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Unregistered User
(9/3/02 8:22 pm)
Stem Cell Implants and New Blood Vessels

Unregistered User
(9/3/02 8:23 pm)
Article Intro.
Associated Press


Thursday, August 8, 2002

LONDON (AP) - Injecting patients' own stem cells into their leg muscles could create new blood vessels, eliminating pain from bad circulation and helping to prevent gangrene or the amputation of feet or legs, new research indicates.

The research, described this week in The Lancet medical journal, is the first demonstration that implanting stem cells into humans can result in the growth of new blood vessel networks, a process called angiogenesis.

Experts say the study's findings are promising and offer hope to millions of people worldwide who suffer from pain in their limbs because of clogged arteries but can't have an operation.

Controlling blood vessel growth is an emerging field of medicine.

In cases such as cancer, which spreads by sprouting its own blood vessel network, scientists are testing drugs designed to thwart angiogenesis.

When parts of the body are starved of oxygen because blood vessels supplying them are blocked, doctors want to boost blood vessel growth - treatment they call therapeutic angiogenesis.

The main focus of research is on the heart, limbs and - in the future - brain, where heart attacks, strokes and limb amputations can result from severe circulation problems. Another hot target is sores that fail to heal.

Experiments so far have involved infusing human proteins needed for new blood vessel growth into the veins or injecting muscles with genes that make the proteins.

``This is truly a landmark paper because of its use of stem cells to induce angiogenesis,'' said Dr. William Li, president and medical director of the Boston-based Angiogenesis Foundation.

``It's a brand new approach to treating limbs starved of blood supply,'' Li said. ``They were able to eliminate rest pain in 80 percent of their patients. That is striking. You don't see that with other treatments.''

The study was conducted by scientists at three Japanese universities: Kansai Medical University in Osaka, Kurume University School of Medicine in Kurume and Jichi Medical School in Tochigi.

It involved 45 people with severe blood circulation problems in their legs. About half of them had already had a bypass operation in their legs, nearly half had gangrene and 69 percent had diabetes. Many had sores that wouldn't heal, pain in their legs just sitting in a chair and were not suitable for surgery or other artery-widening techniques.

The first part of the experiment involved 25 of the patients in a pilot study to test how many people would be needed to demonstrate whether the treatment made a difference.

In the pilot study, bone marrow was extracted from the patients and cells injected into their worst leg, and saline solution implanted into their other leg.

The main study involved 20 other people in whom both legs were critically starved of blood flow. They had their bone marrow stem cells injected into one leg, randomly chosen, and regular blood injected into the other leg. Before the experiment, everyone had an angiogram, a scan which shows the blood vessel network.

The scientists used several measurements to gauge the success of the treatment.

The legs that got the stem cells had more improvement than the others on a test comparing blood pressure in the ankle with that in the arm before and after treatment. Similar results were seen in a second circulation test that measured differences in oxygen inside and outside tissues.

Pain while sitting down disappeared in the stem-cell-injected legs of 16 of the 20 people in the main study, but 17 out of the 20 legs that got the blood injection remained painful. That improvement lasted for the six months of the study.

X-rays before and after the implantation showed increased blood vessel networks in 27 of the 45 who got the stem cells in the two studies.

Toe amputations were avoided in 15 out of 20 people, and unhealed wounds improved in six out of the 10 patients who had them.

Ira Herman, a professor of physiology at Tufts University who researches the biology of blood vessels, said the most impressive findings came from leg specimens of one patient who got the stem cells in one leg and saline in the other but had died half way through the trial, of an unrelated heart attack. The examination found a striking increase in blood vessel numbers in the leg that had been injected with stem cells compared with the leg that got saline.

``It's just remarkable,'' he said.

The X-rays could have reflected simply better blood flow through vessels that had already existed before the treatment, but the evidence from the leg specimens was compelling, Herman said.

``It's extremely hopeful,'' he said. ``You can't help but be impressed by the collection of data.''

One question that remains unclear is whether the stem cells actually became blood vessel cells or whether they simply released growth factors that prompted other cells to construct the new vessels.

Dr. Frank Sellke, chief of cardiothoracic surgery at Harvard Medical School whose research involves angiogenesis proteins, said the approach using the stem cells may have a great potential.

``There is evidence that the bone marrow cells will actually seek out the most (starved) territory. They will circulate and go to where they are needed,'' he said.

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