Ulta Lab Tests

Coronary Artery Disease (CAD)

Coronary artery disease (CAD) happens when plaque builds up in the arteries that feed the heart. Blood tests can’t show plaque directly, but they reveal the drivers of risk—unhealthy lipids, atherogenic particle number, inherited lipoproteins, inflammation, glucose control, and kidney health.

A proactive plan usually starts with a standard lipid panel and glucose/A1c, then adds ApoB (particle number), lipoprotein(a) [Lp(a)] (genetic risk), and hs-CRP (inflammation) to sharpen your risk picture. Kidney markers (eGFR, urine albumin-creatinine) and, when symptoms suggest acute problems, troponin add context. These tests support screeningdiagnostic work-ups, and monitoring, but they do not replace blood-pressure checks, ECGs, or imaging such as coronary artery calcium (CAC) or stress testing when indicated.

Signs, Symptoms & Related Situations

  • Prevention & baseline: strong family history of early heart attack or stroke; high blood pressure; diabetes/prediabetes; central weight gain; high triglycerides; chronic kidney disease

  • Typical symptom prompts: chest pressure or tightness, breathlessness with activity, reduced exercise tolerance, jaw/arm discomfort, palpitations

  • Lifestyle/therapy checkpoints: new nutrition or training plan; reviewing statin or other lipid therapy; statin intolerance or limited LDL response

  • Urgent care now: new or crushing chest pain, severe shortness of breath, fainting, one-sided weakness, or trouble speaking

Why These Tests Matter

What testing can do

  • Refine risk with ApoB (atherogenic particle number), Lp(a) (genetic risk), and hs-CRP (inflammation) beyond standard cholesterol

  • Guide follow-up when results are borderline or discordant with personal/family risk

  • Track trends after lifestyle changes or therapy adjustments

What testing cannot do

  • Diagnose blocked coronary arteries or active heart attacks

  • Replace guideline imaging (e.g., CAC) or clinical evaluation for chest pain

  • Predict events with certainty without considering the full clinical picture

What These Tests Measure (at a glance)

  • Lipid Panel (TC, LDL-C, HDL-C, TG): core cholesterol snapshot; non-HDL-C (TC − HDL-C) captures all atherogenic cholesterol.

  • Apolipoprotein B (ApoB): counts all atherogenic particles (VLDL remnants, IDL, LDL, Lp(a)); especially useful with high TG or discordant LDL-C.

  • Lipoprotein(a) [Lp(a)]: genetically determined, largely lifelong; adds risk for CAD and calcific aortic valve disease.

  • LDL Particle Number/Size (LDL-P, subfractions): particle burden and distribution; particle number generally weighs more than size alone.

  • High-sensitivity CRP (hs-CRP): low-grade inflammation; interpret trends—illness and hard workouts can transiently raise levels.

  • Glucose & A1c (± fasting insulin): glycemic control and insulin-resistance context.

  • Kidney Markers: Creatinine/eGFR and urine albumin-creatinine; kidney health and microalbuminuria signal vascular risk.

  • Troponin (high-sensitivity): detects acute heart-muscle injury; use for symptom-driven evaluations, not routine stable screening.

  • Optional context tests: ApoA-Iremnant cholesterol (RLP-C)Lp-PLA2homocysteineomega-3 index (if offered).

Quick Build Guide

Goal Start with Add if needed
General CAD screen Lipid Panel • A1c/Glucose non-HDL-C • hs-CRP
Family history / premature ASCVD Lipid Panel • A1c ApoB • Lp(a)
High TG / metabolic syndrome / diabetes Lipid Panel ApoB • LDL-P/subfractions • RLP-C • hs-CRP
Statin review / intolerance Lipid Panel ApoB • LDL-P • Lp(a)
CKD or hypertension Lipid Panel • A1c Urine albumin-creatinine • eGFR • hs-CRP
Possible angina today (Labs do not rule out MI) Troponin per clinician + urgent clinical evaluation

How the Testing Process Works

  1. Choose your panel: begin with lipids + A1c/Glucose, then add ApoBLp(a), and hs-CRP for a clearer risk profile.

  2. Prepare for accuracy: follow any fasting instructions; draw on a recovery day; keep supplements consistent unless your order advises holds (biotin can affect some assays).

