eGFR Calculator – Estimated Glomerular Filtration Rate

What Is eGFR and Why Is It Important?

eGFR — Estimated Glomerular Filtration Rate — is the best measure of kidney function available through a routine blood test. It estimates how much blood your kidneys filter per minute per 1.73 m² of body surface area. Healthy kidneys filter approximately 90–120 mL of blood per minute. As kidney disease progresses, this rate falls.

The "glomeruli" are the tiny filtering units inside each kidney — you have approximately 1 million of them per kidney. When the glomeruli are damaged (by diabetes, high blood pressure, infection, medications, or other conditions), the filtration rate drops, and waste products accumulate in the blood.

Why this matters:

• An estimated 850 million people worldwide have chronic kidney disease (CKD)
• Most people have NO symptoms until CKD is in stage 3 or later (eGFR below 60)
• eGFR is the primary marker for CKD staging, treatment decisions, and medication dosing
• Many medications (metformin, NSAIDs, certain antibiotics) are contraindicated or dose-adjusted below specific eGFR thresholds
• Kidney disease is the 10th leading cause of death globally and a major driver of cardiovascular risk

eGFR is calculated from a routine blood test for serum creatinine — a waste product of muscle metabolism that the kidneys filter out. When kidneys aren't working well, creatinine builds up in the blood, and eGFR (calculated from this level) falls.

eGFR Formula: The 2021 CKD-EPI Equation

This calculator uses the 2021 CKD-EPI (Chronic Kidney Disease Epidemiology Collaboration) equation — the current gold standard, updated in 2021 to remove the race coefficient (which was previously a factor for Black patients).

The 2021 CKD-EPI formula (in mg/dL):

eGFR = 142 × min(Scr/κ, 1)^α × max(Scr/κ, 1)^(−1.200) × 0.9938^Age × 1.012 [if female]

Where:

• Scr = serum creatinine in mg/dL
• κ = 0.7 for females, 0.9 for males
• α = −0.241 for females, −0.302 for males
• min() = the minimum of Scr/κ or 1
• max() = the maximum of Scr/κ or 1
• The 1.012 multiplier applies only to females

Example (male, age 55, creatinine 1.2 mg/dL):

• κ = 0.9, α = −0.302
• Scr/κ = 1.2/0.9 = 1.333 → min = 1, max = 1.333
• eGFR = 142 × 1^(−0.302) × 1.333^(−1.200) × 0.9938^55
• = 142 × 1 × 0.756 × 0.713 = 76.5 mL/min/1.73m²

To convert creatinine from µmol/L to mg/dL: divide by 88.4.

Why the 2021 update? The previous 2009 CKD-EPI equation included a race multiplier that produced higher eGFR estimates for Black patients — which potentially underestimated kidney disease severity and delayed care. The 2021 formula removes this race variable, providing a single equation that applies to all patients. Most major US medical centers adopted the 2021 formula by 2022.

CKD Stages: What Does Your eGFR Mean?

Kidney disease is classified into 5 stages based on eGFR, combined with markers of kidney damage (proteinuria, abnormal urinalysis, imaging, or biopsy):

Important: A single eGFR measurement does not diagnose CKD. By definition, CKD requires evidence of kidney damage or reduced GFR for more than 3 months. A temporary dip in eGFR from dehydration, acute illness, or new medication does not constitute CKD.

The "albuminuria" dimension: eGFR alone doesn't tell the whole story. Kidney disease staging also includes albuminuria — protein in the urine. A patient with eGFR 75 but significant proteinuria (A3 category: >300 mg/g) has a worse prognosis than eGFR 75 with normal protein levels. Always review eGFR alongside urine protein results.

Normal eGFR by Age: What's Expected?

eGFR naturally declines with age — this is a normal part of aging, not a disease. The typical age-related decline:

This age-related decline is why "Stage G3a" in a healthy 82-year-old with no proteinuria and normal creatinine trajectory means something very different from Stage 3a in a 45-year-old with diabetes. Context matters. An 80-year-old with stable eGFR of 50 for 10 years is fundamentally different from a 50-year-old whose eGFR has dropped from 90 to 50 over 2 years.

