The interplay between platelets and tumor cells has been shown to result in hyperactivity or activation of circulating platelets in cancer patients, thus resulting in the formation of cancer-associated thrombus. The incidence of cancer-associated thromboembolic events is heavily dependent on the adhesion ability of platelets to fibrin network, which is determined by the degree of platelet activation. However, a major limitation to platelet activity state testing is the difficulty to replicate biorheological conditions in vitro, which incorporate the effects of hemodynamic forces such as pressure, flow, and shear stress. 

To address this challenge, in a study published in Cell Reports Methods, the team led by Prof. NIE Guangjun and Prof. LI Suping from National Center for Nanoscience and Technology of the Chinese Academy of Sciences developed a fibrin-network-containing microfluidic device (which models the dynamic flow in the living vessels) that can simultaneously measure the affinity of millions of individually circulating platelets for fibrin architecture, and precisely characterized platelet activity status over tumor progression, realizing cancer-associated thrombus prediction so as to guide timely anticoagulation treatment to reduce cancer mortality. 

Using multiple preclinical animal tumor models and clinical patient samples, the microfluidic devices showed a higher performance in distinguishing tumor-associated platelet activity than in the conventional coagulation tests, and demonstrated with high sensitivity that platelet activity increased with tumor progression. In particular, using patient platelet samples, the researchers validated that platelet hyperactivity measured by microfluidic device could predict the incidence of cancer-associated thrombosis with high sensitivity and specificity. 

The microfluidic device also exhibits a potential to more precisely discriminate aberrant coagulation status in stroke and pulmonary embolism mouse models. The device can be further developed for predicting virus infection-associated thrombosis incidence, thus directing antiplatelet or anticoagulation therapy in multiple coagulation disorders.