Reflects your long-term risk of heart attack and stroke by looking at cholesterol, blood fats, inflammation, and how well your blood vessels are protected.
A protein that carries fats and cholesterol in the blood. High levels mean more particles that can build up in arteries.
The total amount of cholesterol in the blood. Needed to build cells, but too much can damage arteries.
Removes excess cholesterol from the body. Protects against fat buildup in arteries.
Carries cholesterol to tissues. Excess promotes plaque buildup in arteries.
Estimated amount of “bad” cholesterol based on other results. Helps assess heart disease risk.
A type of fat particle in the blood. High levels increase the risk of heart attack and stroke.
Fats formed from excess calories. Too much strains the heart and pancreas.
C-reactive protein (CRP) is an inflammation biomarker whose blood concentration rises rapidly in response to infection, injury, or inflammatory diseases. Its level helps clinicians assess the presence and severity of inflammation and monitor treatment effectiveness.
A test that measures the number and type of blood cells. Helps detect infections, anemia, and other conditions.
A marker of inflammation in the body. Higher levels may signal increased heart disease risk.
Copper is a trace element that serves as a biomarker because its blood concentration reflects metabolic status, enzyme function, and potential disorders such as Wilson’s disease or inflammatory conditions. Measuring copper levels is used in diagnosing and monitoring metabolic diseases and abnormalities in mineral balance.
Lead is a toxic heavy metal whose concentration in blood or urine serves as a biomarker of environmental or occupational exposure. Elevated lead levels may indicate poisoning and help assess the risk of damage to the nervous, hematopoietic, and renal systems.
An amino acid produced in the body. High levels may increase the risk of heart disease and stroke.
The sugar that is the body’s main energy source. High levels may indicate diabetes.
A hormone that controls blood sugar levels. Imbalances are linked to diabetes and insulin resistance.
A hormone that controls blood sugar levels. Imbalances are linked to diabetes and insulin resistance.
A breakdown product of purines from food and cells. High levels can cause gout.
A measure of average blood sugar over the past 2–3 months. Helps diagnose and monitor diabetes.
Shows how well your body handles food and maintains stable blood sugar, insulin and weight to support steady energy and long-term health.
A protein that carries fats and cholesterol in the blood. High levels mean more particles that can build up in arteries.
The total amount of cholesterol in the blood. Needed to build cells, but too much can damage arteries.
Removes excess cholesterol from the body. Protects against fat buildup in arteries.
Carries cholesterol to tissues. Excess promotes plaque buildup in arteries.
Estimated amount of “bad” cholesterol based on other results. Helps assess heart disease risk.
A type of fat particle in the blood. High levels increase the risk of heart attack and stroke.
Fats formed from excess calories. Too much strains the heart and pancreas.
An amino acid produced in the body. High levels may increase the risk of heart disease and stroke.
Lipase is a pancreatic enzyme whose elevated blood level serves as a biomarker of pancreatic injury or inflammation. Its concentration helps in diagnosing acute pancreatitis and monitoring the course of pancreatic disorders.
The sugar that is the body’s main energy source. High levels may indicate diabetes.
A hormone that controls blood sugar levels. Imbalances are linked to diabetes and insulin resistance.
A hormone that controls blood sugar levels. Imbalances are linked to diabetes and insulin resistance.
A breakdown product of purines from food and cells. High levels can cause gout.
A measure of average blood sugar over the past 2–3 months. Helps diagnose and monitor diabetes.
A mineral that helps maintain normal blood pressure and fluid balance. Too low or too high affects muscle and nerve function.
A waste product removed by the kidneys. High levels may indicate kidney problems.
The glomerular filtration rate (GFR) is a biomarker used to assess kidney function by measuring how effectively the renal glomeruli filter blood. Reduced GFR values may indicate impaired kidney performance and are used in the diagnosis and monitoring of kidney diseases.
