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Gene therapy prevents blindness in an animal model of mitochondrial dysfunction 9/8/2008

New stem cell tools to aid drug development 9/7/2008

Updated Guidelines For Stem Cell Research Released 9/7/2008

USC Breaks Ground on Stem Cell Center 9/6/2008

Cardiac cell transplant studies show promise in cardiac tissue repair 9/5/2008

Scientists reveal changes to embryonic stem cells caused by Down syndrome 9/5/2008

Hearing restoration may be possible with cochlear repair after transplant of human cord blood cells 9/4/2008

Stem cell transplantation benefits mice with childhood motor neuron disease 9/3/2008

Blood vessel cells are instructed to form tube-like structures 8/31/2008

Engineers Create Bone that Blends into Tendons 8/30/2008

Researchers Devise Means To Create Blood By Identifying Earliest Stem Cells 8/29/2008

Stem cells stand up for themselves 8/26/2008

$3.2 Million for Rutgers to Apply New Mix of Biology, Engineering, Physical Sciences toward Stem Cell Breakthroughs 8/25/2008

Bone marrow stem cells may help control inflammatory bowel disease 8/22/2008

Limbs saved by menstrual blood stem cells 8/21/2008

Researchers tap into a new and potentially better source of platelets for transfusion (7/29/2008)

Tags:
stem cells, blood

Clot-forming blood cells, or platelets, can drop to dangerously low levels in diseases such as anemia and in patients undergoing chemotherapy. To replace these critical cells, doctors filter platelets from donated blood, but this approach can increase the risk of transmitting blood infections and cause other side effects in patients who need frequent transfusions.

To get around these problems, scientists have been trying to generate platelets from embryonic stem cell lines. But stem cells also give rise to other types of cells, which tend to quickly outnumber the platelets. The Japanese group solved this problem with a simple refinement-they started with a stem cell population that was already committed to becoming platelets.

Another problem with making platelets from stem cells is that the resulting platelets often fail to form clots properly. This defect can be caused by the presence of enzymes that shear adhesive proteins from the cells' surface, preventing them from sticking to one another or to blood vessel walls. The researchers found these enzymes in their laboratory cultures and showed that blocking them restored platelet function when the cells were infused into injured mice. The scientists now plan to test whether the same approach will work in humans.

Note: This story has been adapted from a news release issued by the Journal of Experimental Medicine

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