The Male Comprehensive Panel is ideal for:
The Female Comprehensive Panel offers an in-depth look at essential health markers that can help identify early signs of chronic conditions and provide insight into your overall well-being. This panel covers key areas such as metabolic health, cardiovascular health, and hormone levels. This level of comprehensive testing is not always easy to obtain, as many doctors might only check these markers when health issues have already progressed. By being proactive with this panel, you and your healthcare provider can monitor critical health indicators and address potential concerns before they become more serious, giving you greater control over your long-term wellness.
We recommend completing the Female Comprehensive Panel at least yearly, if not every 6 months, to maintain a complete overview of your health and catch any potential issues early.
Alanine Aminotransferase (ALT) is an enzyme primarily found in the liver, with smaller amounts in the kidneys, heart, and muscles. It plays a vital role in breaking down proteins and converting them into energy. ALT is released into the bloodstream when the liver is damaged or inflamed. Clinically, ALT is a key biomarker for liver health, as elevated levels often indicate liver injury or disease. Understanding ALT levels helps clinicians diagnose liver disorders, monitor disease progression, and guide treatment decisions.
ALT measurements are useful in diagnosing and managing liver diseases such as viral hepatitis and cirrhosis. ALT activity is generally lower than aspartate aminotransferase (AST) activity and is highest in the liver. Significant ALT elevations occur mainly in liver diseases. ALT is often measured with AST to determine if AST's source is the liver or heart. A normal ALT with elevated AST suggests cardiac disease, while slight ALT elevations can occur with extensive heart muscle damage.
Low ALT: Low ALT levels can result from chronic liver disease, malnutrition, advanced liver cirrhosis, severe vitamin B6 deficiency, or genetic disorders affecting ALT production. Although low ALT levels are less common, they can indicate significant liver damage and require further evaluation.
Symptoms of Low ALT Levels are less common and generally less concerning but can include:
High ALT: High ALT levels typically signal liver damage or injury, either acute or chronic. Common causes include hepatitis, fatty liver disease, and cirrhosis. Other causes include certain medications (statins, antibiotics, and OTC pain relievers), excessive alcohol consumption, obesity, metabolic disorders like diabetes, and toxin exposure.
ALT levels may also rise temporarily after strenuous exercise or muscle injury, though elevations are more specific to liver injury.
Identifying the cause of elevated ALT is crucial for proper management and treatment, including ruling out drug, alcohol, medication use, and toxin exposure.
Symptoms of Elevated ALT Levels often indicate liver damage or inflammation and can include:
Albumin is a protein in your blood that performs essential functions, such as maintaining the balance of fluids between blood vessels and tissues. It also helps transport various substances, including hormones, vitamins, and drugs and also supports tissue growth and healing.
The serum albumin test is a valuable tool in diagnosing and managing various health conditions, including liver and kidney diseases, nutritional deficiencies, and inflammatory disorders. Regular monitoring and appropriate medical guidance are essential to address any abnormalities effectively.
Low Blood Albumin Levels (Hypoalbuminemia) - Symptoms
Symptoms of high albumin levels are generally related to the underlying cause, such as liver, kidney, or heart issues, malnutrition or malabsorption issues, chronic inflammation or infection, or burns and severe injuries. Symptoms include:
High Blood Albumin Levels (Hyperalbuminemia) - Symptoms
Symptoms of high albumin levels are generally related to the underlying cause. Symptoms include:
The Albumin/Globulin Ratio is a calculated value obtained by dividing the level of albumin (a protein in the blood) by the level of globulin (another group of proteins in the blood). This ratio provides insights into various health conditions and is used for the following clinical purposes:
Alkaline phosphatase (ALP) is an enzyme found in various tissues, especially the liver, bile duct, bones, kidneys, and digestive system. It plays a role in the breakdown of proteins and is important for liver, bile duct, and bone health.
The ALP Test is used to help diagnose and monitor liver and bone disorders and assess treatment efficacy. Elevated levels may indicate liver or bone diseases, while decreased levels can suggest malnutrition or genetic conditions.
