Computational studies on visceral artery lesions and aortic pathologies involving visceral branches: a comprehensive review for the clinician - Summary - MDSpire

Computational studies on visceral artery lesions and aortic pathologies involving visceral branches: a comprehensive review for the clinician

  • By

  • Siting Li

  • Tianai Wu

  • Xiaoning Sun

  • Xiao Liu

  • Zenghan Cao

  • Fangda Li

  • Rong Zeng

  • Shiyi Yang

  • Yuehong Zheng

  • July 10, 2026

  • 0 min

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Objective:

To provide an overview of computational fluid dynamics (CFD) studies on visceral artery lesions.

Approach:
  • Review Methodology: Conducted in accordance with PRISMA 2020, searching databases for articles on computational modeling of visceral arteries and aortic pathologies.
Key Findings:
  • Visceral artery lesions can lead to severe complications such as ischemia and organ failure.
  • CFD is a valuable tool for analyzing hemodynamics in visceral artery diseases.
  • Challenges in CFD include model simplifications, lack of patient-specific boundary conditions, and inadequate clinical imaging data.
Interpretation:

CFD has potential to enhance understanding of hemodynamic factors in visceral artery diseases and improve clinical outcomes.

Limitations:
  • Model simplifications may affect accuracy.
  • Lack of patient-specific boundary conditions.
  • Inadequate clinical imaging data due to complex anatomy.
Conclusion:

CFD could enhance understanding of hemodynamic factors in visceral artery diseases.

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