  3. Get your draw: visit a local patient service center; most results post within a few days.

  4. Review with your clinician: combine labs with blood pressure, age, diabetes status, smoking, family history, and—when appropriate—coronary calcium or stress imaging.

  5. Track trends: recheck on a schedule tailored to your goals, risk, and treatment plan.

Interpreting Results (General Guidance)

  • LDL-C & non-HDL-C: lower is usually better; non-HDL-C reflects all atherogenic cholesterol.

  • ApoB / LDL-P: higher numbers mean more atherogenic particles; especially helpful when LDL-C looks “fine” but risk is high.

  • Lp(a): an elevated level signals added lifetime risk; levels are largely genetic and stable.

  • hs-CRP: use trends, not single spikes; retest after illness or intense training.

  • Glycemia & kidney markers: tighter glucose control and healthy kidneys reduce vascular risk.
    Always interpret results with a qualified healthcare professional; do not start or stop medications based on labs alone.

Choosing Panels vs. Individual Tests

  • Starter panel: Lipid Panel + A1c/Glucose + non-HDL-C

  • Risk refinement: ApoB + Lp(a) + hs-CRP (± LDL-P/subfractions)

  • Vascular-kidney check: Urine albumin-creatinine and eGFR/creatinine

  • Symptom-driven: Troponin only for acute chest-pain evaluations per clinician

FAQs

Do I need to fast?
Follow your order. Many lipid panels can be non-fasting, but fasting is still common and helpful when triglycerides are high.

My LDL-C is normal—should I still get ApoB?
Possibly. ApoB can uncover high particle number even when LDL-C appears acceptable.

What is Lp(a) and do lifestyle changes lower it?
Lp(a) is genetic and usually stable. Healthy habits still reduce overall risk; discuss options with your clinician.

Are advanced lipid tests a substitute for a coronary calcium scan?
No. Labs refine risk, but CAC and other imaging can show calcified plaque directly.

Can hard workouts change results?
Yes. Tough sessions and infections can raise hs-CRP and shift triglycerides. Aim for a recovery-day draw.

How often should I repeat testing?
Commonly every 3–12 months, depending on goals and treatment. Your clinician will tailor the cadence.

Related Categories & Key Tests

  • Heart & Cardiovascular Tests Hub

  • Cardio IQ Tests • Cardiovascular Disease (CVD) Tests • Cholesterol Tests • Diabetes & Insulin Resistance • Kidney Health • Inflammation (hs-CRP)

  • Key Tests: Lipid Panel • non-HDL-C • ApoB • Lp(a) • LDL Particle Number/Size • hs-CRP • A1c/Glucose (± Insulin) • Creatinine/eGFR • Urine Albumin-Creatinine • Troponin (symptom-driven)

References

  • American College of Cardiology/American Heart Association — Cholesterol and primary prevention guidelines.
  • National Lipid Association — Statements on ApoB, Lp(a), and advanced lipoproteins.
  • European Atherosclerosis Society — Consensus on Lp(a).
  • AHA/CDC — Inflammation markers and cardiovascular risk.
  • KDIGO — Chronic kidney disease evaluation and albumin-creatinine testing guidance.
  • Clinical reviews on LDL particle metrics, remnant cholesterol, and residual risk.

Available Tests & Panels

Your Coronary Artery Disease (CAD) Tests menu is pre-populated in the Ulta Lab Tests system. Start with lipids + A1c, add ApoBLp(a), and hs-CRP to refine risk, include kidney markers for vascular context, and reserve troponin for symptom-driven evaluations. Review results with your clinician to personalize prevention and follow-up.