Low ALP Levels - Causes
Low ALP Levels - Symptoms
Low ALP levels do not usually cause symptoms but may indicate underlying conditions, such as:
High ALP Levels - Causes
High ALP levels are generally due to underlying conditions, such as:
(sarcoidosis), granulomatous disorders.
High ALP Levels - Symptoms
High (ALP) may not cause specific symptoms directly. However, the underlying conditions can cause various symptoms, depending on the cause.
AST (Aspartate Aminotransferase) and SGOT (Serum Glutamic Oxaloacetic Transaminase) are terms used interchangeably to describe the same liver enzyme.
AST is widely distributed throughout the tissues with significant amounts in the heart and liver. Lesser amounts are found in skeletal muscles, kidneys, pancreas, spleen, lungs, and brain.
Clinically, AST testing plays a pivotal role in assessing liver and heart health. When these organs are damaged or inflamed, AST is released into the bloodstream, making it a valuable biomarker for detecting conditions such as liver disease, myocardial infarction (heart attack), and muscle injury. It is commonly performed alongside the Alanine Aminotransferase (ALT) test because both enzymes are released into the bloodstream when liver cells are damaged.
Mild elevations in liver enzymes like AST are common in clinical practice. The clinician should evaluate potential causes as they may be early indicators of liver damage. Mild elevations may be caused by:
EPA (Eicosapentaenoic Acid), DPA (Docosapentaenoic Acid), and DHA (Docosahexaenoic Acid) are fatty acids and essential nutrients that your body needs but can't produce on its own. They are found in fish oils, marine sources, and certain plants in smaller amounts. They can also be obtained through supplements. These fatty acids play a crucial role in maintaining cardiovascular health, reducing inflammation, and supporting brain function.
EPA+DPA+DHA is a blood test that measures the levels of three specific types of omega-3 fatty acids in your blood. They're primarily found in fatty fish, but can also be obtained through supplements.
Higher levels of EPA+DPA+DHA have been linked to several health benefits, including:
Low Levels of EPA, DPA, and DHA - Causes
Low Levels of EPA, DPA, and DHA - Symptoms
High Levels of EPA, DPA, and DHA - Causes
High Levels of EPA, DPA, and DHA - Symptoms
Linoleic Acid is an essential omega-6 fatty acid, crucial for maintaining the integrity of cell membranes, supporting skin health, and playing a role in inflammation and overall cellular function. Since the body cannot produce linoleic acid, it must be obtained from the diet.
Low Levels of Linoleic Acid - Causes
Low Levels of Linoleic Acid - Symptoms
High Levels of Linoleic Acid - Causes
High Levels of Linoleic Acid - Symptoms
The Omega-6/Omega-3 ratio refers to the balance between two essential fatty acids in the diet: omega-6 in vegetable oils and processed foods, and omega-3 in fatty fish, flaxseeds, and walnuts. Maintaining a healthy balance between these fatty acids is important for overall health, particularly for reducing inflammation and heart disease risk. The ideal ratio is considered to be between 2:1 and 4:1 Omega-6 over Omega-3, although typical Western diets often exceed this range, leading to potential health issues.
This test calculates the ratio of omega-6 fatty acids to omega-3 fatty acids in your blood.
Low Ratio (Omega-6 Dominant) - Causes
Low Ratio - Symptoms
High Ratio (Omega-6 Dominant) - Causes
High Ratio (Omega-6 Dominant) - Signs & Symptoms
Omega-3 fatty acids are essential for many bodily functions, including reducing inflammation, supporting brain function, and maintaining cardiovascular and eye health. There are three key omega-3s. Eicosapentaenoic Acid (EPA) and Docosahexaenoic Acid (DHA). These come mostly from fatty fish like salmon and sardines. The third, Alpha-Linolenic Acid (ALA), comes from plants like flaxseeds and walnuts. We can't make omega-3s ourselves, so we need to get them from food or supplements.
The Omega-3 Total Test measures the combined levels of all omega-3 fatty acids in the blood.
Key Points:
Causes
Symptoms
Causes
Symptoms
Omega-6s are polyunsaturated fats that affect inflammation, immunity, and cellular function. While omega-6 fatty acids are essential for health, an imbalance between omega-6 and omega-3 fatty acids can lead to chronic inflammation and poor health. Omega-6 fatty acids include linoleic acid (LA) and arachidonic acid (AA), typically found in vegetable oils, nuts, seeds, and processed foods.
