Bone Marrow Cells Repair Heart

Science Daily is reporting that Toronto researchers have discovered a method to utilize bone marrow cells in the repair of a damaged heart after a heart attack. From the article: "While it has long been known that bone marrow cells have the ability to clear the dead tissue after a heart attack, what has not been known until now is the critically important role of bone marrow adult stem cells in repairing a damaged heart, restoring its function and enhancing the growth of new blood vessels."

Re:Way to go Canada

[Dunbal]

research revolving exclusively around adult (stem) cells

      I had the opportunity to sit into a session of the cardiology department at a large hospital here in Costa Rica, where the attendings were planning to do this kind of research in humans. Since I was only rotating through for a month as an intern, I never found out if they actually got the project started or not. Probably not. This was about 2 years ago and I haven't seen anything published.

      Still it was interesting stuff, the haematologist who was visiting us went into a lot of detail. One of the problems they've had with the mice, apparently, is that these stem cells regenerate TOO MUCH myocardium (heart muscle). Apparently there were instances where heart muscle would colonize the injection sites and start growing outside the heart, in the thoracic cavity - tumour style.

      One thing I will remember forever from this meeting was the department head, when she expressed surprise at the fact that yes, the patients DO have to be told what we're trying to do to them and yes, they DO have to give permission FIRST.

      Anyway this research is promising but it's a long way from being used in humans routinely, so it's still a good idea to quit smoking...

Re:Call to action

[Dcnjoe60]

Of course, since this research used adult stem cells, it would be totally legit in the United States. So, the real question is how many lives or cures are lost chasing the holy grail of fetal stem cell cures when to date all of the research, world-wide, points to adult stem cells holding the best promise.

The debate in the U.S. isn't even about fetal vs adult stem cells. It's about who pays for it. The U.S. government hasn't banned fetal stem cell research. It just won't pay for it. If the promise is so good, where are the venture capitalists? They aren't to be found, which is why the fetal stem cell researchers want government funding. The reason the venture capitalists aren't to be found is because they are pouring money into adult stem cell research, not for moral reasons, but because the science shows it has the highest chance of success and therefore the lowest financial risk.

This Canadian finding is just one more confirmation of what the business people already know. The real question is why doesn't the main stream media in the U.S. run with this story?

Re:Way to go Canada

[ehrichweiss]

Dunno where you live but here(I'm in KY), the moment you say you refuse to allow treatment for the child in a life threatening situation, for whatever reason, the child becomes a ward of the state and all of your parental rights are suspended. They simply file claiming child abuse and then go about their own way regardless of your religious affiliation. Refusal to comply beyond that jeopardizes custody of any other children you might have. I've seen this in action at least 4 times in the past 10 years and my friend in social services says it's entirely legitimate.

You can refuse immunization, etc. but if it's a life threatening situation the game changes entirely. Many states have this, AFAIK.

Re:Should We Be Throwing Some In The Freezer?

[Doctor+Beavis]

You are exactly right that aging can have a profound effect on stem cells. There is a wealth of data that suggests decrements in function and plasticity with increased age and comorbid conditions such as alcohol use, diabetes, or renal failure in the donor (see Dimmeler in JACC, 2002 and Rauscher in Circulation, 2003 for more details). A Chinese group studied the biological characteristics of human bone-marrow-derived mesenchymal stem cells from donors of different ages and found that the expansion ability and cytokine production of cells was lowest in cells from donors over the age of 40 (sorry, don't have the reference handy). Multiple other groups have also demonstrated decreased proliferation in cells derived from older donors and proliferation capacity appears to be inversely correlated with telomere length. Differentiation capacity of mesenchymal stem cells from older donors has been shown to be decreased in multiple studies, with some reports measuring a decrement as soon as 40 years of age.

A lot of people who would stand to benefit the most from "stem cells" (older, more medical problems) therefore are also disproportionately likely to have fewer cells with less regenerative capacity. One potential solution is to get cells from other people. A key problem with most adult cells (received from other adults) is the risk of immunologic rejection. This is likely to be much less of a problem with embryonic-derived cells, which don't express as many immunologically pertinent proteins. We just don't know what the best cell type will be - yet another reason to study both cell types in parallel.