Human cells grow blood vessels in mice

July 20, 2008

Researchers in the United States reported Saturday that cells from human bone marrow, blood and umbilical cords successfully grew into blood vessels after being placed in mice. The group at and  stated that the human cells, referred to as "", connected to the circulatory system of the mice. The team, lead by Harvard associate professor of medicine Joyce Bischoff, reported their findings in the journal Circulation Research, published by the American Heart Association.

Juan M. Melero-Martin, a co-author of the paper in Circulation Research, said that one of the project's goals is to be able to replace some types of heart surgery with an injection of cells grown in a lab that could develop into functioning blood vessels.

"For clinical use, the way we envision it, if a patient has need to vascularize ischemic tissue, we can get cells from the patient ahead of time, grow them and inject them back into the patient," said Melero-Martin.

Ischemic tissue refers to tissue that has been damaged due to a lack of blood flow from blocked arteries or other causes. Researchers hope to be able to speed up the process of repairing damaged tissue and vessels in the heart to a period of one or two days. The procedure could potentially be used to treat organs damaged by heart attacks, or other ailments which impede circulation.

Due to their controversial nature the research team did not use stem cells in their study, but rather relied on progenitor cells taken from or blood. "Our next goal down the line is to use them in humans. We need to do a lot more animal studies to test how these cells behave in different tissues," said Joyce Bischoff.

Dr. Nick Rhodes of the UK Centre for Tissue Engineering at the University of Liverpool described the results of the study as "interesting and promising", and commented: "Although this approach is not yet suitable for clinical use, it is interesting that they have demonstrated you have all the elements you need to create a functional network of capillaries from a small amount of blood."