Choose the Advanced Cardiovascular Health Panel That Fits Your Needs

Panel Best For What It Emphasizes What It Adds as You Step Up
Advanced Cardiovascular Health - Basic Establishing a baseline if you have few or no known risks Core lipid markers and general metabolic/organ health
Advanced Cardiovascular Health - Basic Plus If you have some risk factors (family history, BP, cholesterol) Deeper lipid insight and inflammation screening Adds expanded lipid risk and hs-CRP–style inflammation assessment
Advanced Cardiovascular Health - Advanced If you have multiple risks or borderline results Apolipoprotein B (ApoB) and Lp(a) for particle/inherited risk, insulin resistance Adds advanced lipoprotein risk and metabolic markers (e.g., A1c, glucose/insulin signals)
Advanced Cardiovascular Health - Comprehensive Highest-detail view for significant risk or active management Broad cardiovascular, metabolic, and inflammatory profile Adds the fullest panel of advanced markers to inform prevention and treatment discussions

Take the Next Step

Check your CAD risk today. Choose the panel that matches your situation and get fast, secure results you can act on—order from Ulta Lab Tests now

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The Creatine Kinase (CK) Total Test measures CK enzyme levels in blood to detect muscle injury, inflammation, or stress. Elevated CK may indicate muscle disorders, heart attack, strenuous exercise, or conditions such as rhabdomyolysis, while low levels are less common. Doctors use this test to evaluate unexplained muscle pain, weakness, or chest pain and to monitor recovery. It provides insight into muscle, cardiac, and overall metabolic health.

Blood
Blood Draw
Also Known As: CK Total Test, Creatine Phosphokinase, CPK Test
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The Creatine Kinase (CK) Isoenzymes with Total CK Panel measures overall CK levels and breaks them into isoenzymes (CK-MM, CK-MB, CK-BB) to identify muscle, heart, or brain injury. Elevated CK-MB may suggest a heart attack, while CK-MM points to skeletal muscle damage, and CK-BB indicates brain injury. Doctors order this test for chest pain, muscle weakness, or trauma. Results provide critical insight for diagnosing and monitoring tissue damage.

Also Known As: CPK Isoenzymes Test
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The Creatinine Test measures creatinine levels in blood to evaluate kidney function and filtration efficiency. Elevated levels may indicate kidney disease, dehydration, or muscle disorders, while low levels may reflect reduced muscle mass. Doctors use this test to monitor chronic kidney disease (CKD), assess treatment response, and detect early signs of renal impairment. It provides key insight into kidney health, metabolic balance, and overall renal function.

Blood
Blood Draw
Also Known As: Blood Creatinine Test, Serum Creatinine Test
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The Direct LDL Test measures low-density lipoprotein (LDL) cholesterol directly, without requiring fasting or calculation from triglycerides. LDL is known as “bad cholesterol” because high levels contribute to plaque buildup, heart disease, and stroke risk. Doctors order this test for patients with diabetes, high triglycerides, or cardiovascular risk. Results provide accurate insight into lipid health, helping guide treatment, prevention, and heart disease management.

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Blood Draw
Also Known As: Direct LDL Cholesterol Test
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The Ferritin Test measures ferritin, a protein that stores iron in the body, to evaluate iron levels and detect deficiency or overload. It helps diagnose anemia, iron deficiency, hemochromatosis, and chronic disease-related inflammation. Doctors often order the ferritin test to investigate fatigue, weakness, or unexplained symptoms. It is also used to monitor iron supplementation, treatment effectiveness, and overall iron metabolism health.

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Blood Draw
Also Known As: Iron Storage Test
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The Fibrinogen Activity Test measures how well fibrinogen, a key clotting protein, helps blood form clots. Low fibrinogen may indicate excessive bleeding, liver disease, or disseminated intravascular coagulation (DIC), while high levels may signal inflammation or increased clotting risk. Doctors use this test to evaluate unexplained bleeding, monitor clotting disorders, or assess liver function. Results provide vital insight into coagulation health and treatment management.

Varied
Phlebotomist
Also Known As: Factor 1 Assay Test, Cardiac Fibrinogen Test, Clotting Factors Test
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The Galectin-3 Test measures levels of galectin-3, a biomarker linked to heart failure, cardiac fibrosis, and inflammation. Elevated results may indicate worsening heart disease, increased risk of hospitalization, or progression of chronic conditions. Doctors use this blood test to assess heart health, guide treatment decisions, and monitor patients with heart failure, offering valuable insight into long-term cardiovascular risk and management.

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The GGT Test measures gamma-glutamyl transferase, an enzyme found in the liver and bile ducts, to evaluate liver health. Elevated GGT may indicate liver disease, bile duct obstruction, alcohol use, or medication side effects. Doctors order this test to investigate symptoms like fatigue, jaundice, dark urine, or abdominal pain and to monitor liver damage. It is often performed with other liver tests to provide a complete picture of liver and bile duct function.

