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Genetic Variability in Cell Bank Lots
Researchers working with cancer cells from the same cell bank acquired at the same time, found that the cells were genetically different.
3D Models May Yield Ovarian Cancer Insights
Researchers are developing new tools to decipher ovarian cancer developments through a 3D printing technology.
A Novel Cell Culture Model For Forensic Biology Experiments
Researchers have developed a new cell culture model which provides an efficient research tool in forensic biology.
Mapping Zika’s Routes to Developing Fetus
UC researchers show how Zika virus travels from a pregnant woman to her fetus, and also identified a drug that could stop it.
3D Printing Cartilage
3D bioprinting has successfully manufactured cartilage using bioink sourced from cow cartilage strands.
New Device can Study Electric Field Cancer Therapy
Microfluidic device allows study of electric field cancer therapy through low-intensity fields, preventing malignant cells spreading.
Scientists Culture Elusive Yellowstone Microbe
ORNL scientists have successfully isolated and cultured a Yellowstone sourced acidic hot-spring based microbe.
A 3D Paper-Based Microbial Fuel Cell
Researchers have developed a proof-of-concept 3D paper-based microbial fuel cell (MFC) that could take advantage of capillary action to guide the liquids through the MFC system and to eliminate the need for external power.
Just Gellin’: How To Grow Strong Muscles-On-A-Chip
USC researchers hope to usher in new treatments for patients with muscular dystrophy.
Lasers Carve the Path to Tissue Engineering
A new technique, developed at EPFL, combines microfluidics and lasers to guide cells in 3D space, overcoming major limitations to tissue engineering.
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Tecan

Tecan’s new patent pending Gas Control Module (GCM) is an innovative solution for cell-based experiments, offering rigorous environmental control within the detection chamber. The pH of cell culture media is typically maintained by a bicarbonate buffer system, using precise control of atmospheric CO2 partial pressure to stabilize the buffer system. Common cell culture incubators are therefore equipped with sensor-based CO2 controls, maintaining a defined atmospheric CO2 level (ranging from 3 to 10 %) to avoid pH shifts which would prevent proliferation or cause cell death.

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Tecan and TAP Biosystems Announces a Co-Marketing Agreement
Companies to automate RAFT™ 3D cell culturing on the Freedom EVO®.
Thursday, November 01, 2012
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