Urea is an end product of protein metabolism, and its blood concentration serves as a biomarker of kidney function and overall metabolic balance. Elevated or decreased urea levels may indicate impaired kidney function, dehydration, liver disorders, or abnormal protein metabolism.
A mineral that regulates heart and muscle function. Imbalances can cause arrhythmias or muscle weakness.
A mineral important for muscle, nerve, and heart function. Deficiency may cause cramps and fatigue.
A mineral that helps maintain fluid and electrolyte balance. Supports digestive system function.
A mineral needed for strong bones, teeth, and muscle function. Imbalances can affect the heart and nervous system.
A liver enzyme; high levels may indicate liver damage.
An enzyme linked to the liver, bones, and bile ducts. High levels may indicate problems in these areas.
An enzyme found in the liver, heart, and muscles. High levels may indicate damage to these tissues.
A liver enzyme often elevated in liver disease or heavy alcohol use.
A pigment formed when red blood cells break down. High levels may indicate liver or blood problems.
Shows how your thyroid, sex hormones, and stress hormones are working together to influence energy, mood, sleep, sex drive, and overall vitality.
The main female sex hormone. Regulates the menstrual cycle and bone health.
A hormone that controls egg cell maturation in women and sperm production in men.
A hormone that triggers ovulation in women and supports testosterone production in men.
The main male sex hormone, also present in smaller amounts in women. Affects muscle strength, libido, and energy.
The portion of testosterone available to cells. Has the strongest effect on body functions.
A hormone that prepares the body for pregnancy and regulates the menstrual cycle.
A hormone that stimulates milk production after childbirth. Can affect fertility and the menstrual cycle.
The stress hormone that regulates metabolism, blood pressure, and the body’s stress response.
A protein that carries sex hormones in the blood. Controls the availability of testosterone and estrogen to cells.
A hormone made by the adrenal glands that is a precursor to testosterone and estrogen.
A hormone that regulates thyroid function. Imbalances affect metabolism and energy.
The active thyroid hormone that controls metabolism speed. Too low slows metabolism.
A thyroid hormone converted into T3. Important for regulating metabolism and energy.
Supports blood production and nervous system health. Deficiency leads to anemia and neurological issues.
Regulates calcium absorption and supports immunity. Deficiency can weaken bones and increase infection risk.
A protein made by the prostate gland. Its level helps assess prostate health.
Total PSA is the total amount of prostate-specific antigen in the blood, including both free and protein-bound PSA.
Indicates how active your immune system is, whether there are signs of chronic inflammation, and how effectively you recover from stress, infections, and injury.
C-reactive protein (CRP) is an inflammation biomarker whose blood concentration rises rapidly in response to infection, injury, or inflammatory diseases. Its level helps clinicians assess the presence and severity of inflammation and monitor treatment effectiveness.
An analysis of proteins in the blood. Helps diagnose liver, kidney, and immune system disorders.
An enzyme released when muscles are damaged. High levels may indicate injury, intense exercise, or muscle disease.
A marker of inflammation in the body. Higher levels may signal increased heart disease risk.
An antibody that protects mucous membranes from infections. Helps defend the respiratory and digestive systems.
The most common antibody in the blood. Provides long-term protection against pathogens.
The most common antibody in the blood. Provides long-term protection against pathogens.
A test that measures the number and type of blood cells. Helps detect infections, anemia, and other conditions.
An antibody that can appear in autoimmune diseases, especially rheumatoid arthritis.
Antibodies directed against structures inside cells. Their presence may indicate autoimmune diseases.
Lactate dehydrogenase (LDH) is an enzyme found in many tissues, and its elevated blood levels serve as a nonspecific biomarker of cellular damage. Increased LDH can indicate various conditions, including heart and liver diseases, cancers, and inflammatory states.
Copper is a trace element that serves as a biomarker because its blood concentration reflects metabolic status, enzyme function, and potential disorders such as Wilson’s disease or inflammatory conditions. Measuring copper levels is used in diagnosing and monitoring metabolic diseases and abnormalities in mineral balance.
