infection, immune system activity, or underlying haematological conditions
  • Basophil Count - Basophils are the least common type of white blood cell, but they play an important role in allergic reactions and inflammation. They release histamine and other chemicals that help the body respond to allergens, infections, and injury. Elevated basophils may be linked to allergic conditions, chronic inflammation, or certain blood disorders.
  • Lymphocyte Count - Lymphocytes are crucial defenders in your immune system, responsible for recognizing and fighting viruses, bacteria, and even abnormal or cancerous cells. They include B cells (which produce antibodies) and T cells (which directly attack infected cells or coordinate immune responses). Changes in lymphocyte levels may indicate infection, immune dysfunction, or blood-related conditions.
  • Eosinophil Count - Eosinophils help combat parasitic infections and are strongly involved in allergic reactions and asthma. They release enzymes and chemicals that regulate inflammation. Elevated eosinophils may be a sign of allergies, asthma, parasitic infections, or certain autoimmune conditions.
  • Monocyte Count - Monocytes are large white blood cells that circulate in the bloodstream before moving into tissues, where they become macrophages. Macrophages “eat” and break down bacteria, dead cells, and debris, making them vital for both defence and tissue repair. High monocyte levels may be seen in infections, inflammation, or immune-related disorders.
  • Neutrophil Count - Neutrophils are the most abundant type of white blood cell and your body’s first line of defence against bacterial infections. They respond rapidly to infection or injury, engulfing and destroying harmful microbes. A low count may increase the risk of infections, while a high count often signals an active infection or inflammation.
  • Creatinine - Creatinine is a waste product made by your muscles and filtered out of the blood by the kidneys. Measuring creatinine levels helps assess how well your kidneys are working, as a rise may signal reduced kidney function.
  • eGFR (Estimated Glomerular Filtration Rate) - eGFR is a calculation based on creatinine, age, sex, and other factors. It estimates how efficiently your kidneys are filtering waste from the blood, giving a clear picture of overall kidney function. Lower eGFR values may indicate early or advanced kidney disease.
  • Urea - Urea is another waste product created when your body breaks down protein. Healthy kidneys remove urea through urine. Elevated levels can suggest dehydration, high protein intake, or reduced kidney function.
  • Sodium - Sodium is an essential electrolyte that helps control fluid balance, blood pressure, and nerve and muscle function. Abnormal levels may point to dehydration, kidney issues, or hormonal imbalances.
  • Potassium - Potassium is vital for heart rhythm, muscle contractions, and nerve signals. Both high and low potassium levels can be serious, sometimes causing muscle weakness, irregular heartbeat, or other complications.
  • Calcium - Calcium is essential for healthy bones, teeth, nerves, and muscles. Abnormal levels can signal bone disease, vitamin D problems, or parathyroid hormone imbalances.
  • Calcium (Adjusted) - Calcium is essential for healthy bones, teeth, nerves, and muscles. “Adjusted calcium” accounts for protein levels in the blood (mainly albumin), giving a more accurate measure of the calcium available to the body. Abnormal levels can signal bone disease, vitamin D problems, or parathyroid hormone imbalances.
  • Total Cholesterol - Total cholesterol is the overall amount of cholesterol in your blood. While your body needs cholesterol for hormones, cells, and digestion, too much can raise your risk of heart disease and stroke.
  • LDL Cholesterol (“bad” cholesterol) - LDL carries cholesterol to the arteries. High levels can cause fatty deposits (plaques) to build up, narrowing the arteries and increasing the risk of heart attack and stroke.
  • HDL Cholesterol (“good” cholesterol) - HDL helps remove excess cholesterol from the blood, transporting it back to the liver for processing. Higher HDL is protective against heart disease.
  • Total Cholesterol / HDL Ratio - This ratio compares overall cholesterol to protective HDL. A lower ratio generally means a healthier balance and a lower risk of cardiovascular problems.
  • Triglycerides - Triglycerides are a type of fat in the blood, stored for energy. High levels can increase the risk of heart disease and are often linked to diet, obesity, diabetes, or excessive alcohol intake.
  • Non-HDL Cholesterol - Non-HDL cholesterol encompasses all cholesterol particles considered atherogenic - that is, capable of contributing to plaque formation in the arteries. This includes LDL as well as other harmful lipoproteins such as VLDL and IDL. It is calculated by subtracting HDL from total cholesterol and is increasingly recognised as a stronger predictor of cardiovascular risk than LDL alone, particularly in individuals with elevated triglycerides or metabolic syndrome
  • Alkaline Phosphatase (ALP) - ALP is an enzyme found in the liver, bones, and digestive tract. High levels may indicate liver disease, bile duct problems, or increased bone activity.