Blood
Blood Draw
Also Known As: Gamma Glutamyl Transferase Test, Gamma Glutamyl TransPeptidase Test, GGTP Test, GTP Test
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The Glucose Test measures blood sugar levels to evaluate energy metabolism and screen for diabetes or prediabetes. Abnormal glucose may indicate hyperglycemia, hypoglycemia, or metabolic disorders. Doctors use this test during routine exams, to investigate symptoms like fatigue, excessive thirst, or frequent urination, and to monitor treatment for diabetes. It provides essential insight into how the body regulates blood sugar and overall metabolic health.

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Blood Draw
Also Known As: Fasting Glucose Test, Fasting Blood Sugar Test
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The Hemoglobin A1c (HbA1c) Test measures average blood glucose over 2–3 months by detecting sugar attached to hemoglobin in red blood cells. It is used to diagnose diabetes, identify prediabetes, and monitor long-term blood sugar control. Doctors rely on the HbA1c test to evaluate treatment effectiveness, guide adjustments, and assess risk for complications, making it essential for diabetes care and metabolic health screening.

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Blood Draw
Also Known As: A1c Test, HbA1c Test, Glycated Hemoglobin Test
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The Homocysteine Test measures homocysteine levels in blood to assess risk for heart disease, stroke, and vascular problems. Elevated homocysteine may result from vitamin B6, B12, or folate deficiency and is linked to blood clots, cognitive decline, and osteoporosis. Doctors use this test to evaluate cardiovascular risk, monitor nutritional deficiencies, and guide treatment for metabolic or genetic conditions affecting homocysteine metabolism.

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Blood Draw
Also Known As: Homocysteine Cardiac Risk Test
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The Insulin Test measures insulin levels in blood to assess how the body regulates glucose and metabolism. It helps diagnose insulin resistance, hypoglycemia, type 2 diabetes, and metabolic syndrome. Doctors also use it to evaluate pancreatic function and monitor treatment effectiveness. Frequently ordered with glucose testing, the insulin test provides critical insight into endocrine health, blood sugar control, and risk for diabetes-related complications.

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Blood Draw
Also Known As: Fasting Insulin Blood Test
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The Lipid Panel with Ratios Test measures seven key markers: total cholesterol, HDL, LDL, non-HDL cholesterol, triglycerides, Chol/HDL ratio, and LDL/HDL ratio. This advanced panel evaluates cardiovascular risk by assessing cholesterol balance and fat metabolism. Doctors use it to detect high cholesterol, atherosclerosis risk, and heart disease, and to monitor treatment. Often part of routine exams, it provides insight into long-term heart and metabolic health.

Also Known As: Lipid Profile Test, Cholesterol Panel Test, Lipid Blood Test
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The Lipid Panel Test with Reflex to Direct LDL measures total cholesterol, HDL, LDL, triglycerides, and cholesterol ratios to assess heart and vascular health. If triglycerides are very high, it automatically reflexes to direct LDL measurement for greater accuracy. Doctors use this test to evaluate cardiovascular risk, guide cholesterol management, and monitor therapy. Results provide key insight into lipid balance, heart disease prevention, and metabolic health.

Also Known As: Lipid Profile with Reflex Test, Lipids with Reflex Test, Cholesterol Profile with Reflex Test
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The Lipoprotein (a) Test measures Lp(a), a genetic form of LDL cholesterol linked to higher risk of heart disease, stroke, and atherosclerosis. Unlike standard cholesterol tests, Lp(a) levels are inherited and not easily lowered by lifestyle changes. Doctors order this test for patients with a family history of early cardiovascular disease or high cholesterol. Results help identify hidden risk, guide prevention strategies, and support heart and vascular health management.

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Blood Draw
Also Known As: Lipoprotein A Test, Lpa Test, Lp(a) Test
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The Lp-PLA2 Activity Test measures lipoprotein-associated phospholipase A2 enzyme activity, a marker of vascular inflammation linked to atherosclerosis and cardiovascular disease. Elevated levels may increase risk for heart attack and stroke. Doctors order this test for patients with high cholesterol, metabolic syndrome, or other risk factors. Results provide valuable insight into arterial health, helping guide prevention, treatment, and heart disease management.

