Insulin Unit Converter

Based on human insulin MW 5808 Da · WHO standard: 1 µIU/mL = 6.945 pmol/L

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Conversion factors: 1 µIU/mL = 6.945 pmol/L · 1 ng/mL = 17,210 pmol/L · 1 ng/dL = 172.1 pmol/L · 1 ng/L = pg/mL = 17.21 pmol/L

Use the converter below to instantly convert insulin units between µIU/mL (mIU/L), pmol/L, nmol/L, ng/mL, ng/dL, ng/L, and pg/mL. No sign-up. No ads. Just type and convert.

You just got your lab results back. There’s a number on the page. And next to it — some weird unit you’ve never seen before. pmol/L? µIU/mL? mIU/L? What does any of this even mean?

You’re not alone. This confuses doctors, researchers, and patients all the time. Seriously. There’s even a published paper in a peer-reviewed medical journal with the word “confusion” basically in the title.

So let’s fix that. Use the calculator above to convert any insulin unit in seconds — and keep reading if you want to actually understand what you’re looking at.

Why Are There So Many Different Insulin Units?

Great question. And kind of an annoying answer.

Labs in the United States typically report insulin in µIU/mL (micro international units per milliliter). Labs in the UK, Australia, Europe, and most countries using SI (Système International) units report in pmol/L (picomoles per litre). Some older or specialty labs use ng/mL or ng/dL.

They’re all measuring the same hormone. Just in different languages, basically.

This becomes a real problem when you’re comparing your results to a research study, calculating your HOMA-IR score, or following up with a doctor in a different country. The numbers look wildly different but they mean the same thing.

For example: a perfectly normal fasting insulin of 10 µIU/mL is the same as 60 pmol/L. But if you didn’t know that, you’d think those two results were completely unrelated.

The Units Explained Simply

µIU/mL (also written as uIU/mL, µU/mL, or mIU/L)

This is the most common unit used in the United States, Pakistan, India, and many other countries. IU stands for International Unit — a biological activity measurement, not a weight or mass. The “µ” means micro (one-millionth). The good news: µIU/mL and mIU/L are the exact same thing. Don’t let the different-looking symbols confuse you. If your report says any of these — µIU/mL, uIU/mL, µU/mL, mIU/L — they’re identical.

pmol/L (picomoles per litre)

This is the SI unit. Used heavily in the UK, Australia, Canada (sometimes), and in most scientific research. “pmol” means picomole — a mass-based measurement. This is more scientifically precise, which is why research papers tend to prefer it. A normal fasting insulin is roughly 18–173 pmol/L, depending on which reference range your lab uses.

ng/mL, ng/dL, ng/L, pg/mL

These nanogram and picogram units pop up mainly in research lab settings — especially when insulin is being measured using ELISA kits for studies. You won’t see these on a standard clinical lab report very often, but they come up regularly in academic papers and research protocols.

Insulin Unit Conversion Table (Quick Reference)

Prefer a table? Here are the most common conversions using the widely used 6.945 factor (more on that below):

µIU/mL (mIU/L)	pmol/L (÷ 6.945)	nmol/L	ng/mL (÷ 0.1721)
2	13.9	0.0139	0.0116
5	34.7	0.0347	0.0291
10	69.5	0.0695	0.0581
15	104.2	0.1042	0.0872
25	173.6	0.1736	0.1453
50	347.3	0.3473	0.2907
100	694.5	0.6945	0.5813

Use the calculator at the top of this page for any value not in this table.

The Conversion Factor Debate: 6.0 or 6.945?

Okay. This part gets a little nerdy. But it matters — so stick with me for a second.

If you search online for “how to convert µIU/mL to pmol/L,” you’ll find two different answers:

6.945 — widely used by online calculators, many labs, and some journals
6.00 — recommended by the American Diabetes Association and several peer-reviewed studies

A published paper in Journal of Diabetes Science and Technology (Knopp et al., 2018) actually called this out directly. They found that most online insulin converters were using the wrong factor — 6.945 instead of 6.00 — and that this leads to roughly a 15% underestimate of insulin concentrations.

The 6.945 factor was based on an older estimate of insulin’s molecular weight (5808 Da). The 6.00 factor comes from direct standardization against international reference preparations.

So which one should you use? For clinical interpretation of your own lab results — use whatever factor your lab used. For research purposes — the ADA and current literature favor 6.00. Our calculator uses 6.945 to match the majority of existing lab reports and be consistent with what most people see on their results, but we flag this so you know.

Important note: If you’re using pmol/L values for HOMA-IR calculations or comparing against a research study, check which conversion factor that study used. A 15% difference can shift your result meaningfully.

Normal Fasting Insulin Levels (Reference Ranges)

Normal ranges vary slightly between labs, but here are the widely accepted reference ranges:

Unit	Standard Lab Range	Optimal (functional medicine)
µIU/mL (mIU/L)	2.6 – 24.9	2 – 10
pmol/L (using 6.00)	16 – 149	12 – 60
pmol/L (using 6.945)	18 – 173	14 – 70
ng/mL	0.015 – 0.145	0.012 – 0.058

A result in the 2–10 µIU/mL range is considered metabolically healthy by most functional medicine practitioners. Being “within normal range” at 20 µIU/mL is technically fine — but many clinicians would flag that as a sign of early insulin resistance, especially if your fasting glucose is also creeping up.

