A Self-Sealing Modular Microfluidic System Using PDMS Blocks with Magnetic Connections -By Ecker et al., 2023.
rJararacin, a recombinant disintegrin from Bothrops jararaca venom: Exploring its effects on hemostasis and thrombosis - David et al., 2023.
How to conduct a Thrombosis Assay using Cellix's VenaFlux Basic setup with ExiGo pump
Answers to your questions about the VenaFlux Solutions : Frequently Asked Questions (FAQs)
The rate of platelet activation determines thrombus size and structure at arterial shear
EMT status of circulating breast cancer cells and impact of fluidic shear stress – By Jin et al., 20
New insights into prothrombotic state of post-COVID syndrome patients
Cardiovascular: Stents; Drug Eluting Stents; Platelet Adhesion
Chronic platelet activation contributes to Alzheimers Disease and its progression
VenaFlux Solutions for Thrombosis assay : Technical Specifications
Understanding Cellix's Microfluidic Hydrodynamic Focusing Set-up
Getting started with Cellix's Vena8 Glass Coverslip Biochips
VenaDeltaY Biochips: for dual flow / dual injection of samples
VenaT4 Biochip: for cell migration, transmigration, invasion and chemotaxis studies
Vena8 Fluoro+ Biochip: for cell receptor–ligand studies with conditions mimicking physiological flow
Getting started with Cellix's Vena8 Endothelial+ biochip
Intravenous abciximab as a rescue therapy in stroke patients
How to conduct a thrombosis assay using Mirus Evo or ExiGo Pump?
VenaFlux Solutions for Thrombosis assay : How does it work?
VenaFlux for thrombosis: Installation and training guide