Showing posts with label Regenerative Medicine. Show all posts
Showing posts with label Regenerative Medicine. Show all posts
Friday, November 22
Death Might be an Illusion
What happens after we die? While many believe that death is the end, quantum physics suggests that it might not be as simple as we think.
In fact, it could be an illusion. This idea challenges everything we know about life and death. By looking at concepts like the interconnectedness of all things and the nature of consciousness, here’s to a whole new perspective on life after death.
Dr. Robert Lanza, a leading expert in biotechnology, plays a major role in this idea. He’s the Chief Scientific Officer at the Astellas Institute for Regenerative Medicine, where he studies stem cells and how they can be used to treat diseases.
Before this, Dr. Lanza focused on researching embryonic stem cells and cloning, working with both animals and humans. He is also an adjunct professor at Wake Forest University School of Medicine in North Carolina. READ MORE...
Monday, August 28
Turning Cells into Stem Cells
For decades, scientists have been able to create stems cells—known as induced pluripotent stem (iPS) cells—from somatic cells, such as those found in our skin.
However, these iPS cells still retain ghosts of their cellular pasts, which makes them less effective as a therapeutic tool.
A new study, using a method called transient-naïve-treatment (TNT) mimics the normal reprogramming process in early embryonic development to essentially wipe a cell’s memory, making these cells more similar to embryonic stem (ES) cells both molecularly and functionally.
Stem cells are the raw materials of the human body—they’re the original cells from which almost all other cells with specialized functions originate. So, the ability to use these cells in therapeutic treatments is immensely important. So important, in fact, that over the past couple of decades, scientists have devised ways to reprogram non-reproductive cells, also known as somatic cells, into embryonic stem (ES) cells known as induced pluripotent stem (iPS) cells.
This process is central to the field of regenerative medicine, which replaces diseased cells with healthy ones derived from these iPS cells. But there was just one problem—these reprogrammed cells retained ghosts of their past lives, making these treatments less effective than they otherwise could be.
“A persistent problem with the conventional reprograming process is that iPS cells can retain an epigenetic memory of their original somatic state, as well as other epigenetic abnormalities,” Ryan Lister, from the Harry Perkins Institute of Medical Research and The University of Western Australia, said in a press statement. “This can create functional differences between the iPS cells and the ES cells they’re supposed to imitate, and specialized cells subsequently derived from them, which limits their use.” READ MORE...
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