Key Questions About Oxygen Control in CO₂ Incubators

Correctly Applying Hypoxia to the Growth of Cell Cultures

When it comes to the in vitro cultivation of demanding animal cells, simulating real physiological conditions in CO₂ incubators is particularly challenging for the technology used. This is even more evident when researching human or mammalian cell cultures. This article explains why the oxygen concentration in particular plays a key role in cell growth.

Hypoxia as a Growth Accelerator

The in vitro cultivation of demanding mammalian cell cultures in CO₂ incubators is extremely challenging for the lab technology used. The aim is usually to simulate real physiological conditions. These are primarily provided by the culture medium and the vessel, but the incubator also controls four key factors: the temperature, the CO₂ concentration, the osmolarity, and also the oxygen partial pressure.

Normoxia – the Benchmark for Ideal Cell Growth

If you simulate the human organism as a " working environment", then the correct oxygen supply plays a key role in the response of the cells. Quicker cell proliferation is usually a good indicator of this. When the oxygen supply is normal in a healthy human being, we call this normoxia. This describes the physiological O2 partial pressure in the cell tissue. Research findings from recent years show that the oxygen concentration varies widely in the different types of cells in the human body and is often under 21 percent, which is typical in the laboratory (normoxia).

Precise Regulation of the Oxygen Concentration

Fatty tissue, for example, has an oxygen concentration of around 10 to 15 percent, whereas, in the bone marrow, this is approximately 6 to 7 percent. Lots of types of cells, therefore, grow best with a reduced oxygen concentration. The lower oxygen concentration provides a better simulation of the physiological conditions. We call refer to an oxygen oncentration below the standard value (normoxia) as hypoxia.

Applications of CO₂ Incubators for Cultivating Cell Cultures

For the in vitro cultivation of cell cultures in CO₂ incubators, the term hypoxia does not refer to research on the disorder “hypoxia” (or it only refers to this in exceptional cases). Instead, it means cell cultivation under conditions with a reduced amount of oxygen.

The area of application is extremely broad and stem cell research is a prime example. Hypoxic conditions are also ideal for researching primary cell cultures and embryo cultures. CO₂ incubators used for purposes like this must have an oxygen supply that can be adjusted at will. In addition to hypoxia, this also makes it possible to simulate hyperoxic conditions (21 to 90%), which are ideal for researching sensitive tissue, such as the lung or retina.

Reducing the oxygen content to a certain constant level in a controlled manner is a complex process and needs to be repeated every time the chamber is opened. CO₂ incubators which can master this task are rare. Every time you open the test chamber, this is a risk that the pH of the medium will increase, which will cause alkalosis of the cell cultures. This occurs as a result of the sharp drop in the CO₂ concentration. Good incubators, therefore, guarantee quick CO₂ recovery times.

BINDER CB CO₂ Incubator Series for Cultivation Under Hypoxic Conditions

The BINDER CB CO₂ incubator series provides excellent growth conditions for cell and tissue cultures, precise control of oxygen concentrations down to 0.2 vol% and a program-controlled hot air 180°C decontamination cycle. The BINDER CB series is the premium range for all sensitive incubation tasks. Even during complex cultivation experiments or individual environments under hypoxic conditions, it is easy to grow thanks to suitable variants and a comprehensive assortment of options and accessories.