Application notes

Written by scientists for scientists, these papers cover a wide range of applications and highlight novel ways to optimize one’s research with our devices, technologies and consumables.

The long-distance transportation of mammalian cells usually requires cryo-preservation in dry ice or liquid nitrogen. Both of these methods are hazardous in nature and associated with high shipping costs. Here, we present the cost-effective shipping of 3D bioprinted constructs at ambient temperature using a novel encapsulation technology WellReady™ from Atelerix.

Room-temperature Transport of 3D Bioprinted Constructs Using WellReady™ In-plate Preservation

The long-distance transportation of mammalian cells usually requires cryo-preservation in dry ice or liquid nitrogen. Both of these methods are hazardous in nature and associated with high shipping costs. Here, we present the cost-effective shipping of 3D bioprinted constructs at ambient temperature using a novel encapsulation technology WellReady™ from Atelerix.
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