Coronary Hemodynamic Significance Assessment

A Coronary Hemodynamic Significance Assessment is a coronary functional evaluation that determines whether coronary hemodynamic anatomical stenosis causes coronary hemodynamic flow limitation and coronary hemodynamic myocardial ischemia.

• AKA: Coronary Physiologic Assessment, Functional Stenosis Evaluation, Hemodynamic Lesion Assessment.
• Context:
  • It can typically measure Coronary Hemodynamic Pressure Gradients across coronary hemodynamic stenotic lesions.
  • It can typically distinguish Coronary Hemodynamic Significant Stenosis from coronary hemodynamic non-significant narrowing.
  • It can typically guide Coronary Hemodynamic Revascularization Decisions through coronary hemodynamic objective criteria.
  • It can typically predict Coronary Hemodynamic Clinical Outcomes using coronary hemodynamic physiologic parameters.
  • It can typically correlate Coronary Hemodynamic Functional Severity with coronary hemodynamic symptom burden.
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  • It can often identify Coronary Hemodynamic Discordant Lesions showing coronary hemodynamic anatomy-physiology mismatch.
  • It can often assess Coronary Hemodynamic Tandem Stenosis determining coronary hemodynamic individual contributions.
  • It can often evaluate Coronary Hemodynamic Diffuse Disease beyond coronary hemodynamic focal stenosis.
  • It can often optimize Coronary Hemodynamic PCI Results through coronary hemodynamic post-intervention measurement.
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  • It can range from being a Non-Invasive Coronary Hemodynamic Significance Assessment to being an Invasive Coronary Hemodynamic Significance Assessment, depending on its coronary hemodynamic measurement technique.
  • It can range from being a Resting Coronary Hemodynamic Significance Assessment to being a Hyperemic Coronary Hemodynamic Significance Assessment, depending on its coronary hemodynamic physiologic state.
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  • It can utilize Coronary Hemodynamic Pressure Wires for coronary hemodynamic direct measurement.
  • It can employ Coronary Hemodynamic Computational Models for coronary hemodynamic virtual assessment.
  • It can integrate Coronary Hemodynamic Imaging Correlation with coronary hemodynamic anatomic findings.
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• Example(s):
  • Coronary Hemodynamic Significance Assessment Methods, such as:
    • Coronary Hemodynamic FFR Assessment measuring coronary hemodynamic fractional flow reserve.
    • Coronary Hemodynamic iFR Assessment using coronary hemodynamic instantaneous wave-free ratio.
    • Coronary Hemodynamic CFR Assessment calculating coronary hemodynamic coronary flow reserve.
  • Coronary Hemodynamic Significance Assessment Technologys, such as:
    • Coronary Hemodynamic Pressure Wire Measurement with coronary hemodynamic invasive sensor.
    • Coronary Hemodynamic CT-FFR Analysis using coronary hemodynamic computational simulation.
    • Coronary Hemodynamic Angiography-Based Assessment employing coronary hemodynamic quantitative flow ratio.
  • Coronary Hemodynamic Significance Assessment Applications, such as:
    • Coronary Hemodynamic Intermediate Lesion Evaluation for coronary hemodynamic 40-70% stenosis.
    • Coronary Hemodynamic Multi-Vessel Disease Assessment in coronary hemodynamic complex anatomy.
    • Coronary Hemodynamic Deferred Revascularization based on coronary hemodynamic negative results.
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• Counter-Example(s):
  • Coronary Anatomical Assessment, which evaluates coronary visual appearance rather than coronary hemodynamic functional impact.
  • Coronary Plaque Characterization, which analyzes coronary plaque composition rather than coronary hemodynamic flow effect.
  • Coronary Calcium Scoring, which quantifies coronary calcium burden rather than coronary hemodynamic significance.
• See: Coronary Physiology, Medical Decision Making, Coronary Intervention Planning, Atherosclerosis.