Blood
Blood Draw
Also Known As: LpPLA2 Test, Ps-PLA2 Activity Test, Platelet-activating Factor Acetylhydrolase Test, PAF-AH Test, PLAC Test, Lipoprotein-Associated Phospholipase A2 Test
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The Metabolic Syndrome & Glucose Control Panel evaluates key biomarkers—fasting glucose, insulin, lipids, and related metrics—to assess insulin resistance, glucose dysregulation, and cardiometabolic risk. This integrated panel helps clinicians identify metabolic syndrome early, monitor glycemic control, and guide interventions to reduce progression to type 2 diabetes and cardiovascular disease.

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The Methylenetetrahydrofolate Reductase (MTHFR) DNA Mutation Analysis detects genetic variants in the MTHFR gene that affect folate metabolism and homocysteine regulation. Mutations may increase risk for blood clots, cardiovascular disease, pregnancy complications, or certain neurological conditions. Doctors use this test to evaluate unexplained blood clotting, high homocysteine levels, or family history of related disorders.

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Blood Draw
Also Known As: MTHFR Factor Test, MTHFR Mutation Test, MTHFR Gene Mutation Test, Methylenetetrahydrofolate Reductase Gene Test, MTHFR Disease Test
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The Albumin 24 Hour Urine with Creatinine Test measures albumin and creatinine excretion over 24 hours to evaluate kidney function. Elevated albumin (albuminuria) may signal early kidney disease, diabetes-related damage, or hypertension. By comparing albumin to creatinine, this test accounts for urine concentration and improves accuracy. Doctors use it to detect kidney injury, monitor chronic disease, and guide treatment or prevention strategies.

Urine
Urine Collection
Also Known As: Urine Albumin Test, 24 Hour Microalbumin Test
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The Albumin 24 Hour Urine Test evaluates the amount of albumin released in urine during a full day, serving as an indicator of kidney health. High albumin levels can signal early kidney damage from diabetes, hypertension, or chronic kidney disease. Collecting urine over 24 hours improves accuracy by reflecting daily fluctuations, offering important insight for detecting renal impairment, monitoring progression, and supporting long-term care.

Urine
Urine Collection
Also Known As: Urine Albumin Test, 24 Hour Microalbumin Test
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The Albumin Random Urine Test measures the amount of albumin, a protein that can leak into urine when the kidneys are damaged. Elevated levels may indicate early kidney disease, often linked to diabetes, hypertension, or other chronic conditions. Doctors use this test to detect albuminuria, monitor kidney function, and guide treatment strategies. A random urine sample makes it a convenient tool for screening and long-term kidney health assessment.

Urine
Urine Collection
Also Known As: Urine Albumin Test, Random Microalbumin Test
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The Albumin Random Urine Test with Creatinine measures albumin and creatinine levels in a urine sample to evaluate kidney health. Elevated albumin (microalbuminuria) may indicate early kidney disease, diabetes complications, or hypertension-related damage. Doctors use this test to detect kidney problems before symptoms appear, monitor chronic conditions, and guide treatment. It provides vital insight into renal function and long-term kidney disease management.

Urine
Urine Collection
Also Known As: Urine Albumin Test, Random Microalbumin Test, uACR Test
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The Albumin Timed Urine Test measures albumin levels excreted during a set time period to evaluate kidney function and detect early protein loss. Elevated results may indicate diabetic nephropathy, hypertension-related damage, or glomerular disease. This test supports monitoring of renal health, guiding detection of microalbuminuria and helping assess risks of chronic kidney disease or cardiovascular complications.

Urine
Urine Collection
Also Known As: Urine Albumin Test, Timed Microalbumin Test
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The Myeloperoxidase (MPO) Antibody Test detects autoantibodies against MPO, often associated with ANCA-associated vasculitis, including microscopic polyangiitis and granulomatosis with polyangiitis. Elevated MPO antibodies may indicate inflammation of blood vessels, kidneys, or lungs. Physicians order this blood test to support diagnosis, monitor disease activity, and guide treatment decisions for autoimmune and systemic vasculitis disorders.