What Causes Low eGFR?

eGFR can be reduced by acute (temporary) or chronic (permanent) causes:

Acute causes (reversible with treatment):

• Dehydration: The most common cause of a temporary eGFR dip in otherwise healthy people. Drink 2–3L of water and retest.
• NSAIDs (ibuprofen, naproxen): Reduce blood flow to the kidneys with regular use. Avoid chronic use if you have CKD.
• ACE inhibitors/ARBs in setting of dehydration: These blood pressure medications reduce filtration pressure; safe when hydrated.
• Urinary obstruction: Kidney stones, enlarged prostate, or tumors blocking urine flow can cause acute kidney injury.
• Sepsis or severe illness: Acute kidney injury (AKI) in critically ill patients; often reversible.

Chronic causes (CKD):

• Diabetes mellitus (Type 1 and 2): #1 cause of CKD worldwide. High blood glucose damages glomerular capillaries (diabetic nephropathy).
• Hypertension: #2 cause. Persistent high blood pressure damages small blood vessels in kidneys.
• Glomerulonephritis: Immune-mediated kidney inflammation; includes IgA nephropathy, lupus nephritis, and others.
• Polycystic kidney disease (PKD): Genetic condition; cysts replace functional kidney tissue over decades.
• Chronic UTIs or recurrent kidney infections
• Long-term use of nephrotoxic medications: Lithium, calcineurin inhibitors, some chemotherapy agents.

How to Protect Your Kidneys: Evidence-Based Prevention

Kidney disease is largely preventable and its progression can be slowed significantly:

• Control blood pressure: Target below 130/80 mmHg. RAAS inhibitors (ACE inhibitors, ARBs) have specific kidney-protective effects beyond BP reduction and are first-line for CKD with proteinuria.
• Control blood sugar: Intensive glycemic control reduces diabetic nephropathy progression. Every 1% reduction in HbA1c reduces microvascular complications (including nephropathy) by 25–40%.
• SGLT2 inhibitors: Medications like empagliflozin and dapagliflozin have demonstrated landmark reductions in CKD progression (30–50% reduction in kidney failure) in multiple large trials. Now recommended for CKD with or without diabetes in many guidelines.
• Avoid nephrotoxins: NSAIDs, contrast dye (with precautions), aminoglycoside antibiotics, and herbal supplements (some traditional remedies contain aristolochic acid — highly nephrotoxic).
• Stay hydrated: Chronic mild dehydration stresses the kidneys over decades. 8–10 cups of water daily is reasonable for most adults.
• Low-sodium diet: Reduces blood pressure and proteinuria. Target <2,300 mg sodium/day (about 1 teaspoon of salt).
• Moderate protein intake: High-protein diets (especially animal protein) increase filtration demand. For CKD stage 3+, protein restriction of 0.6–0.8 g/kg/day may slow progression.
• Regular exercise: Aerobic exercise reduces cardiovascular risk (the #1 cause of death in CKD patients) and modestly improves eGFR over time.
• Quit smoking: Smoking accelerates CKD progression — smokers with CKD lose eGFR 2–4× faster than non-smokers.

eGFR and Exercise: What Runners Need to Know

Running and intense exercise have complex, mostly beneficial effects on kidney function:

Acute effects (temporary, normal): During intense exercise, blood is redirected to working muscles, temporarily reducing kidney perfusion by 20–40%. This can transiently lower eGFR and increase creatinine levels for 12–48 hours after hard runs. Always avoid getting bloodwork done immediately after a race or hard workout — wait at least 48 hours for an accurate creatinine/eGFR reading.

Exercise-induced proteinuria: Temporary protein in urine after hard exercise is common and benign in healthy athletes. It resolves within hours. Persistent proteinuria (at rest, not after exercise) is the clinically significant finding that warrants investigation.

Rhabdomyolysis: Extreme exercise (ultra-marathon finishing, military selection) can cause rhabdomyolysis — muscle breakdown that releases myoglobin, which can block kidney tubules. Warning signs: dark (cola-colored) urine, extreme muscle pain, significantly elevated creatine kinase (CK). Requires urgent IV hydration and medical evaluation.

Long-term benefits: Regular moderate aerobic exercise (running 3–5x/week) is associated with better kidney function preservation over decades, improved blood pressure, and cardiovascular outcomes — all of which reduce CKD progression risk. Runners have lower rates of CKD than sedentary individuals in epidemiological studies.