Fractional Flow Reserve

Fractional Flow Reserve (FFR)

Fractional Flow Reserve (FFR) is an invasive physiologic index used in coronary angiography to determine whether a coronary artery stenosis is hemodynamically significant and causing myocardial ischemia.

Definition

FFR = Maximum blood flow in a stenotic coronary artery ÷ Maximum blood flow if the artery were normal

Clinically measured as:$$FFR = \frac{Pd}{Pa}$$FFR=PaPd​

Where

• Pd = distal coronary pressure (beyond the stenosis)
• Pa = aortic pressure (proximal pressure)

Measured during maximal hyperemia (usually induced with adenosine).

Principle

During maximal hyperemia, microvascular resistance becomes minimal and constant, so pressure becomes proportional to flow.
Therefore pressure ratio reflects flow limitation caused by the stenosis.

Normal Value

• Normal coronary artery: FFR ≈ 1.0

Clinical Cut-offs

(Modern guideline threshold: 0.80)

How FFR is Measured (Cath Lab Steps)

1. Coronary artery engaged with guiding catheter
2. Pressure wire advanced distal to stenosis
3. Baseline Pa and Pd recorded
4. Maximal hyperemia induced
   • IV adenosine: 140 µg/kg/min (standard)
   • Intracoronary adenosine alternative
5. Lowest Pd/Pa ratio recorded as FFR

Drugs Used for Hyperemia

• Adenosine (gold standard)
• Papaverine
• Regadenoson
• ATP

Major Clinical Uses

1. Intermediate coronary stenosis (40–70%)
2. Multivessel CAD – culprit lesion identification
3. Left main stenosis assessment
4. Post-PCI optimization
5. Guiding revascularization decisions

Situations Where FFR is Less Reliable

• Acute STEMI culprit vessel
• Severe microvascular dysfunction
• Severe LV hypertrophy
• Inadequate hyperemia

Key Clinical Trials

• FAME Trial
  • FFR-guided PCI ↓ death, MI, repeat revascularization.
• FAME 2 Trial
  • PCI beneficial when FFR ≤0.80.
• DEFER Trial
  • Lesions with FFR >0.75 safe to defer PCI.

FFR vs iFR

NEET-SS / Cardiology Exam Pearls

1. Gold standard physiologic index for ischemia-producing coronary stenosis.
2. Measured during maximal hyperemia.
3. FFR ≤0.80 → revascularization recommended.
4. Pressure wire technology introduced in 1990s.
5. Less affected by heart rate or blood pressure.
6. Useful in angiographically intermediate lesions.
7. Improves outcomes when guiding PCI.
8. iFR developed to avoid adenosine use.

one-liners on Fractional Flow Reserve useful for NEET-SS / DM Cardiology exams:

1. FFR = Pd / Pa during maximal hyperemia, where Pd = distal coronary pressure and Pa = aortic pressure.
2. Normal FFR ≈ 1.0, indicating no hemodynamically significant epicardial stenosis.
3. FFR ≤ 0.80 defines ischemia-producing coronary stenosis and is the modern threshold for revascularization.
4. Maximal hyperemia is usually induced by IV adenosine 140 µg/kg/min during FFR measurement.
5. The physiologic principle of FFR depends on minimal and constant microvascular resistance during hyperemia.
6. Intermediate coronary lesions (40–70% stenosis) are the classic indication for FFR assessment.
7. The FAME Trial showed that FFR-guided PCI reduces death, MI, and repeat revascularization compared with angiography-guided PCI.
8. DEFER Trial demonstrated that PCI can be safely deferred when FFR >0.75.
9. FFR pullback recording helps differentiate diffuse disease from focal stenosis in serial lesions.
10. Instantaneous Wave-Free Ratio (iFR) measures coronary physiology without adenosine, using the diastolic wave-free period with a cutoff ≤0.89.