Ghost Cells as a Two-Phase Blood Analog Fluid-Optical Thrombus Growth Detection Using Particle Image Velocimetry.

IF 2.2 3区医学 Q3 ENGINEERING, BIOMEDICAL

Artificial organs Pub Date : 2025-06-18 DOI:10.1111/aor.15042

Benjamin J Schürmann, Pia Creutz, Thomas Schmitz-Rode, Ulrich Steinseifer, Johanna C Clauser

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引用次数: 0

Abstract

Background: In vitro thrombosis tests for mechanical circulatory support systems lack standardized ISO guidelines. A major limitation of current approaches is the absence of continuous thrombus monitoring, as terminated experiments at a single time point fail to capture the dynamic nature of thrombus formation. However, spatially resolved thrombus formation and its underlying dynamics are crucial for the optimization of mechanical circulatory support systems.

Methods: In this study, we present a high-resolution thrombus monitoring approach using particle image velocimetry with a thrombogenic, two-phase blood analog fluid, designated as "ghost blood". Ghost blood consists of plasma and ghost cells, which are hemoglobin-depleted erythrocytes. We validate and quantify the particle image velocimetry with ghost blood and use this combination to monitor thrombus growth.

Results: The validation demonstrated velocity fields in the FDA-pump are consistent with existing literature, confirming the usability of ghost blood in particle image velocimetry. The use range of ghost blood is quantified as a formula to determine the maximum possible optical penetration depth. Finally, thrombus growth was successfully monitored in the FDA-pump.

Conclusion: In this proof of principle study, we grew a thrombus in the FDA-pump and were able to monitor its growth from a first thrombus thread to a complete obstruction of the flow. This approach enables both the localization and the temporal growth of the thrombus to be visualized and thereby provides a foundation for future advancements in thrombosis assessment and the optimization of mechanical circulatory support systems.

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鬼细胞作为两相血液模拟物——流体光学血栓生长检测的粒子图像测速仪。

背景：机械循环支持系统的体外血栓形成试验缺乏标准化的ISO指南。当前方法的一个主要限制是缺乏连续的血栓监测，因为在单个时间点终止的实验无法捕捉血栓形成的动态特性。然而，空间分解血栓形成及其潜在动力学对于机械循环支持系统的优化至关重要。方法：在这项研究中，我们提出了一种高分辨率的血栓监测方法，采用颗粒图像测速法，使用致血栓的两相血液模拟流体，称为“鬼血”。鬼血由血浆和鬼细胞组成，它们是血红蛋白耗尽的红细胞。我们用鬼血验证和量化粒子图像测速，并使用这种组合来监测血栓的生长。结果：fda泵中验证的速度场与已有文献一致，证实了鬼血在粒子图像测速中的可用性。将鬼血的使用范围量化为公式，以确定最大可能的光学穿透深度。最后，在fda泵中成功监测血栓生长。结论：在这项原理证明研究中，我们在fda泵中培养了一个血栓，并能够监测其从第一个血栓线到完全阻塞血流的生长。这种方法使血栓的定位和时间生长可视化，从而为血栓形成评估和机械循环支持系统优化的未来发展奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Artificial organs 工程技术-工程：生物医学

CiteScore

4.30

自引率

12.50%

发文量

303

审稿时长

4-8 weeks

期刊介绍： Artificial Organs is the official peer reviewed journal of The International Federation for Artificial Organs (Members of the Federation are: The American Society for Artificial Internal Organs, The European Society for Artificial Organs, and The Japanese Society for Artificial Organs), The International Faculty for Artificial Organs, the International Society for Rotary Blood Pumps, The International Society for Pediatric Mechanical Cardiopulmonary Support, and the Vienna International Workshop on Functional Electrical Stimulation. Artificial Organs publishes original research articles dealing with developments in artificial organs applications and treatment modalities and their clinical applications worldwide. Membership in the Societies listed above is not a prerequisite for publication. Articles are published without charge to the author except for color figures and excess page charges as noted.