A protein that stores iron in the body. Low levels mean iron stores are depleted.
Transferrin is a protein that transports iron in the bloodstream, and its concentration serves as a biomarker of the body’s iron status. Alterations in transferrin levels help assess iron deficiency, inflammatory conditions, and nutritional imbalances.
The total amount of protein in the blood. Important for immunity and tissue building.
The main blood protein that maintains fluid balance. Helps transport hormones, drugs, and nutrients.
Shows the strength of your core organs and nutrient stores – liver, kidneys, vitamins, minerals, and proteins – that provide the “backup capacity” to repair, detoxify, and stay healthy over time.
A breakdown product of purines from food and cells. High levels can cause gout.
A mineral that helps maintain normal blood pressure and fluid balance. Too low or too high affects muscle and nerve function.
A waste product removed by the kidneys. High levels may indicate kidney problems.
A mineral that regulates heart and muscle function. Imbalances can cause arrhythmias or muscle weakness.
A mineral important for muscle, nerve, and heart function. Deficiency may cause cramps and fatigue.
A mineral that helps maintain fluid and electrolyte balance. Supports digestive system function.
A mineral needed for strong bones, teeth, and muscle function. Imbalances can affect the heart and nervous system.
A mineral needed for strong bones, teeth, and muscle function. Imbalances can affect the heart and nervous system.
Supports blood production and nervous system health. Deficiency leads to anemia and neurological issues.
Regulates calcium absorption and supports immunity. Deficiency can weaken bones and increase infection risk.
Copper is a trace element that serves as a biomarker because its blood concentration reflects metabolic status, enzyme function, and potential disorders such as Wilson’s disease or inflammatory conditions. Measuring copper levels is used in diagnosing and monitoring metabolic diseases and abnormalities in mineral balance.
Lead is a toxic heavy metal whose concentration in blood or urine serves as a biomarker of environmental or occupational exposure. Elevated lead levels may indicate poisoning and help assess the risk of damage to the nervous, hematopoietic, and renal systems.
An amino acid produced in the body. High levels may increase the risk of heart disease and stroke.
A mineral needed to produce hemoglobin, which carries oxygen. Deficiency causes anemia and fatigue.
A measure of the blood’s ability to transport iron. Helps diagnose iron deficiency or overload.
A measure of the blood’s ability to transport iron. Helps diagnose iron deficiency or overload.
Transferrin is a protein that transports iron in the bloodstream, and its concentration serves as a biomarker of the body’s iron status. Alterations in transferrin levels help assess iron deficiency, inflammatory conditions, and nutritional imbalances.
An enzyme that digests starch in food. High levels may indicate problems with the pancreas or salivary glands.
Lipase is a pancreatic enzyme whose elevated blood level serves as a biomarker of pancreatic injury or inflammation. Its concentration helps in diagnosing acute pancreatitis and monitoring the course of pancreatic disorders.
A liver enzyme; high levels may indicate liver damage.
An enzyme linked to the liver, bones, and bile ducts. High levels may indicate problems in these areas.
An enzyme found in the liver, heart, and muscles. High levels may indicate damage to these tissues.
A liver enzyme often elevated in liver disease or heavy alcohol use.
A pigment formed when red blood cells break down. High levels may indicate liver or blood problems.
The total amount of protein in the blood. Important for immunity and tissue building.
The main blood protein that maintains fluid balance. Helps transport hormones, drugs, and nutrients.
The glomerular filtration rate (GFR) is a biomarker used to assess kidney function by measuring how effectively the renal glomeruli filter blood. Reduced GFR values may indicate impaired kidney performance and are used in the diagnosis and monitoring of kidney diseases.
Urea is an end product of protein metabolism, and its blood concentration serves as a biomarker of kidney function and overall metabolic balance. Elevated or decreased urea levels may indicate impaired kidney function, dehydration, liver disorders, or abnormal protein metabolism.
