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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.
How Cancer Spreads in the Body
Cancer cells appear to depend on an unusual survival mechanism to spread around the body, according to an early study led by Queen Mary University of London.
Tumor Cells Develop Predictable Characteristics
Scientists have discovered that cancer cells at the edge of a tumor that are close to the surrounding environment are predictably different from the cells within the interior of the tumor.
What Makes a Good Scientist?
It’s the journey, not just the destination that counts as a scientist when conducting research.
How Prions Kill Neurons: New Culture System Shows Early Toxicity to Dendritic Spines
Boston University researchers have developed a cell culture system to study prions.
A Boost for Regenerative Medicine
Growing tissues and organs in the lab for transplantation into patients could become easier after scientists discovered an effective way to produce three-dimensional networks of blood vessels, vital for tissue survival yet a current stumbling block in regenerative medicine.
Benchtop Automation Trends
Gain a better understanding of current interest in and future deployment of benchtop automated systems.
Bio-Mimicry Method For Preparing & Labeling Stem Cells Developed
Method allows researchers to prepare mesenchymal stem cells and monitor them using MRI.
Stem Cell Advance Could Be Key Step Toward Treating Deadly Blood Diseases
UCLA scientists get closer to creating blood stem cells in the lab.
Harnessing Engineered Slippery Surfaces For Tissue Repair
A new method could facilitate the transfer of intact regenerating cell sheets from the culture dish to damaged tissues in patients.
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Cell Viability in 3D Culture using in situ Bioluminescence
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KIYATEC

The paradigm shift from two-dimensional (2D) to 3D cell culture techniques1 has grown rapidly with a 153% increase in 3D cell culture research publications from 2007 to 2008.2 As compared to 2D, 3D culture conditions help organize cells into tissue-like structures that are more similar in form and function.3 Oncology researchers are actively pursuing 3D cell culture techniques to gain the benefits of this more biologically-relevant environment in drug discovery and development, but barriers of lack of a universal and cost-effective 3D culture system have prevented widespread adoption of 3D techniques.

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