  • Alanine Aminotransferase (ALT) - ALT is an enzyme mainly found in the liver. Raised ALT often signals liver irritation or damage, such as from fatty liver, alcohol, or viral hepatitis.
  • Aspartate Aminotransferase (AST) - AST is another enzyme involved in liver and muscle function. High levels may indicate liver stress, muscle injury, or heart conditions when combined with other findings.
  • Gamma-Glutamyl Transferase (GGT) - GGT is an enzyme linked to bile ducts and alcohol metabolism. Elevated GGT can be an early sign of liver or bile duct problems and is often raised with heavy alcohol use.
  • Total Bilirubin - Bilirubin is a yellow pigment made when red blood cells break down. The liver processes and removes it. High bilirubin may cause jaundice and indicate liver or bile duct problems.
  • Albumin - Albumin is a protein made by the liver that helps maintain fluid balance and transport nutrients and hormones. Low levels may suggest liver disease, kidney problems, or malnutrition.
  • C-Reactive Protein (CRP) - CRP is a protein made by the liver in response to inflammation. Levels rise when there is infection, injury, or chronic inflammatory activity in the body. Measuring CRP helps detect hidden inflammation and can support the investigation of conditions such as infections, autoimmune disease, or cardiovascular risk.
  • Ferritin - Ferritin is a protein that stores iron in your body. Measuring ferritin shows how much iron you have in reserve. Low levels suggest iron deficiency, while high levels may indicate inflammation or iron overload.
  • Thyroid Stimulating Hormone (TSH) - TSH is made by the pituitary gland and controls how much hormone your thyroid produces. High levels usually suggest an underactive thyroid (hypothyroidism), while low levels may point to an overactive thyroid (hyperthyroidism).
  • Free Thyroxine (fT4) - Free T4 is the main hormone released by the thyroid gland. It helps regulate metabolism, energy, and body temperature. Measuring fT4 alongside TSH shows whether your thyroid is working normally or if it’s under- or overactive.
  • Free Triiodothyronine (fT3) - Free T3 is the active thyroid hormone that drives many of the body’s metabolic processes. It is especially useful in assessing suspected overactive thyroid, as it can be raised even when fT4 appears normal.
  • Oestradiol (E2) - Oestradiol is the main form of oestrogen in women. It plays a central role in regulating the menstrual cycle, ovulation, and uterine lining. Abnormal levels may affect fertility and menstrual regularity.
  • Follicle Stimulating Hormone (FSH) - FSH helps control the menstrual cycle and stimulates the growth of eggs in women and sperm production in men. High levels may suggest reduced ovarian reserve in women or testicular issues in men.
  • Luteinising Hormone (LH) - LH triggers ovulation in women and supports testosterone production in men. Abnormal LH levels can point to ovulation problems, polycystic ovary syndrome (PCOS), or pituitary dysfunction.
  • Progesterone - Produced after ovulation, progesterone prepares the uterus for pregnancy. Low levels may indicate that ovulation isn’t occurring regularly, which can affect fertility.
  • Prolactin - Prolactin is primarily involved in milk production after childbirth, but raised levels outside of pregnancy can disrupt ovulation and fertility.
  • Testosterone - Although typically thought of as a male hormone, testosterone is also important in women for libido, mood, and ovarian function. Abnormal levels in women may suggest PCOS, while in men it reflects testicular and reproductive health.
  • Free Testosterone – Testosterone is a key sex hormone that supports muscle mass, energy, mood, bone strength, and libido. Measuring the free (active) form of testosterone — not bound to proteins — gives a more accurate picture of how much hormone is available for your body to use. Low levels can cause fatigue, low mood, reduced muscle strength, or sexual health problems, while high levels may suggest hormonal imbalance.
  • Sex Hormone Binding Globulin (SHBG) - SHBG is a protein that binds sex hormones like testosterone and oestradiol. Measuring it helps determine how much “free” (active) hormone is available.
  • Free Androgen Index (FAI) - FAI is a calculation based on testosterone and SHBG. It helps identify whether androgen (male hormone) levels are in balance, particularly important in women with suspected PCOS
  • Total PSA – Prostate-Specific Antigen (PSA) is a protein made by the prostate gland. Small amounts naturally circulate in the blood, but higher levels can suggest changes in prostate health. Elevated PSA may be linked to prostate enlargement (benign prostatic hyperplasia), inflammation (prostatitis), or prostate cancer. Because many factors can influence PSA, results are best interpreted alongside age, symptoms, and medical history.

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