Multichannel resonant acoustic rheometry system for quantification of coagulation of multiple human plasma samples

Hendren, Christina; Li, Weiping; Stegemann, Jan P.; Hall, Timothy L.; Deng, Cheri X.

doi:10.1038/s41598-023-46518-w

Cited by 2 publications

References 28 publications

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Dynamic reorganization of multivesicular bodies and exosome production impacted by sonoporation

Li,

Saleh,

Gao

et al. 2024

Sci Rep

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Naturally occurring cell-derived extracellular vesicles (EVs) have emerged as attractive nanocarriers for drug delivery. However, production of large quantities of EVs for clinical applications in a scalable manner remains a significant challenge. This study investigated at the single cell level how sonoporation, or membrane poration produced by ultrasound-induced microbubble cavitation, impacts EV production using mouse macrophage RAW 264.7 cells stably expressing CD63-GFP as a model system. Real-time fluorescence videomicroscopy detected rapid changes in CD63-GFP, a tetraspanin family member highly enriched in intraluminal vesicles tagged with GFP, to track changes in multivesicular bodies (MVBs), which are the cellular compartments where exosomes originate within the cells. Our results revealed distinct dynamic changes in CD63-GFP intensity and distribution in RAW 264.7 cells in terms of response time and duration depending on whether the cells were directly or indirectly impacted by sonoporation, suggesting reorganization of MVBs in response to direct and indirect mechanisms resulted from the mechanical impact of ultrasound pulse on the cells. Analysis of the supernatant from sonoporation-treated RAW 264.7 cells expressing CD63-GFP demonstrated a delayed and sustained increase in the production of CD63-GFP-positive EVs. These results show the robust and detailed effect of sonoporation and reveal insights into sonoporation-induced EV release useful for guiding the application of sonoporation to enhance large-scale EV production. Supplementary Information The online version contains supplementary material available at 10.1038/s41598-024-79042-6.

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Dynamic reorganization of multivesicular bodies and exosome production impacted by sonoporation

Li,

Saleh,

Gao

et al. 2024

Sci Rep

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Resonant Acoustic Rheometry for Real Time Assessment of Plasma Coagulation in Bleeding Patients

Deng,

Li,

Bunch

et al. 2024

Preprint

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Disordered hemostasis associated with life-threatening hemorrhage commonly afflicts patients in the emergency room, critical care unit, and perioperative settings. Rapid and sensitive hemostasis phenotyping is needed to guide administration of blood components and hemostatic adjuncts to reverse aberrant coagulofibrinolysis. Here, resonant acoustic rheometry (RAR), a technique that quantifies the viscoelastic properties of soft biomaterials, was applied to assess plasma coagulation in a cohort of bleeding patients with concomitant clinical coagulation assays and whole blood thromboelastography (TEG) as part of their routine care. RAR captured the dynamic characteristics of plasma coagulation that were coagulation activators-dependent. RAR coagulation parameters correlated with TEG reaction time and TEG functional fibrinogen, especially when stratified by comorbidities. A quadratic classifier trained on RAR parameters predicted transfusion of fresh frozen plasma and cryoprecipitate with high overall accuracy. These results demonstrate the potential of RAR as a bedside hemostasis assessment to guide transfusion in bleeding patients.

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Multichannel resonant acoustic rheometry system for quantification of coagulation of multiple human plasma samples

Cited by 2 publications

References 28 publications

Dynamic reorganization of multivesicular bodies and exosome production impacted by sonoporation

Dynamic reorganization of multivesicular bodies and exosome production impacted by sonoporation

Resonant Acoustic Rheometry for Real Time Assessment of Plasma Coagulation in Bleeding Patients

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