1D Thermoembolization Model Using CT Imaging Data for Porcine Liver

Rohan Amare, Danielle Stolley, Steve Parrish, Megan Jacobsen, Rick Layman, Chimamanda Santos, Beatrice Riviere, Natalie Fowlkes, David Fuentes, Erik Cressman
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Abstract

Objective: Innovative therapies such as thermoembolization are expected to play an important role in improvising care for patients with diseases such as hepatocellular carcinoma. Thermoembolization is a minimally invasive strategy that combines thermal ablation and embolization in a single procedure. This approach exploits an exothermic chemical reaction that occurs when an acid chloride is delivered via an endovascular route. However, comprehension of the complexities of the biophysics of thermoembolization is challenging. Mathematical models can aid in understanding such complex processes and assisting clinicians in making informed decisions. In this study, we used a Hagen Poiseuille 1D blood flow model to predict the mass transport and possible embolization locations in a porcine hepatic artery. Method: The 1D flow model was used on in vivo embolization imaging data of three pigs. The hydrolysis time constant of acid chloride chemical reaction was optimized for each pig, and LOOCV method was used to test the model's predictive ability. Conclusion: This basic model provided a balanced accuracy rate of 66.8% for identifying the possible locations of embolization in the hepatic artery. Use of the model provides an initial understanding of the vascular transport phenomena that are predicted to occur as a result of thermoembolization.
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利用猪肝脏 CT 成像数据建立一维热栓塞模型
目的:热栓塞等创新疗法有望在改善肝细胞癌等疾病患者的治疗方面发挥重要作用。热栓塞疗法是一种微创策略,它将热消融和栓塞结合在一次手术中。这种方法利用了通过血管内途径输送酸性氯化物时发生的放热化学反应。数学模型可以帮助理解这种复杂的过程,并协助临床医生做出明智的决定。在本研究中,我们使用哈根-普瓦塞耶一维血流模型来预测猪肝动脉中的质量传输和可能的栓塞位置。方法:将一维血流模型用于三头猪的活体栓塞成像数据。对每头猪的氯化酸化学反应水解时间常数进行了优化,并使用 LOOCV 方法测试了模型的预测能力。结果表明该基本模型在确定肝动脉可能的栓塞位置方面提供了 66.8% 的均衡准确率。使用该模型可以初步了解热栓塞可能导致的血管传输现象。
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