Blood
Blood Draw
Also Known As: Myeloperoxidase Antibody Test
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All About Coronary Artery Disease (CAD)

Through the years, we've all heard about the dangers of heart disease. The most common form is coronary artery disease, and it affects about 18.2 million adult Americans. 

We all want to avoid this threat. If we suspect that we're at risk, early diagnosis can lead to effective management of the disease. That's where lab tests for coronary artery disease come in.

Let's take a deeper look at this cardiovascular disease and how to combat it. 

What Is Coronary Artery Disease (CAD)?

The coronary arteries are major blood vessels that supply the heart. Coronary artery disease occurs when these blood vessels become diseased. The disease is usually a combination of plaque in the arteries and inflammation.

Coronary artery disease doesn't happen overnight, and you may not experience any symptoms for years. But if left untreated, narrowing and blockages will develop, which greatly increases your risk of a heart attack and stroke.

Risk factors for Coronary Artery Disease (CAD)

Maintaining a healthy lifestyle is key to slowing the progression of coronary artery disease. There are several risk factors for coronary artery disease, including the following: 

  • high LDL cholesterol 
  • low HDL cholesterol 
  • high blood pressure
  • diabetes
  • smoking
  • age - postmenopausal and men over 45

The American Heart Association also highlights obesity as a risk factor for developing CAD. While everyone is at risk of developing heart problems, African Americans are at higher risk of developing heart disease.

Elevated blood sugar also increases the risk of CAD. There is a risk that coronary artery disease can develop into coronary heart disease. The earlier a person starts to take preventative measures, the better the chances of it regressing.

Causes of Coronary Artery Disease (CAD)

CAD is caused by damage or injury to the inner part of the coronary arteries. This can start in childhood. Causes include the following:

  • high blood pressure
  • insulin resistance or diabetes
  • sedentary lifestyle
  • high cholesterol
  • smoking

The injury or damage site provides a place for plaque to develop. Plaque occurs when cholesterol, white blood cells, and other substances build up in the walls of the arteries. They become narrow and hard over time, restricting the blood flow to the heart muscle. 

What Are the Signs and Symptoms of Coronary Artery Disease (CAD)?

At first, the narrowing of the arteries may not cause any symptoms. Over time, as the blood vessels continue to narrow, it becomes harder for the oxygen-rich blood to reach the heart muscle.

Symptoms may include the following:

  • Shortness of breath
  • Angina (chest pain)
  • Heart attack

Shortness of breath occurs when your heart is struggling to pump enough blood to keep up with your body's needs. Doing normal activities may begin to cause shortness of breath and fatigue.

Chest pain or angina occurs when you are stressed or have exerted yourself. You feel the pain in the middle or left side of your chest. It can be a tightness or crushing pain.

When the artery becomes completely blocked, a heart attack will happen. The usual symptoms are crushing pressure in the chest, and pain in your shoulder or arm. Other symptoms can occur, and at times there are no symptoms.

How Is Coronary Artery Disease (CAD) Diagnosed?

The first step is to have a discussion and physical exam with your doctor. They will discuss your symptoms, family history, medical history, and other risk factors. 

The next step is to have diagnostic tests and lab tests for coronary artery disease.

Diagnostic tests include the following:

  • Electrocardiogram
  • Echocardiogram
  • Angiogram
  • Exercise stress tests

They will look at your heart rate, rhythm, and electrical impulses. Blood tests also provide a clearer picture of what is happening in your heart.

The Lab Tests to Screen, Diagnose, and Monitor Coronary Artery Disease (CAD)

There is more than one lab test for coronary artery disease. All of these together give a complete picture of the various factors impacting your risk of heart disease. 

  • Advanced Cardiovascular Health - Basic - This panel of tests focuses on assessing the levels of cholesterol in the body. This will help your doctor to see whether LDL and HDL cholesterol are at healthy levels in the body.
  • Advanced Cardiovascular Health - Basic Plus - Along with the basic tests, this panel takes a deeper look at metabolic and endocrine health. Issues with insulin impacting cardiovascular health are examined.
  • Advanced Cardiovascular Health - Advanced - This panel takes a deeper look at metabolic health. The Hemoglobin A1c reveals the body's insulin levels over the last few months. Additionally, the C reactive protein assessment shows the levels of inflammation in the body.
  • Advanced Cardiovascular Health - Comprehensive - This panel additionally investigates thyroid health. Hypothyroidism is associated with atherosclerosis and coronary artery disease.

