血小板
二磷酸腺苷
血小板活化
刺激
流式细胞术
传统PCI
医学
兴奋剂
全血
免疫学
富血小板血浆
药理学
化学
内科学
血小板聚集
受体
心肌梗塞
作者
Evgeniya A. Ponomarenko,Anastasia A. Ignatova,Dmitry M. Polokhov,A. A. Filkova,Е. В. Сунцова,P. А. Zharkov,Д. В. Федорова,A. S. Pisaryuk,I. Meray,Zhanna Kobalava,Yokubjon S. Tukhsanboev,Alexey Maschan,G. А. Novichkova,Anastasia N. Sveshnikova,Mikhail A. Panteleev
摘要
OBJECTIVES: Flow cytometry with adenosine diphosphate (ADP) allows to characterize molecular changes of platelet function caused by this physiologically important activation, but the methodology has not been thoroughly investigated, standardized and characterized yet. We analyzed the influence of several major variables and chose optimal conditions for platelet function assessment. METHODS: , 5 μM ADP and antibodies were added to diluted blood and incubated for 15 min. We analyzed kinetics of antibody binding and effects of their addition sequence, agonist concentration, blood dilution, exogenous calcium addition and platelet fixation. RESULTS: We tested our protocol on 11 healthy children, 22 healthy adult volunteers, 9 patients after a month on dual antiplatelet therapy after percutaneous coronary intervention (PCI), 7 adult patients and 14 children with immune thrombocytopenia (ITP). We found that our protocol is highly sensitive to ADP stimulation with low percentage of aggregates formation. The assay is also sensitive to platelet function inhibition in post-PCI patients. Finally, platelet preactivation with ITP plasma was stronger and caused increase in activation response to ADP stimulation compared to preactivation with low dose of ADP. CONCLUSIONS: Our assay is sensitive to antiplatelet therapy and platelet preactivation in ITP patients under physiological conditions with minimal percentage of aggregates formation.
科研通智能强力驱动
Strongly Powered by AbleSci AI