Advanced Biomarker Testing

Often called "bad cholesterol"; high levels can build up in artery walls and increase heart disease risk.

Known as "good cholesterol"; helps carry excess cholesterol away from arteries for removal.

The sum of all cholesterol in your blood; high levels can signal increased cardiovascular risk.

A type of fat in the blood; elevated levels may raise the risk of heart disease and pancreatitis.

All the cholesterol considered harmful, including LDL and other particles; a strong predictor of heart risk.

Compares total cholesterol to protective HDL; higher ratios indicate greater cardiovascular risk.

Balances harmful LDL against protective HDL; a useful marker of heart disease risk.

Links blood fats to protective cholesterol; higher values may indicate insulin resistance or metabolic risk.

A calculation using triglycerides and HDL; helps predict how likely cholesterol is to cause artery damage.

A protein found on harmful cholesterol particles; considered a highly accurate marker of cardiovascular risk.

An inherited cholesterol particle; high levels increase lifetime risk of heart disease and stroke.

Shows the number and size of LDL particles; lower ratios suggest smaller, denser, and more harmful LDL.

A sensitive measure of inflammation in the body; higher levels may signal increased risk of heart disease and chronic illness.

Compares inflammation (CRP) to nutritional status (albumin); used to assess overall health and recovery capacity.

Balances clotting cells (platelets) with immune cells (lymphocytes); higher values may reflect systemic inflammation.

Compares two types of white blood cells; often used as a marker of stress, infection, or chronic inflammation.

Combines platelet, neutrophil, and lymphocyte counts into a single score; provides a broader view of immune system activity and inflammation.

Links iron storage (ferritin) with nutritional protein (albumin); may reflect inflammation and metabolic stress.

Compares inflammation levels (CRP) to immune strength (lymphocytes); higher values may indicate poorer resilience.

The main sugar in your blood; high or low levels can signal diabetes, prediabetes, or other metabolic issues.

Reflects your average blood sugar over the past 2–3 months; helps identify long-term glucose control.

Converts HbA1c into an easy-to-understand blood sugar average; mirrors everyday glucose exposure.

Compares short-term glucose to long-term HbA1c; differences may reveal hidden metabolic risk.

An enzyme mainly in the liver; elevated levels may indicate liver or metabolic stress.

Another liver enzyme; abnormal levels may point to liver, muscle, or metabolic strain.

Balances two liver enzymes; helps distinguish between types of liver and metabolic conditions.

A hormone that regulates blood sugar; abnormal levels can signal insulin resistance or metabolic dysfunction.

A formula using glucose and insulin levels; estimates how resistant your body is to insulin.

An enzyme mostly found in the liver; elevated levels may suggest liver damage or metabolic stress.

An enzyme in the liver and muscles; higher levels can indicate liver strain, muscle injury, or metabolic imbalance.

An enzyme linked to bile ducts and bone health; abnormal levels may signal liver, gallbladder, or bone conditions.

A breakdown product of red blood cells; elevated levels may indicate liver problems or increased red cell turnover.

The water-soluble form of bilirubin processed by the liver; high levels may suggest bile duct blockage or liver dysfunction.

The unprocessed form of bilirubin; elevations may signal red blood cell breakdown or impaired liver uptake.

A major blood protein made by the liver; low levels can reflect poor liver function, malnutrition, or inflammation.

A group of blood proteins involved in immunity and transport; abnormal levels may reflect liver or immune conditions.

Compares two main blood proteins; imbalances may indicate liver disease, kidney problems, or immune dysfunction.

Measures all proteins in the blood, mainly albumin and globulin; abnormal values may point to liver, kidney, or nutritional issues.

Compares two liver enzymes; helps differentiate between types of liver injury or metabolic stress.

Links a waste product (bilirubin) to a key blood protein (albumin); higher values may indicate more severe liver dysfunction.

A waste product from muscle activity; rising levels may indicate reduced kidney function.

A byproduct of protein breakdown; elevated levels can signal kidney stress, dehydration, or high protein intake.

Compares two kidney function markers; helps distinguish between kidney disease and other causes of imbalance.

A calculation from creatinine, age, and sex; estimates how efficiently your kidneys filter waste.

An essential electrolyte; abnormal levels can affect fluid balance, blood pressure, and kidney health.

A key mineral for heart and muscle function; too much or too little can be dangerous.

An electrolyte that works with sodium to balance fluids and maintain blood acidity.

Reflects blood bicarbonate levels; helps assess acid-base balance and kidney function.

Vital for bones, muscles, and nerve signaling; abnormal levels may point to kidney, parathyroid, or bone issues.

A calculation using T4 and T3 uptake; provides a clearer picture of free thyroid hormone activity.

A messenger hormone from the brain that tells your thyroid how much hormone to make; abnormal levels may signal underactive or overactive thyroid.

Measures both bound and unbound triiodothyronine; changes can point to hyperthyroidism or hypothyroidism.

Assesses thyroid hormone binding proteins; helps interpret T3 and T4 levels more accurately.

Measures all thyroxine in the blood (bound and unbound); abnormal levels may indicate thyroid disease.

The active thyroid hormone that drives metabolism; often the most accurate reflection of thyroid activity.

The unbound form of thyroxine; shows how much active thyroid hormone is available to your cells.

Measures the number of immune cells in your blood; high or low levels may indicate infection, stress, or immune imbalance.

Counts the cells that carry oxygen; abnormalities can point to anemia, dehydration, or other blood disorders.

Shows the percentage of blood made up of red cells; helps assess anemia, hydration, or oxygen-carrying capacity.

The protein in red cells that carries oxygen; low levels signal anemia, while high levels may reflect dehydration or lung disease.

Measures the cells that help your blood clot; too few may increase bleeding risk, while too many can raise clotting risk.

Shows the average size of your red blood cells; helps classify different types of anemia.

Measures the average amount of hemoglobin per red blood cell; useful for diagnosing types of anemia.

Indicates the concentration of hemoglobin inside red cells; abnormal values may point to anemia or blood disorders.

Shows variation in red blood cell size; higher values may suggest nutrient deficiencies or anemia.

Reflects the average size of your platelets; larger platelets may indicate increased production or activation.

Compares clotting cells to immune cells; sometimes used to track inflammation or infection.

Balances two types of white blood cells; shifts can signal infection, inflammation, or immune stress.

Compares two key immune cell types; widely studied as a marker of inflammation and overall immune health.

Estimates your body's true age based on DNA patterns; can differ from your calendar age and highlight how well you're aging.

Shows how quickly or slowly your body is aging right now; values above 1.0 mean faster aging, below 1.0 mean slower.

Measures the protective caps on chromosomes; shorter telomeres are linked to aging and chronic disease.

Captures your biological age independent of lifestyle factors; reflects your cells' baseline aging process.

Accounts for immune system changes and lifestyle effects; offers a broader view of whole-body aging.

Assesses how "old" your immune system is; older immune profiles are linked to reduced resilience and higher disease risk.

Estimates the impact of chronic inflammation on your biological aging; higher values suggest accelerated decline.

A DNA-based predictor of lifespan; higher scores are associated with greater long-term health risks.