Once you have completed these lab tests for coronary artery disease, it's important to review them with your doctor. They will be able to advise the best course of treatment or provide lifestyle advice to get your numbers moving in the right direction. These tests can also be used to monitor the disease after diagnosis.

What lab test can help to diagnose CAD? High-sensitivity CRP (hs-CRP) test is crucial. This can help you to identify the risk of coronary artery disease even before you develop any symptoms. The higher your levels, the greater the risk of cardiovascular disease

Frequently Asked Questions about Coronary Artery Disease (CAD) and Lab Testing for Coronary Artery Disease

Coronary artery disease is common. Many people have questions about how to prevent or live with this disease. Some of the most common questions asked are:

  • Can you live a full life with CAD?

The answer is yes. It is not curable but can be treated. The key is to reduce your risk factors.

  • How does CAD impact daily life?

You can develop chest pain when doing daily activities, especially exercising. You may feel more tired, as it's more difficult for the body to supply the cells with oxygen.

Book Your Lab Tests for Coronary Artery Disease!

Lab tests for coronary artery disease can give your doctor a clearer picture of the state of your cardiovascular health. Don't delay, as early testing can lead to better treatment. The earlier you make lifestyle adjustments, the better the long-term outcomes.

Benefits of Coronary Artery Disease (CAD) Lab Testing With Ulta Lab Tests 

Ulta Lab Tests offers lab tests for coronary artery disease that are highly accurate and reliable so you can make informed decisions about your health. Here are a few great things to love about Ulta Lab Tests:

  • You'll get secure and confidential results
  • You don't need health insurance
  • You don't need a physician's referral
  • You'll get affordable pricing
  • We offer a 100% satisfaction guarantee

Order your coronary artery disease lab tests today and your results will be provided to you securely and confidentially online in 24 to 48 hours for most tests.

Take control with Ulta Lab Tests today!

Types of Angina - Learn About the Symptoms and Laboratory Tests

 Angina is the term used for a type of chest pain, which is mainly caused by a lack of supply of oxygen and blood flow to the individual’s heart. Over 7 million residents in the U.S. are believed to have this condition. It is typically linked with arteries that have started to narrow, which is typical in coronary artery diseases. The narrowing occurs when plaques begin to accumulate (thickening of the linings) inside the arteries, which is caused by the process known as atherosclerosis. When a person has angina, their heart might be getting an adequate supply of blood to accommodate daily activities, but these arteries are usually unable to deliver enough oxygen and blood during the stages of increasing demands, such as physical or emotional stress, exercise, and temperature extremes.  

Angina comes in 3 main types: 

1. Stable Angina 

This condition is typically characterized by patterns of common symptoms and stages of discomfort or pain that usually happen during exercise or when the affected person is stressed. This type of discomfort typically subsides with rest or/and treatment using nitroglycerin of other appropriate medications. Most people that suffer from this angina type can generally live a normal life over several years, yet others will progress gradually or rapidly onto unstable angina. Stable angina is the type that is linked to the gradual accumulation of plaque, which is mainly made up of fibrosis (scar tissue).  

2. Unstable Angina 

With this condition, an acute coronary syndrome that goes along with it can include a heart attack. This type is characterized by pattern changes in the angina episodes. This typically means that the episodes occur more frequently even at rest, or/and are no longer responding to medications or treatments. This is typically the sign that the individual’s condition has gotten worse. The pain and discomfort that the person experiences with this type of angina are often more prolonged and severe when compared to stable angina. The individuals that have unstable angina are also at an increased risk when it comes to cardiac arrest, critical cardiac arrhythmia, and heart attacks. This condition is classified as one of the acute emergencies that should always be treated and evaluated as soon as possible. Unstable angina is also characterized by plaques that contain higher amounts of debris and lipids when compared to the plaque found in the people diagnosed with stable angina. If these materials start leaking into the surrounding vessels, clots will form. 