What Is Insulin Resistance and Why Does Converting Units Matter?

Insulin resistance is when your cells stop responding properly to insulin. Your pancreas then pumps out more and more to compensate — so your insulin levels rise even while your blood sugar looks normal. That’s the sneaky part. Your glucose test looks fine. But your fasting insulin is elevated.

This is why converting units accurately matters beyond just being academically correct. If you’re tracking your metabolic health, comparing results year over year, or using your numbers to calculate HOMA-IR — you need your conversions to be right.

How to Calculate HOMA-IR (and Why Unit Choice Matters)

HOMA-IR (Homeostasis Model Assessment of Insulin Resistance) is a simple formula that estimates insulin resistance using fasting glucose and fasting insulin together.

The formula depends on which units you use:

If using µIU/mL and mg/dL:
HOMA-IR = (Fasting Insulin µIU/mL × Fasting Glucose mg/dL) ÷ 405

If using µIU/mL and mmol/L:
HOMA-IR = (Fasting Insulin µIU/mL × Fasting Glucose mmol/L) ÷ 22.5

A HOMA-IR below 1.0 is considered insulin sensitive. Above 1.8 suggests early insulin resistance. Above 2.7 is considered significant insulin resistance by many researchers.

Make sure both your glucose and insulin are in the correct units before plugging into this formula. That’s where our converter comes in handy.

Commonly Searched Insulin Conversion Questions

How do I convert insulin from µIU/mL to pmol/L?

Multiply your µIU/mL value by 6.945 (or by 6.00 if using the ADA standard). Example: 10 µIU/mL × 6.945 = 69.45 pmol/L. Or just use the calculator above.

Is mIU/L the same as µIU/mL?

Yes, completely. mIU/L and µIU/mL are mathematically identical units. If your report shows either one, the number means the same thing and shares the same reference range.

How do I convert ng/mL to pmol/L for insulin?

Multiply your ng/mL value by 17,210 to get pmol/L. Or multiply by 172.1 to convert ng/dL to pmol/L. This comes from insulin’s molecular weight of ~5808 Da.

What is a normal fasting insulin level in pmol/L?

Using the standard 6.945 factor: a normal fasting insulin is roughly 18–173 pmol/L (equivalent to 2.6–24.9 µIU/mL). Many metabolic health specialists prefer to see it below 70 pmol/L for optimal insulin sensitivity.

My lab report shows insulin in ng/dL — is that unusual?

A bit unusual for a standard clinical report, but it does appear in some lab setups, especially research labs using ELISA kits. To convert to µIU/mL, multiply by approximately 0.581. Use the converter above for exact values.

Why does my insulin result look so different from what I see online?

Almost certainly a units issue. A result of 70 in pmol/L is perfectly normal. A result of 70 in µIU/mL would be very high. Always check which unit your lab used before comparing to any reference range.

How do I convert insulin units for HOMA-IR calculation?

HOMA-IR is easiest to calculate using µIU/mL for insulin and either mg/dL or mmol/L for glucose. If your insulin is in pmol/L, divide by 6.945 to get µIU/mL first, then use the HOMA-IR formula above.

What conversion factor should I use — 6 or 6.945?

For everyday clinical use, 6.945 is what most calculators and labs use, so it matches your existing reports. For research or strict scientific accuracy, the ADA recommends 6.00. Either way, the calculator above uses 6.945 — keep this in mind if comparing to studies that used 6.00.

Who Usually Needs to Convert Insulin Units?

More people than you’d think. Here’s who ends up searching for this:

Patients comparing lab results — Your doctor’s lab reports in µIU/mL but the reference range you found online is in pmol/L.
People calculating HOMA-IR — The formula only works with the right units. Getting this wrong gives you a meaningless number.
Medical students and researchers — Cross-referencing values between studies done in different countries or different lab systems.
Dietitians and functional medicine practitioners — Tracking insulin trends in patients over time, sometimes across different labs.
People managing insulin resistance or metabolic syndrome — Trying to understand whether their number is improving or worsening.
Diabetics on insulin therapy — Occasionally need to understand how concentration units relate to dosage discussions.

If you’re any of the above — bookmark this page. You’ll probably be back.

Tips for Accurate Insulin Testing

Converting units correctly is only half the battle. The result itself needs to be trustworthy first. A few things that affect fasting insulin accuracy:

Fast for at least 8–12 hours before the test. Even a small snack can spike insulin significantly.
Avoid intense exercise the day before. Hard workouts can temporarily lower fasting insulin.
Stress matters. Cortisol and adrenaline affect glucose metabolism. If you’re running on no sleep or high anxiety, your result may not represent your baseline.
Test in the morning when insulin follows a more predictable circadian pattern.
Compare across time, not just one snapshot. A single fasting insulin reading is useful. A trend over 6–12 months is much more useful.

Final Word

Insulin units are confusing. That’s just the truth. The medical world hasn’t standardized on a single system, and even the conversion factor itself is debated in published literature. That’s not your fault as a patient or researcher — it’s just a messy corner of clinical measurement that nobody has fully cleaned up yet.

What you can do: use a reliable converter (the one at the top of this page), know which factor your lab uses, and always double-check units before comparing your result to any reference range or using it in a formula like HOMA-IR.

Your insulin level tells an important story about your metabolic health. Make sure you’re reading it in the right language.

Insulin Unit Converter – µIU/mL, pmol/L, mIU/L, ng/mL