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What the glycation gap measures, how HbA1c and average glucose are compared, and what a discordant result reveals about RBC lifespan and glycation rate.
Fructosamine measures 2–3 week average blood sugar; albumin levels affect interpretation and complement HbA1c for tracking recent glucose changes.
How HOMA-IR works, how to calculate it from fasting glucose and insulin results, and what different score ranges suggest about insulin sensitivity.
What the Cardio IQ Insulin Resistance score measures, how to read it, and which companion tests confirm the metabolic pattern.
Find out how HbA1c trends show metabolic balance and risk reduction.
A pragmatic composite for early metabolic risk detection.
What the natural log of fasting triglycerides and glucose reveals about insulin resistance and cardiometabolic risk.
What fasting insulin measures, how to read high and low results, and which markers reveal the full metabolic picture.
What estimated average glucose measures, how the ADAG formula converts HbA1c to mg/dL, and what your number reveals.
What fasting glucose measures, how to read normal vs. prediabetes values, and which markers reveal the full metabolic picture.
The TyG‑BMI is a calculated biomarker that combines two routine blood measures—triglycerides and glucose—with a measure of body size, BMI. Triglycerides are fat particles carried in the bloodstream, built from dietary fat and liver production (triglycerides). Glucose is the main sugar fuel released from digestion and the liver (glucose). Available at 2,000+ lab locations and at-home (select states). See FAQs below
Insulin blood testing measures the hormone insulin circulating in your bloodstream. Insulin is made by beta cells in the pancreas (pancreatic islet β‑cells). It is produced from a larger precursor (proinsulin) and released together with its companion fragment (C‑peptide). Available at 2,000+ lab locations and at-home (select states). See FAQs below
Hemoglobin A1c is hemoglobin with sugar attached. Inside red blood cells, glucose in the bloodstream slowly sticks to hemoglobin A, forming a stable sugar–hemoglobin adduct (non-enzymatic glycation of the beta-chain N-terminal valine, yielding a ketoamine called HbA1c). This happens continuously and irreversibly for as long as the red cell circulates. Available at 2,000+ lab locations and at-home (select states). See FAQs below
Blood glucose testing measures the amount of glucose—the simple sugar circulating in your bloodstream. Glucose originates from digestion of dietary carbohydrates in the small intestine and from the liver, which releases stored glucose (glycogenolysis) and creates new glucose from non‑carbohydrate sources (gluconeogenesis). Available at 2,000+ lab locations and at-home (select states). See FAQs below
Fructosamine is the collective signal of sugars attached to blood proteins. In the bloodstream, glucose binds spontaneously to free amino groups on circulating proteins—mostly albumin—through nonenzymatic glycation (Maillard reaction), forming stable ketoamine adducts (fructosamines). A fructosamine blood test quantifies these glycated serum proteins, so the biomarker originates from the everyday interaction between glucose and the body’s protein pool in serum. Available at 2,000+ lab locations and at-home (select states). See FAQs below
Estimated glucose / HbA1c ratio (Glycation gap) blood testing compares your hemoglobin A1c with an independent estimate of your average blood glucose. Hemoglobin A1c (HbA1c) forms when glucose nonenzymatically attaches to hemoglobin inside red blood cells (erythrocytes) over their lifespan. Available at 2,000+ lab locations and at-home (select states). See FAQs below
Estimated average glucose is a calculation that translates your long-term blood sugar pattern into a single everyday number. It is derived from hemoglobin A1c, the fraction of hemoglobin in red blood cells that becomes coated with sugar. Glucose circulating in your blood drifts into red blood cells and sticks to hemoglobin over time (non-enzymatic glycation). Available at 2,000+ lab locations and at-home (select states). See FAQs below
Cardio IQ Insulin Resistance blood testing is a cardiometabolic panel that estimates how resistant your body is to insulin (insulin resistance). It measures insulin produced by pancreatic beta cells alongside select metabolic signals released into the bloodstream by the liver, fat tissue, and circulating lipoproteins, then brings them together into a coherent picture of insulin action. Available at 2,000+ lab locations and at-home (select states). See FAQs below
The Triglyceride–Glucose index (TyG index) is a calculated number derived from two routine fasting blood measurements: triglycerides and glucose. Triglycerides are the body’s transport form of fat, carried in the bloodstream within lipoprotein particles (mainly VLDL from the liver). Glucose is the primary circulating sugar used by cells for energy. Available at 2,000+ lab locations and at-home (select states). See FAQs below
Early blood testing detects prediabetes before complications, signaling insulin resistance and cardiometabolic risk. Superpower offers in-clinic and at-home testing for glucose (fasting plasma glucose) and HbA1c (glycated hemoglobin). Home sample collection is currently available in selected states. (See FAQs below for more info).
Obesity affects metabolism, inflammation, and cardiovascular risk. Blood testing clarifies these pathways. At Superpower, we test insulin, glucose, lipids, and hs‑CRP to map metabolic and inflammatory status. Superpower offers in‑clinic and at‑home testing; home kits are currently available in selected states. (See FAQs below for more info).
Blood testing for metabolic syndrome reveals how your body manages fats and sugar—lipid transport and insulin signaling. At Superpower, we measure triglycerides, HDL, glucose, and insulin. We offer in-clinic and at-home testing; home collection is currently available in selected states. (See FAQs below for more info).
Blood testing clarifies how your body manages fuel, revealing early insulin resistance (IR). At Superpower, we measure insulin, glucose, and the TyG index to assess IR. We offer in-clinic and at-home testing; home collection is currently available in selected states. (See FAQs below for more info).
Rapid blood testing confirms or rules out diabetic ketoacidosis by assessing metabolic status and electrolyte balance. At Superpower, we measure glucose, CO₂ (bicarbonate), sodium (Na), and potassium (K). We offer in-clinic and at-home testing; home DKA testing is currently available in selected states. (See FAQs below for more info).
Blood testing clarifies how your body manages sugar and insulin—core to preventing complications of diabetes mellitus type 2. Superpower measures glucose, HbA1c, estimated average glucose (eAG), and the triglyceride-glucose (TyG) index for metabolic risk profiling. We offer in-clinic and at-home testing; home collection is available in selected states. (See FAQs below for more info).
This single blood draw reveals 14 crucial markers that paint a comprehensive picture of your metabolic health, kidney function, and electrolyte balance.
Your blood glucose level reveals how well your body manages sugar, but "normal" ranges tell only part of the story.
Your blood glucose test reveals how well your body manages sugar, but the numbers tell a more complex story than you might expect.
Your A1C reveals blood sugar patterns invisible to daily glucose checks.
Your insulin test reveals how well your body manages blood sugar, but the numbers tell a more complex story than most people realize.
Your basic metabolic panel chart reveals eight key numbers that tell the story of your kidneys, electrolytes, and blood sugar working together.
Your A1C test reveals a three-month window into your blood sugar control, offering insights that daily glucose readings simply can't match.
