Key Benefits

• See how weight affects blood sugar, insulin, cholesterol, and inflammation.
• Spot early insulin resistance; fasting insulin with glucose reveals impaired metabolic control.
• Flag prediabetes or diabetes to guide timely treatment and lifestyle changes.
• Gauge heart risk by assessing LDL, HDL, and triglycerides for dyslipidemia.
• Measure inflammation with hs-CRP to estimate obesity-related cardiovascular risk.
• Protect fertility and pregnancy by detecting insulin resistance and metabolic syndrome features.
• Track progress and personalize therapy using trend changes across all four markers.
• Best interpreted with A1c, waist circumference, blood pressure, and your symptoms.

What are Obesity biomarkers?

Obesity biomarkers are measurable signals in blood that reveal how excess body fat is influencing core physiology. They come from fat tissue, the pancreas, liver, gut, and immune system, and together they map the pressures of energy overload. Fat cells act like an endocrine organ, releasing hormones that shape appetite and metabolism—leptin (satiety hormone from adipose tissue) and adiponectin (insulin-sensitizing adipokine). The pancreas responds to rising fuel demands—insulin and C‑peptide (markers of insulin secretion). The bloodstream shows fuel traffic—triglycerides and free fatty acids (lipid flux), and particle carriers like apolipoprotein B (atherogenic lipoproteins). The liver signals stress from fat buildup—ALT and GGT (hepatocellular and biliary enzymes linked to fatty liver). The immune system registers low‑grade inflammation—CRP and IL‑6 (inflammatory cytokines). The gut and brain axis modulates hunger—ghrelin (hunger hormone). Testing these biomarkers helps identify the dominant biological drivers of obesity—insulin resistance, inflammation, dyslipidemia, and fatty liver—so risks can be recognized early and strategies targeted to the person’s physiology rather than weight alone.

Why is blood testing for Obesity important?

Obesity blood biomarkers show how the body is handling fuel, storing fat, and responding to inflammation. Insulin and glucose reflect insulin sensitivity and pancreatic output; the lipid panel shows how fat moves between liver, blood, and adipose tissue; high‑sensitivity CRP signals immune activity that accelerates metabolic disease.Typical fasting glucose sits near 70–99, with better outcomes near the low‑normal range. Fasting insulin is often roughly 2–10, and lower‑normal usually indicates better sensitivity. For lipids, lower LDL and triglycerides and higher HDL are favorable; non‑HDL is best toward the lower end. hs‑CRP is ideally under about 1, with risk climbing above 3.When values run low, low‑normal insulin and glucose generally reflect efficient insulin action and easier weight regulation. Very low glucose can cause shakiness, sweating, and confusion; if glucose is high while insulin is low, that suggests beta‑cell failure. Very low LDL/triglycerides are uncommon and may reflect malabsorption or hyperthyroidism; low HDL, despite being “low,” signals higher cardiometabolic risk. Very low hs‑CRP indicates minimal systemic inflammation.When values are high, elevated fasting insulin or glucose points to insulin resistance, fatty liver stress, and higher diabetes risk. Triglycerides and LDL rise as liver output increases and visceral fat “spills,” while HDL tends to drop. hs‑CRP amplifies this risk when elevated. Men and post‑menopausal women often show a more atherogenic lipid pattern; teens experience transient insulin resistance during puberty; pregnancy naturally raises insulin and triglycerides and slightly shifts glucose targets.Big picture: these labs map a single network linking pancreas, liver, fat, muscle, blood vessels, and immune signaling. Together they forecast risk for type 2 diabetes, cardiovascular disease, fatty liver, sleep apnea, and reproductive disorders, clarifying the metabolic roots and consequences of obesity.

What insights will I get?

Obesity blood testing provides a window into how your body manages energy, stores fat, and responds to inflammation—key processes that affect nearly every system, from cardiovascular health and metabolism to cognition, reproduction, and immune function. At Superpower, we focus on four core biomarkers: Insulin, Glucose, Lipids, and high-sensitivity C-reactive protein (hs-CRP). Together, these markers help reveal how your body is handling the metabolic demands and risks associated with excess weight.Insulin is a hormone that regulates how your body uses and stores glucose, the main fuel for your cells. Glucose is the sugar circulating in your blood, providing immediate energy. Lipids, including cholesterol and triglycerides, reflect how fats are transported and stored, influencing heart and vessel health. hs-CRP is a sensitive marker of inflammation, which often rises with increased body fat and signals stress on the cardiovascular and immune systems.When these biomarkers are in healthy ranges, they indicate stable energy use, efficient fat storage, and low levels of inflammation—factors that support metabolic resilience and reduce the risk of complications linked to obesity. Imbalances, such as elevated insulin or glucose, abnormal lipid profiles, or high hs-CRP, suggest disruptions in these systems and may point to increased risk for conditions like diabetes, heart disease, or chronic inflammation.Interpretation of these results can be influenced by factors such as age, pregnancy, acute illness, certain medications, and laboratory methods. These variables can shift biomarker levels, so results are best understood in the context of your overall health and medical history.