Closed chambers for controlled
oxygen in vascular research
Closed chambers for controlled
oxygen in vascular research
STRUGGLING TO MAKE AN IMPACT WITH LIMITED TIME & MONEY?
Most labs aren’t equipped with tools for controlling hypoxia. Studies of VEGF, angiogenesis, blood vessel integrity, blood-brain-barrier, endothelial cell ROS, growth, and differentiation are affected by default room air oxygen conditions.
Get the right equipment for controlling in vitro conditions that mimic the vascular microenvironment.
Upgrade your traditional CO2 incubator with hypoxic chambers
Replace your incubator and BSC with a closed cell incubation and handling chamber
Need Oxygen Controlled Chambers for in vivo Animal Studies?
How do I get cytocentric equipment FOR controlling OXYGEN LEVELS?
Step 1
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Get quality results
Visit a Cytocentric Lab
Vascular Research at St. Michael’s Hospital
Vascular Research at University of Pittsburgh – Vascular Medicine Institute
Vascular Research at Julius Maximilian University of Wuerzburg
Vascular Research at SUNY Upstate Medical University
Vascular Research at Boston Children’s Hospital
Blog Posts
CytoCentric Blog – More Tips for Extreme Oxygen Studies: Anoxia, Hypoxia, Physioxia and Hyperphysioxia
CytoCentric Blog – Oxygen Terminology: Should We Call Physiologic Oxygen Hypoxia, Normoxia, Physioxia, or Something Else?
CytoCentric Blog – The Biology of HIF Proteins Impacts the Outcome of Your Experiments in Physiologic Oxygen: Considerations for protocol design
Press Release
The Nobel Prize in Physiology or Medicine 2019 – awarded jointly to William G. Kaelin Jr., Sir Peter J. Ratcliffe and Gregg L. Semenza “for their discoveries of how cells sense and adapt to oxygen availability”
In the future, tears won’t accompany a diagnosis because
researchers will unlock the full potential of living cells to:
Reveal Truths
Discover Therapies
