Stretching cells to learn more about them
A tool developed at EPFL can stretch and compress cells, mimicking what happens in the body. The aim: to study the role played by these mechanical forces in cases of cancer or lymphatic diseases.
A tool developed at EPFL can stretch and compress cells, mimicking what happens in the body. The aim: to study the role played by these mechanical forces in cases of cancer or lymphatic diseases.
Cell & Microbiology
Sep 5, 2016
0
315
Through RNA sequencing, researchers can measure which genes are expressed in each individual cell of a sample. A new statistical method allows researchers to infer different developmental processes from a cell mixture consisting ...
Cell & Microbiology
Aug 31, 2016
0
0
Researchers have developed a live-cell-imaging-based system that provides molecular and biomechanical insights into how Lyme disease bacteria latch onto and move along the inside surface of blood vessels to reach key destinations ...
Cell & Microbiology
Aug 25, 2016
0
1154
Researchers at the University of Pennsylvania have developed the first placenta-on-a-chip that can fully model the transport of nutrients across the placental barrier.
Biochemistry
Jul 22, 2016
1
1231
Hemostasis is a highly regulated process with key function for human life. The process is based on a rather complex interplay between endothelial cells, plasmatic coagulation and platelets. Deregulated hemostasis can result ...
Bio & Medicine
May 12, 2016
0
17
With less than two months left aboard the International Space Station, ESA astronaut Tim Peake has been exceptionally busy with experiments and arriving spacecraft. Tonight, the third supply vessel for the space laboratory ...
Space Exploration
Apr 11, 2016
0
10
Nanotechnology has led to better diagnostic techniques and more effective treatments for a variety of illnesses. Tiny devices measuring between 1 and 100 micrometers—one micrometer is equal to one millionth of a meter—enable ...
Bio & Medicine
Mar 29, 2016
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305
Duke engineers have developed a technique to make artificial arteries that naturally produce biochemical signals vital to their functions. The technique is also ten times faster than current methods for tissue engineering ...
Materials Science
Feb 18, 2016
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11
An estimated 30 percent of the world's population is chronically infected with the parasite Toxoplasma gondii. Most people live with the infection without noticeable effect, but it can be life-threatening for people with ...
Cell & Microbiology
Feb 15, 2016
0
59
By genetically reprogramming the most common type of cell in mammalian connective tissue, researchers at the University of Wisconsin-Madison have generated master heart cells—primitive progenitors that form the developing ...
Biotechnology
Feb 11, 2016
0
45