Site-specific thrombus formation: advancements in photothrombosis-on-a-chip technology

Kuan Ting Liu, Pai Wen Wang, Han Yun Hsieh, Han Chi Pan, Hsian Jean Chin, Che Wei Lin, Yu Jen Huang, Yung Chieh Liao, Ya Chun Tsai, Shang Ru Liu, I. Chang Su, Yen Fang Song, Gung Chian Yin, Kuang Chong Wu, Er Yuan Chuang, Yu Jui Fan, Jiashing Yu

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2 引文 斯高帕斯(Scopus)

摘要

Thrombosis, characterized by blood clot formation within vessels, poses a significant medical challenge. Despite extensive research, the development of effective thrombosis therapies is hindered by substantial costs, lengthy development times, and high failure rates in medication commercialization. Conventional pre-clinical models often oversimplify cardiovascular disease, leading to a disparity between experimental results and human physiological responses. In response, we have engineered a photothrombosis-on-a-chip system. This microfluidic model integrates human endothelium, human whole blood, and blood flow dynamics and employs the photothrombotic method. It enables precise, site-specific thrombus induction through controlled laser irradiation, effectively mimicking both normal and thrombotic physiological conditions on a single chip. Additionally, the system allows for the fine-tuning of thrombus occlusion levels via laser parameter adjustments, offering a flexible thrombus model with varying degrees of obstruction. Additionally, the formation and progression of thrombosis noted on the chip closely resemble the thrombotic conditions observed in mice in previous studies. In the experiments, we perfused recalcified whole blood with Rose Bengal into an endothelialized microchannel and initiated photothrombosis using green laser irradiation. Various imaging methods verified the model's ability to precisely control thrombus formation and occlusion levels. The effectiveness of clinical drugs, including heparin and rt-PA, was assessed, confirming the chip's potential in drug screening applications. In summary, the photothrombosis-on-a-chip system significantly advances human thrombosis modeling. Its precise control over thrombus formation, flexibility in the thrombus severity levels, and capability to simulate dual physiological states on a single platform make it an invaluable tool for targeted drug testing, furthering the development of organ-on-a-chip drug screening techniques.
原文英語
頁(從 - 到)3422-3433
頁數12
期刊Lab on a Chip
24
發行號14
DOIs
出版狀態已發佈 - 6月 4 2024

ASJC Scopus subject areas

  • 生物工程
  • 生物化學
  • 一般化學
  • 生物醫學工程

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