The Omega-6 Total Test measures the levels of omega-6 fatty acids in the blood.
Low Omega-6 Levels - Causes
Low Omega-6 Levels - Symptoms
High Omega-6 Levels - Causes
High Omega-6 Levels - Symptoms
Cholesterol is a waxy, fat-like substance found in all the cells in your body. Often referred to as "bad cholesterol," LDL cholesterol is a type of lipoprotein that carries cholesterol from the liver to the cells throughout the body. When present in excess, LDL cholesterol can deposit in the walls of arteries, leading to plaque formation, which narrows the arteries and increases the risk of cardiovascular diseases like heart attacks and strokes.
Your liver makes cholesterol and it's also in some foods, such as meat and dairy products. Your body needs some cholesterol to work properly. However, having too much cholesterol in your blood raises your risk of coronary artery disease (CAD).
The Low-Density Lipoprotein (LDL) Cholesterol Test measures the amount of LDL cholesterol in the blood and is part of a routine lipid panel. It is used to evaluate the risk of developing heart disease and to monitor the effectiveness of LDL-lowering protocols.
Low LDL - Causes & Symptoms
Low LDL cholesterol levels are generally considered very healthy and do not cause noticeable symptoms. Genetic disorders, malnutrition, hyperthyroidism, liver disease, or medication may cause low levels. Very low levels might be associated with:
Causes
Symptoms
Medium Low-Density Lipoprotein Particles (Medium LDL-P) are cholesterol particles that transport fats from your liver to other parts of your body, where they help create cells and make certain hormones.
This test quantifies Medium LDL-P levels and provides insight into cholesterol management and CVD risk.
Low Medium LDL-P Levels might mean your body isn't making or moving around as much cholesterol as it usually does. Low levels are uncommon but may indicate an efficient cholesterol metabolism or underlying health conditions.
There are generally no symptoms of low Medium LDL-P levels. However, in some cases, individuals might experience fatigue, unexplained weight loss, or issues related to hormonal imbalances. Regular monitoring and working with healthcare providers are crucial for managing LDL-P levels.
Low Medium LDL-P - Causes
High Medium LDL-P can increase the risk of cardiovascular disease (CVD) by 1.2 to 1.4 times. While there are no symptoms associated with elevated levels, over time, elevated levels could contribute to the development of atherosclerosis, which may lead to symptoms such as chest pain or discomfort, shortness of breath, or fatigue during physical activity.
High Medium LDL-P - Causes
Low-Density Lipoprotein particles (LDL-P) are a key component of LDL cholesterol, responsible for transporting fats through the bloodstream. When these particles become trapped in the artery walls, they contribute to the buildup of fatty plaques, which can increase the risk of heart attacks or strokes.
The higher the concentration of LDL-P in the blood, the greater the likelihood of plaque formation. Studies indicate that elevated LDL-P levels can raise cardiovascular risk, even when total cholesterol and LDL-C levels appear normal. This helps explain why some individuals experience heart attacks despite not having high total cholesterol or LDL-C.
While standard LDL-C tests are helpful for assessing cardiovascular disease (CVD) risk, they may not fully capture the risk for some individuals, particularly those with conditions like diabetes. In such cases, LDL-P testing can provide a more accurate picture of cardiovascular risk, offering valuable insight for those with normal LDL-C levels but elevated risk factors.
Low LDL Particle Numbers - Causes
Low LDL Particle Numbers - Symptoms
High LDL Particle Numbers - Causes
High LDL Particle Numbers - Symptoms
LDL cholesterol is often referred to as 'bad' cholesterol. There are different types of LDL particles: small, dense LDL, and large, buoyant LDL. The size and density of LDL particles can provide more detailed information about cardiovascular risk than just measuring total LDL cholesterol.
The LDL Pattern test categorizes LDL particles into the following types based on their size and density.
