A new computational fluid dynamics based noninvasive assessment of portacaval pressure gradient

门脉高压 医学 超声波 放射科 门静脉压 计算流体力学 经颈静脉肝内门体分流术 压力梯度 门静脉 生物医学工程 内科学 物理 机械 肝硬化
作者
Zhuxiang Xiong,Xiaoze Wang,Yuling Yan,Zhan Liu,Xuefeng Luo,Tinghui Zheng
出处
期刊:Journal of Biomechanics [Elsevier BV]
卷期号:167: 112086-112086 被引量:3
标识
DOI:10.1016/j.jbiomech.2024.112086
摘要

Accurate assessment of portacaval pressure gradient (PCG) in patients with portal hypertension (PH) is of great significance both for diagnosis and treatment. This study aims to develop a noninvasive method for assessing PCG in PH patients and evaluate its accuracy and effectiveness. This study recruited 37 PH patients treated with transjugular intrahepatic portosystemic shunt (TIPS). computed tomography angiography was used to create three dimension (3D) models of each patient before and after TIPS. Doppler ultrasound examinations were conducted to obtain the patient's portal vein flow (or splenic vein and superior mesenteric vein) was obtained based on ultrasound measurements. Using computational fluid dynamics (CFD) simulation, the patient's pre-TIPS and post-TIPS PCG was determined by the 3D models and ultrasound measurements. The accuracy of these noninvasive results was then compared to clinical invasive measurements. The results showed a strong linear correlation between the PCG simulated by CFD and the clinical invasive measurements both before and after TIPS (R2 = 0.998, P < 0.001 and R2 = 0.959, P < 0.001). The evaluation accuracy of this noninvasive method reached 94 %, and the influence of ultrasound result errors on the numerical accuracy was found to be marginal if the error was less than 20 %. Furthermore, the information about the hemodynamic environment in the portal system was obtained by this numerical method. Spiral flow patterns were observed in the portal vein of some patients. In a conclusion, this study proposes a noninvasive numerical method for assessing PCG in PH patients before and after TIPS. This method can assist doctors in accurately diagnosing patients and selecting appropriate treatment plans. Additionally, it can be used to further investigate potential biomechanical causes of complications related to TIPS in the future.
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