Applications
Select an Application below and we will show you which of our products would help provide the best results.
Altitude / Aerospace
Blood / Hematology
Cancer / Tumor Biology
Carbon Monoxide
Cardiovascular
Cell Analysis
Cell Cycle / Cell Death
Cell Imaging
Circadian Rhythm
Development
Endocrine / Diabetes
Exercise
Don't see your Application? Contact Us to get our recommendation.
- reproducibly model high-altitude hypoxia
- reproducibly model dynamic hypoxia (ascent) and reoxygenation (descent)
Cell Research - hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
Animal Modeling - hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
- simulate physiological blood O2 levels
- simulate bone marrow O2 niche
- reproducibly model hypoxemia
- reproducibly model hyperoxemia
- induce RBC sickling
- maintain HSC quiescence
- increase HSC yield
- enhance HSC repopulating activity
- promote HSC differentiation
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
- simulate solid tumor tissue O2 levels
- reproducibly model hypoxic tumor core
- simulate blood cancer niche
- induce cancer stem-like traits
- reproducibly model tumor hypoxia/reoxygenation
Cell Research - hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxic incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- provide reproducible PPM-scale CO exposures
- reproducibly model cellular CO signaling
- reproducibly model therapeutic Carbon Monoxide
Cell Research - carbon monoxide chamber with dynamic control of parts per million CO, O2, and CO2 - GT4181C & C-Chamber
Animal Modeling - carbon monoxide chamber(s) with dynamic control of parts per million CO - AT42CO & A-Chamber(s)
- simulate cardiac tissue O2 levels
- promote cardiac lineage differentiation
- induce VEGF expression and angiogenesis
- reproducibly model myocardial ischemia reperfusion injury
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber(s), hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
- analyze cells within non-interrupted, physiologically relevant conditions
Cell-Based Assays - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell-Based Assays - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate cellular physiological O2 levels
- reduce DNA damage
- remove ROS/oxidative stress artifact
- induce oxidative stress/ROS production
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- image cells within non-interrupted, physiologically relevant conditions
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell microscopy chamber(s) - Xvivo System
- reproducibly model hypoxia-circadian patterns
Cell Research - hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
Animal Modeling - hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
- simulate physiologic intrauterine O2 levels
- simulate physiologic embryonic/fetal tissue O2 levels
- reproducibly model developmental/gestational hypoxia
- reproducibly perform trophoblast models of pre-eclampsia
- reproducibly model placental/intrauterine hypoxia
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
- simulate physiologic pancreatic tissue O2 levels
- reproducibly model hypoxic beta cell/pancreatic islet transplant conditions
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- reproducibly model exercise induced hypoxia
Cell Research - hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiologic GI tissue oxygen levels
- preserve genetic integrity
- remove ROS/oxidative stress artifact
- decrease genetic aberration
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiologic liver O2 levels
- induce hepatocyte differentiation
- reproducibly model metabolic zonation of liver
- improve hepatocyte phenotypic stability
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- induce HIF-1 expression
- maintain HIF-1 stabilization
Cell Research - hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxic incubator and cabinet system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- reproducibly model with controlled CO2 levels
- ensure environmental quality with limit-control of PPM CO2 levels
- simulate bone marrow niche O2 levels
- simulate physiologic lymphatic tissue O2 levels
- model pathologic hypoxia conditions during injury/disease
- ensure relevant immune cell function
- reproducibly model conditions during immune cell homing/migration
- increase immune cell expansion
- control immune cell fate decisions
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber(s), hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiologic tissue O2 levels
- model pathologic hypoxia conditions
- increase predictive ability of cell-based assays
- improve correlation between in vitro and in vivo data
Cell-Based Assays - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell-Based Assays - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell analysis chamber(s) - Xvivo System
- remove ROS/oxidative stress artifact
- model pathologic hypoxia conditions
- increase predictive ability of cell-based toxicology assays
- improve correlation between in vitro and in vivo data
Cell-Based Assays - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell-Based Assays - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell analysis chamber(s) - Xvivo System
- reproducibly control intermittent hypoxia
Cell Research - intermittent hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - intermittent hypoxia chamber with dynamic control of O2 - A41 & A-Chamber
Animal Modeling - intermittent hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