Abnormal LDL Pattern - Causes
Abnormal LDL Pattern - Symptoms
The size of LDL particles can provide more detailed information about cardiovascular risk beyond just measuring total LDL cholesterol. Larger LDL particles are generally considered less atherogenic (less likely to promote the formation of plaque in the arteries) than smaller, denser LDL particles.
The LDL (Low-Density Lipoprotein) peak size test measures the average size of LDL particles in your blood.
Abnormal LDL Peak Size - Causes
Abnormal LDL Peak Size - Symptoms
Sex Hormone Binding Globulin (SHBG) is a glycoprotein produced mainly in the liver that binds to sex hormones, specifically testosterone and estrogen, in the bloodstream. SHBG controls the amount of testosterone and estrogen that is available for the body's tissues to use. When hormones are bound to SHBG, they are inactive and cannot be used by cells. The levels of SHBG can influence the balance of available sex hormones, affecting many bodily processes.
The Sex Hormone Binding Globulin (SHBG) test measures the level of SHBG in your blood. This test is often used to help diagnose conditions related to abnormal levels of sex hormones, such as testosterone and estrogen. It is particularly useful when total hormone levels are normal, but symptoms of hormone imbalance are present.
Low SHBG levels have been associated with an increased risk of developing type 2 diabetes, cardiovascular disease, and metabolic disorders including metabolic syndrome, as well as some cancers and arthritis in both genders.
Low SHBG - Causes
Low SHBG - Symptoms
Often, higher levels of SHBG are associated with positive health outcomes. For example, elevated SHBG levels have been linked to a lower risk of type 2 diabetes and prostate cancer. However, they are also linked to a higher risk of bone loss and fractures, hypogonadism in males, and hepatic cirrhosis. In some cases, it may be caused by hyperthyroidism, as thyroid hormone stimulates the production and release of SHBG.
High SHBG - Causes
High SHBG - Symptoms
Testosterone is a key male sex hormone and an androgenic steroid. It's essential for both men and women, influencing libido, muscle mass, bone density, red blood cell production, mood, and overall well-being. In men, it also drives the development of masculine characteristics such as deeper voice, facial and body hair, and a more muscular body shape.
A total testosterone test measures the hormone's total amount in the blood, aiding in the evaluation of sexual dysfunction, infertility, and endocrine disorders. The total testosterone test measures two forms of testosterone, bound and free. Both of these forms decline with age.
Low Testosterone in Men
Low Testosterone in Women
High Testosterone in Men - Physical Symptoms
High Testosterone in Men - Behavioral Symptoms
High Testosterone in Men - Other Symptoms
High Testosterone in Women
Free Testosterone is the portion of testosterone that is not bound to proteins in the blood, making it biologically active and available to interact with cells and tissues. While most testosterone in the blood is bound to sex hormone-binding globulin (SHBG) or albumin, only a small fraction is "free" and active, which plays a crucial role in various bodily functions.
The Free Testosterone test measures the amount of unbound testosterone in the bloodstream. This test is often used when total testosterone levels are borderline or do not match clinical symptoms. It's beneficial in evaluating conditions related to hormone imbalance, such as hypogonadism in men or polycystic ovary syndrome (PCOS) in women.
Causes
Symptoms
Causes
Symptoms
RDW stands for Red Blood Cell Distribution Width, a measure of the variation in size or volume of red blood cells (RBCs). It assesses the uniformity of RBCs in a blood sample. A higher RDW value indicates greater variation in RBC size, which can signal various health conditions.
This test is often used to help determine the cause of anemia, a condition where you don't have enough healthy red blood cells.
High RDW: A high RDW indicates significant variation in red blood cell size, which may suggest:
Low RDW: A low RDW isn't usually a cause for concern. It is not associated with any particular type of anemia.
White blood cells are produced in your bone marrow. They are a crucial component of the immune system, helping the body to fight infections and diseases. The White Blood Cell (WBC) Count measures the number of white blood cells in a volume of blood.
A low WBC count (leukopenia) may be due to the following:
Low WBC Count (Leukopenia) - Symptoms
A high WBC count (leukocytosis) is a normal immune response, such as when your body responds to allergies or infections. Other causes include:
High WBC Count (Leukocytosis) - Symptoms