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Key Benefits
- Spot early artery-narrowing risk to prevent Peripheral Artery Disease and its complications.
- Quantify LDL and ApoB burden to guide cholesterol-lowering intensity and treatment targets.
- Flag inherited Lp(a) risk to prompt earlier action and family member screening.
- Reveal arterial inflammation with hs-CRP to refine overall cardiovascular and limb risk.
- Highlight AIP patterns that signal insulin resistance and unhealthy triglyceride-HDL balance.
- Guide treatment choices, including statins and add-ons, to lower cardiovascular and limb events.
- Track progress over time to ensure targets are met and residual risk declines.
- Best interpreted with an Ankle-Brachial Index and your symptoms for diagnosis.
What are Peripheral Artery Disease biomarkers?
Peripheral artery disease biomarkers are blood signals that mirror the biology unfolding inside your leg and body arteries. They spotlight the processes that narrow and stiffen vessels (atherosclerosis) and the risks that travel with them. Broadly, they reflect three themes: irritation and injury of the artery lining (vascular inflammation; examples: high-sensitivity C‑reactive protein, interleukin‑6), burden of artery-clogging particles and metabolic strain (atherogenic lipoproteins; examples: LDL cholesterol, apolipoprotein B, lipoprotein(a), plus glucose control markers such as HbA1c), and a tendency to form clots and lose vessel flexibility (thromboinflammation and endothelial dysfunction; examples: fibrinogen, D‑dimer, von Willebrand factor). Together, these markers help uncover silent artery damage, estimate risk for heart, brain, and limb events, and show whether treatment is calming the disease biology. Kidney stress can add context because it accelerates arterial injury (reduced glomerular filtration). In short, PAD biomarkers translate a complex condition into actionable biology—revealing whether the dominant driver is inflamed plaque, excess atherogenic particles, or a pro‑thrombotic state—and guiding targeted prevention and therapy.
Why is blood testing for Peripheral Artery Disease important?
Peripheral artery disease (PAD) is the downstream result of plaque and inflammation in the arteries that feed the legs—and the same biology affects the heart and brain. Blood tests uncover the drivers of that process: LDL cholesterol (the cholesterol cargo), ApoB (the number of atherogenic particles), Lp(a) (a genetic, pro-plaque, pro-clot lipoprotein), hs-CRP (vascular inflammation), and AIP, the atherogenic index of plasma (a balance of triglycerides to HDL that tracks small, dense LDL).For PAD risk, optimal values cluster toward the low end. LDL is generally “better lower,” often below 100 and, in established atherosclerosis like PAD, typically nearer 70. ApoB is best lower as well, commonly below about 80 and even lower in very high risk. Lp(a) is most protective when low, often under about 30, and risk rises around 50 and above. hs-CRP is lowest-risk under about 1, average 1–3, and high above 3. AIP is desirable below roughly 0.11, intermediate 0.11–0.21, and elevated above 0.21.When these markers are low, the artery wall sees fewer particle entries, less oxidized lipid, and quieter inflammation. That translates to slower plaque growth and fewer limb symptoms like exertional calf tightness. Very low LDL or ApoB can reflect conditions such as hyperthyroidism, malabsorption, or advanced liver disease; symptoms then come from the underlying disorder, not the low number itself. Lp(a) tends to rise in pregnancy and after menopause; having a low Lp(a) at any age is protective.Big picture: these biomarkers integrate lipid transport, coagulation tendency, and immune tone. They interact with glucose control, kidney function, and blood pressure to shape long-term outcomes—claudication, ulcers, heart attack, stroke, and limb loss. Measuring them turns PAD from a leg problem into a whole-system story you can track over time.
What insights will I get?
Peripheral Artery Disease (PAD) blood testing provides a window into the health of your blood vessels and the systems they support, including your heart, brain, muscles, and immune function. PAD occurs when arteries outside the heart and brain—often those supplying the legs—become narrowed by atherosclerosis, reducing blood flow and oxygen delivery. At Superpower, we test LDL cholesterol, ApoB, Lp(a), high-sensitivity C-reactive protein (hs-CRP), and the Atherogenic Index of Plasma (AIP) to assess your risk and vascular health.LDL cholesterol is often called “bad cholesterol” because high levels can contribute to plaque buildup in arteries. ApoB is a protein found on all atherogenic lipoproteins, including LDL, and gives a more precise count of particles that can enter artery walls. Lp(a) is a genetic variant of LDL that is particularly atherogenic and can accelerate plaque formation. hs-CRP is a marker of inflammation, signaling immune system activity that can destabilize plaques. AIP, calculated from triglycerides and HDL cholesterol, reflects the balance between harmful and protective lipids.Healthy levels of these biomarkers suggest stable artery walls and efficient blood flow, supporting energy delivery, muscle function, and cognitive health. Elevated LDL, ApoB, or Lp(a) indicate increased risk for plaque buildup and artery narrowing, while high hs-CRP points to active inflammation that can make plaques more likely to rupture. A high AIP signals an unfavorable lipid balance, further increasing risk.Interpretation of these biomarkers can be influenced by age, acute illness, pregnancy, certain medications, and laboratory methods. These factors may temporarily alter results, so context is important for accurate assessment.
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