Fri, 08/03/2012 - 8:46am STEM CELLS Translational Medicine
A team of scientists from Albert Einstein College of Medicine, has developed methods to increase the production of red blood cells from stem cells, a discovery that could dramatically boost the blood supply available for transfusions. In the latest issue of STEM CELLS Translational Medicine, researchers Eric Bouhassira, Emmanuel Oliver and Caihong Qiu published data on a promising new method of growing red blood cells in the lab.
Using human stem cells from sources such as cord blood and circulating blood as well as embryonic stem cells, they produced a much higher yield of red blood cells than has previously been possible. “We combined different cell expansion protocols into a ‘cocktail’ that increased the number of cells we could produce by ten to 100 fold,” Bouhassira says.
Blood transfusions, developed more than 80 years ago, are essential component of many surgeries, trauma medicine and blood cancer therapies. Blood transfusions are one of the primary treatments for people with sickle cell anemia and other blood diseases. However, the blood needed for such transfusions is obtained only through donations and can be in short supply, particularly for chronically transfused people who require rare blood groups. The methods described by the researchers can be used to produce blood with any blood groups. “The ability of scientists to grow large quantities of red blood cells at an industrial scale could revolutionize the field of transfusion medicine,” Bouhassira says. “Collecting blood through a donation-based system is serving us well but it is expensive, vulnerable to disruption and insufficient to meet the needs of some people who need ongoing transfusions. This could be a viable long-term alternative.”
More than 1010 cultured red blood cells can now be produced using a single plate of ES cells. Combining all the known expansion methods might lead to an additional one to two orders of magnitude increase in the number of cells that can be produced from a single plate of hESCs. Therefore, production of the CD34+ cells necessary to feed bioreactors capable of producing hundreds of units of red blood cells per weeks could be done using relatively low numbers of pluripotent stem cells.
“Being able to produce red blood cells from stem cells has the potential to overcome many difficulties of the current system, including sporadic shortages,” says Anthony Atala, editor of STEM CELLS Translational Medicine and director of the Wake Forest Institute for Regenerative Medicine. “This team has made a significant contribution to scientists’ quest to produce red blood cells in the lab.”
This work was funded in part by NYSTEM, the funding agency of New York State Empire Stem Cell Board.
subject related stories..This is amazing technology, it's incredible to me that I am living at time when this technology is at it's absolute infancy and the potential is only now being realized. So amazing !!!
"We generated approximately 1010 to 1011 erythroid cells per six-well plate of hESCs using this system"
The problem is not the scale up...would like to read the actually scientific publication as surprisingly I understand a bit of it
like i said before if we pulled another preclincal paper out our hat ...the position of strenth is there and maybe we get away with less than 80.......I expect a PR soon as they are pumpin them out like Arnold