Microfluidic biochips applications

MDA cells adhering to TNF-alpha stimulated HUVECs under shear flow

 

 

Please contact mycells@tebu-bio.com to receive an application note or more information!
 

How to reproduce these experiments?

Cellix Biochips
HUVECs
New pump for endothelial cells culture under shear stress

Any questions?

Just contact mycells@tebu-bio.com, we will be pleased to help!

The videos and media displayed here are from external sources; tebu-bio is not responsible or liable for contents you may have further access to.

 

Cellix tutorial

Tutorial illustrates assay with cell suspension (e.g. T-cell, monocytes, neutrophils, eosinophils, PBMCs, platelets, whole blood etc.) and analysis of data. Quantitate data outputs include IC50 curves of cell-cell adhesion vs. shear flow rate (mimicking in vivo arterial/venous/capillary flow); morphology analysis of cell adhesion and migration; tracking of flowing, rolling and migrating cells.

Eosinophil Adhesion to HMVEC-L at 0.5 dyne/cm²
Inflammation - Asthma / COPD

Please contact mycells@tebu-bio.com to receive the application note!
 

How to reproduce this experiment?

Cellix's VenaEC biochips Cellix's Vena8 Endothelial+ biochips
Microvascular Endothelial Cells  

Red Blood Cells infected with malaria parasite flowing through ICAM coated biochip at 0.5 dyne/cm²
Infectious Diseases

Chondroitin Sulfate A-Adhering Plasmodium falciparum-Infected Erythrocytes Express Functionally Important Antibody Epitopes Shared by Multiple Variants. Contact mycells@tebu-bio.com to receive the paper!
 

How to reproduce this experiment?

Cellix's VenaEC biochips Cellix's Vena8 Endothelial+ biochips
Human Primary Cells V-CAM

GFP-tagged 1205Lu melanoma cells adhering to non-stimulated HUVECs under shear flow
Oncology-Melanoma

Contact mycells@tebu-bio.com to receive the application note!
 

How to reproduce this experiment?

Cellix's VenaEC biochips Cellix's Vena8 Endothelial+ biochips
HUVECs ICAM-1
   

THP-1 monocytes adhering to HUVECs in biochip under flow
Inflammation - Atherosclerosis

How to reproduce this experiment?

Cellix's VenaEC biochips Cellix's Vena8 Endothelial+ biochips
Human Endothelial Cells Human Endothelial Cells Media
Umbelical Vessel Cells  

Primary Endothelial Cell Culture in Cellix's Vena8 Endothelial+ biochips

How to reproduce this experiment?

Cellix's Vena8 Endothelial+ biochips

Human Endothelial Cells Human Endothelial Cells Media
Animal Endothelial Cells Animal Endothelial Media

 

Intravital microscopy of HT1080-GFP tagged fibrosacroma tumour cells rolling

Video courtesy of Prof. Robert Hoffman (Anti-Cancer Inc.) and Prof. William Gallagher (University College Dublin)

How to reproduce this experiment?

Cellix's Vena4Y / Vena4Y2 biochips

Any questions?

Just contact mycells@tebu-bio.com, we will be pleased to help!

 

The videos and media displayed here are from external sources; tebu-bio is not responsible or liable for contents you may have further access to.

 

Platelet adhesion to vWF coated biochip at 60 dyne/cm²

Platelet adhesion initiates thrombus formation that arrests hemorrhage and permits wound healing. Vena8 biochips coated with vWF, fibrinogen and collagen enable researchers to monitor the physiological stresses required for thrombus formation.

Any questions?

Just contact mycells@tebu-bio.com, we will be pleased to help!

The videos and media displayed here are from external sources; tebu-bio is not responsible or liable for contents you may have further access to.