3. Prinzmetal’s Angina (Variant Angina) 

This condition typically occurs at night, almost always during rest periods. The main cause is linked to when the coronary artery spasms. Most people that have variant angina will also have critical atherosclerosis in one or more of the main blood vessels on their hearts. It also occurs but a lot less frequently in individuals with hypertension (uncontrolled high blood pressure) or heart valve disease. It may also be seen in people that abuse methamphetamines and cocaine. This angina type occurs when the arteries spasm, which briefly narrows them without causing any permanent damages.  

Symptoms and Signs 

The symptoms associated with angina often appear, followed by either disappearing or not disappearing when at rest. The person might experience chest pain, pressure, and/or discomfort, or experience what is known as referred pain. This type of pain is usually felt in areas such as the jaw, back, arm, or left shoulder.  

Angina can be more complicated to identify in older people when they are suffering from a symptom like abdominal pain directly after eating (caused by an increase in blood demand to accommodate digestion) or when they have shoulder or back pain (that might be caused by arthritis).  

The level of activities that are needed to trigger angina episodes and the symptoms that are involved vary from one person to the next and can also vary over time and between each episode. Coronary artery disease is usually progressive, which means that angina can worsen overtime when it comes to symptoms that are more severe, episodes that become more frequent, or/and less responsive when it comes to treatment and rest.  

Tests for Angina 

The main aim when it comes to testing for this condition is to differentiate between: 

  • Chest pains that are not related to the heart, like the type that is caused by skeletal muscle injuries.  
  • Chest pain that is caused by angina that is treatable and not by heart damage. 
  • When a person lands up in an ER (emergency room) with a coronary syndrome that is acute, which is a symptom group that suggests that the heart is injured.  
  • Chest pain caused by a heart attack. 

All the above symptoms result in evaluating the person with different types of non-laboratory and laboratory tests. These are typically used to establish what is causing the pain, along with how severe the condition is. Since certain treatments for heart attacks must be administered very quickly to lower damage to the heart, a precise diagnose must be confirmed as fast as possible.  

Laboratory Tests for Angina 

Cardiac biomarkers are the proteins that release when the muscle cells become damaged are usually ordered in order to help distinguish heart attacks from angina. These will include: 

This is the most common cardiac-specific ordered marker. The levels of troponin in the blood will remain elevated after the first few hours of damage to the heart and stay raised for as long as two weeks. Troponin tests are typically ordered in the ER when the person is presenting with symptoms linked to unstable angina, followed by more tests over the following hours to detect concentration changes. If the levels remain normal, then the chest pain and symptoms are less likely from damaged heart muscles and more from pain caused by stable angina. An elevation or/and fall in troponin level results is usually an indication of a heart attack.  

The test known as high-sensitivity troponin is used to detect the same proteins that standard tests do but at far lower levels. This test is much more sensitive, which means it shows a positive result much sooner and can help to establish acute coronary syndrome and heart injury a lot earlier than the standard tests. The hs-troponin test can also show positive results in individuals that have stable angina as well as in individuals that are showing no symptoms.  

When the levels are raised in these people, it is an indication of increased risks for a future heart event, such as a heart attack. This test is not approved currently in the United States, yet research continues, which means it might soon become available. This test is routinely used in Canada, Europe, along with other countries as the cardiac biomarker across many clinical practices.  

A specific type of enzyme, creatine kinase, which is mainly found in the heart muscle, will rise when damages have occurred to the cells in the heart muscle. This is a test that is now used a lot less frequently.  

Other tests that are commonly performed include: 

  • Myoglobin This is a protein that releases into the bloodstream when the skeletal muscle or the heart is injured. This is also a test that is not used as often anymore.  
  • Nt-proBNP or BNP The body releases BNP in response to a condition such as heart failure. When BNP levels increase, while it is not diagnostic for heart attacks, it does indicate increased risks of cardiac issues in people that have acute coronary syndrome.  

Other screening tests that are more general are also commonly ordered to assist with evaluating the main organs in the person’s body, blood glucose, electrolyte balance, white and red blood cells to establish if there is any deficiencies, excesses, or dysfunction that could be contributing to making the individual’s symptoms worse.

These can include: 

This typically includes a group of 14 tests used as a type screening tool to establish the current state of the person’s electrolyte and base/acid balance, blood proteins, liver, kidneys, and blood glucose.  

This test is typically used for screening for several disorders that may affect the blood cells, like an infection or anemia.