Animal Modeling - accessory kit for rapid profiling upgrade to intermittent hypoxia chamber(s) - Quick & Quiet Profiler
- simulate physiologic kidney tissue O2 levels
- reproducibly model kidney injury
- ensure physiologic baseline metabolic phenotype
- remove oxidative stress artifact from stressed metabolic phenotype
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate neurological tissue physiological O2 levels
- reproducibly model ischemia/OGD/stroke
- control neural phenotype lineage commitment
- reproducibly model anxiety
- induce neural plasticity response
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - hypoxia chamber with static control of O2 - P360 & A-Chamber
Animal Modeling - hypoxia chamber(s) with static control of O2 - A84 & A-Chamber(s)
- provide reproducible PPM-scale NO exposures
- reproducibly model cellular NO signaling
- reproducibly model therapeutic Nitric Oxide
Cell Research - nitric oxide chamber with dynamic control of parts per million NO, O2, and CO2 - GT4181N & C-Chamber
Animal Modeling - nitric oxide chamber(s) with dynamic control of parts per million NO - AT42N & A-Chamber(s)
Animal Modeling - nitric oxide chamber(s) with dynamic control of parts per million NO and limit control of NO2 by-product - AT82NN & A-Chamber(s)
- simulate musculoskeletal tissue O2 levels
- model pathologic hypoxia conditions
- increase MSC expansion
- generate appropriate cellular phenotype
- enhance chondrogenic differentiation
- enhance osteogenic differentiation
- enhance myogenic differentiation
- enhance tenogenic differentiation
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber, hypoxia chamber with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiological O2 levels
- reproducibly model hypoxic challenge
- simulate physiologic pulmonary O2 levels
- reproducibly model pulmonary hypertension/PAH
- reproducibly model asthma
- reproducibly model COPD
- reproducibly model pulmonary fibrosis
Cell Research - physiologic oxygen chamber, hypoxia chamber, hyperoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Animal Modeling - hypoxia chamber, hyperoxia chamber with static control of O2 - P360 & A-Chamber
Animal Modeling - hypoxia chamber(s), hyperoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
Redox / ROS / Oxidative Stress
- remove ROS/oxidative stress artifact
- induce oxidative stress/ROS production
Cell Research - physiologic oxygen chamber, hypoxia chamber, hyperoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- reproducibly model therapeutic IH
- induce neural/respiratory plasticity response
Cell Research - intermittent hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - intermittent hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
Animal Modeling - accessory kit for rapid profiling upgrade to intermittent hypoxia chamber(s) - Quick & Quiet Profiler
- reproducibly model sleep apnea IH
Cell Research - intermittent hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Animal Modeling - intermittent hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
Animal Modeling - accessory kit for rapid profiling upgrade to intermittent hypoxia chamber(s) - Quick & Quiet Profiler
Animal Modeling - intermittent hypoxia chamber(s) with dynamic control of O2 and CO2 - A42OC & A-Chamber(s)
- simulate physiological cellular O2 levels
- reproducibly model pathological hypoxia
- increase stem cell yield
- decrease cell doubling time
- improve cell phenotype characteristics
- maintain cell stemness characteristics
- increase cell reprogramming efficiency
- maintain stem cell quiescence
- control stem cell differentiation/lineage commitment
- improve cell engraftment/function
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber(s), hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- optimize conditions for organ/tissue engineering
- simulate physiologic tissue O2 conditions
- model ischemic transplant site conditions
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber(s), hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiologic vascular tissue O2 levels
- improve cell-cell junction adhesion
- induce VEGF expression and angiogenesis
- promote neovascularization
- reproducibly model vascular oxidative stress/ROS production
- reproducibly model pathologic hypoxia/ischemia
Cell Research - physiologic oxygen chamber, hypoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen chamber(s), hypoxia chamber(s) with dynamic control of O2 and CO2 - C42 & C-Chamber(s)
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
- simulate physiologic O2 levels in ocular tissue
- maintain multipotent properties of retinal progenitors
- control differentiation to desired ocular lineage
- remove ROS/oxidative stress artifact
- induce oxidative stress/ROS production
- induce ocular angiogenesis
- reproducibly model ROP and OIR
Cell Research - physiologic oxygen chamber, hypoxia chamber, hyperoxia chamber with static control of O2 and CO2 - C21 & C-Chamber
Cell Research - physiologic oxygen incubator and hood system, hypoxia workstation, hypoxia glove box with independently programmable control of O2, CO2, and Temperature in one (or more) modular incubator chamber(s) and/or cell handling chamber(s) - Xvivo System
Animal Modeling - hyperoxia chamber, hypoxia chamber with static control of O2 - P360 & A-Chamber
Animal Modeling - hyperoxia chamber(s), hypoxia chamber(s) with dynamic control of O2 - A84 & A-Chamber(s)
