Computational studies on visceral artery lesions and aortic pathologies involving visceral branches: a comprehensive review for the clinician - Summary - MDSpire
Advertisement
Computational studies on visceral artery lesions and aortic pathologies involving visceral branches: a comprehensive review for the clinician
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.
From Medicare payment updates to drug approvals and device access, these federal actions may affect reimbursement, prescribing, patient access, and clinical workflows.