The first patenting from Hemeo BV describes its development of Vantage, an artificial intelligence powered clinical decision support software for coagulation management.
There is growing evidence of the role of soluble endoglin in the biology of platelets, including thrombosis. French researchers have investigated the role of genetic variants in the gene encoding endoglin, ENG, and the risk of venous thrombosis development.
Aberrant overactivity of platelets may lead to the formation of occlusive thrombi and consequently lead to myocardial infarction or stroke. At the recent EHA meeting, researchers from the University of Michigan and Cereno Scientific AB presented data regarding their prostacyclin (IP) receptor agonist CS-585 as a thrombolytic.
Cereno Scientific AB has submitted a clinical trial application (CTA) to the EMA seeking approval for a first-in-human, phase I study of CS-014, a novel histone deacetylase (HDAC) inhibitor drug candidate under development as an antithrombotic treatment.
The rare hereditary fibrinogen disorder hypodysfibrinogenemia is characterized by fibrinogen defects, which can cause thrombotic and hemorrhagic phenotypes that are not always predicted by routine coagulation tests. Researchers from Academic Hospital Maastricht aimed to characterize the genetic profile of a family with hypodysfibrinogenemia and predict bleeding and/or thrombotic phenotypes in asymptomatic family members using innovative testing.
A sustained antiplatelet effect plus target selectivity are the two major requirements for developing new antithrombotic therapies. Increasing the levels of cAMP in the platelets by the action of a prostacyclin receptor (PTGIR) agonist is a possible approach for this purpose. Researchers from the University of Michigan have presented preclinical data on their PTGIR agonist CS-585, which has shown higher blood stability, as a potential therapeutic for thrombosis.
Cereno Scientific AB has completed the preclinical safety program for CS-014, a histone deacetylase (HDAC) inhibitor in development for arterial and venous thrombosis prevention.
Current anticoagulant strategies include small-molecule inhibitors and biological entities targeting factor XI (FXI) which, although effective, still have bleeding as a major risk.
Researchers from University of Michigan presented preclinical data for the novel oxylipin analogue CS-585 being developed as an antithrombotic agent. CS-585 was synthesized as an orally available analogue of 12(S)-hydroxy-eicosatrienoic (12-HETrE), with potent and selective prostacyclin (IP) receptor agonist activity and ability.
