Posts Tagged ‘stem cell therapies’

Pointers About Embryonic Stem Cells

Tuesday, July 14th, 2009

stem cells research

What if human cells could be stimulated to regenerate body parts or repair damaged tissues in the same way that earthworms or planarians can? Embryonic stem cells are the most versatile type of cells to work with because they can differentiate into any kind of cell in the body. Adult stem cells are more tissue-specific, although the body responds better to its own stem cells in therapy. In order for stem cell therapies to work, the body’s immune system must be suppressed so there is no reaction to the transplanted cells. Additionally, scientists must take special care to ensure the cells proliferate enough to heal the body but not so much that cancer develops.

There are two types of stem cells research. One involves the use of embryonic stem cells and the other involves the use of adult stem cells. The embryonic cells come from a one-week-old mass of cells called a blastocyte. Many of the fetal stem cells come from in vitro fertilization patients who had leftovers after receiving fertility treatment. A single embryo can create enough lines of cells for use in Stem cell therapies. Tissue from aborted fetuses is not regularly used in stem cell research. What makes an embryonic stem cell so special is that it can develop into any organ or tissue. Stem cell therapies can help treat diseases like heart or Parkinson’s disease, as well as burn or stroke victims and patients with spinal cord injuries, muscular dystrophy, arthritis and diabetes.

Though fetal stem cells have been the focus of most of the research, scientists are discovering that adult stem cells are particularly effective in transplants. For instance, they can grow an entire organ, a section of the windpipe or a section of tissue to offer the human host, which will most certainly accept the new cells derived from its own DNA. Another alternative to using embryonic stem cells is under current examination. It involves stimulating adult stem cells to revert back to their “pluripotent” state, which allows them to proliferate again. It’s believed that humans may be able to regrow lost skin or repair other tissues this way, although more research is needed before human trials can begin to prove this theory.

In recent stem cell news, the Harvard Stem Cell Institute (HSCI) and Massachusetts General Hospital discovered that a medication for bone marrow cancer can affect osteoporosis in mice by acting upon mesenchymal stem cells, which differentiate into several tissue types. “Stem cell therapies are often thought of as putting new cells into the body,” said David Scadden, director of the MGH Center for Regenerative Medicine, “but this study suggests that medications can turn on existing stem cells that reside in the body’s tissues, acting as regenerative medicines to enhance the body’s own repair mechanisms.” Therefore, instead of relying on controversial embryonic stem cells, a person’s own stem cells can be used in the treatment.

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Taking A Look At Embryonic Stem Cell Research

Tuesday, July 14th, 2009

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Despite the stem cell controversy offered up by pro-lifers, a rosy portrait of embryonic stem cell research is often painted. We’re told that adult mouse cells can turn back to their more flexible, embryonic state again. We’re told that human trials will begin for treating spinal cord injuries. We’re told that the next five years will likely see a viable treatment for Alzheimer’s, Parkinson’s and heart disease. President Obama is so confident in the science that he agreed to reverse Bush’s decision and allocate funds to the controversial science. Yet many Californians who voted to fund stem cell research in their state five years ago are wondering where the results are.

“The likelihood of something going wrong is pretty high,” warns Arnold Kriegstein of UC San Francisco’s Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research. “Something like tumors are probably going to happen. This is an area where the risks are great. The public has to be prepared.” He points to a recent story of a teenage boy who traveled from Israel to Russia to undergo stem cell therapies only to find he had little more than a brand new brain tumor four years later. Embryonic stem cell research is far from perfect, Kriegstein admits, and it could take many years before taxpayers see a return on their $3 billion investment.

In some ways, the qualities that make the embryonic stem cell great also make it formidable. Their ability to differentiate into almost any type of tissue, organ or cell has long captivated researchers. However, occasionally stem cells embryonic mutations occur, which is a hideous spectacle no scientist wishes to stumble upon. A teratoma is a hideous-looking tumor that looks like an amalgamation of various organs, tiny hands, heads, teeth, hair and cancer. While many animal trials show promise, the stem cells cure should not be rushed before scientists reach a better understanding of how these specialized cells actually work.

Even though there are numerous roadblocks to widespread embryonic stem cell research, there have been some causes to celebrate. For the first time, U.S. researchers at the University of California at San Francisco have transformed adult mouse stem cells back into their “pluripotent” embryonic state, meaning that they can morph into any cell type. Scientists say this will significantly decrease the cancer risk and will also negate the need for harvesting fetal stem cells.

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An Overview Of The Human Embryonic Stem Cells

Saturday, July 11th, 2009

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Human embryonic stem cells are a relatively new field of research. The first human stem cell was isolated for experiments by Dr. James Thomson from the University of Wisconsin in 1998. A ban on federal funding for research involving fetal stem cells further stymied research possibilities for many years until former President Bush allowed some of the frozen stem cell lines to be used for research, rather than discarded. Then President Obama lifted the federal ban entirely. As a result, human stem cell research is still in its early stages, but human clinical trials are expected to begin this summer.

There are three classes of human embryonic stem cells. A fertilized egg is “totipotent,” which means that it can give rise to any type of cell in the body. A “pluripotent” stem cell can become any type of cell in the body (except for those required to develop a fetus). “Multipotent” cells can give rise to a small number of other cell types. These fetal stem cells are usually taken from embryos and used to create “stem cell lines,” which can be grown forever in a laboratory setting. While most stem cells come from young embryos that are just 3 to 5 days old, some pluripotent stem cell lines may be derived from fetal tissue that is beyond 8 weeks old.

There are several traits that make human embryonic stem cells preferable for stem cell therapies. For one, these early developmental cells are a blank canvas. These cells have no particular tendency to become anything specific but may be encouraged to become one of 200+ cell types. Additionally, fetal stem cells can remain in this protean, undifferentiated state for long periods of time and may divide or self-renew indefinitely. Therefore, it’s easier to create mass quantities of embryonic stem cells for use in adult stem cell research.

Even though research using human embryonic stem cells was limited to select states that passed ballot initiatives, underground, privately-funded scientists have been working diligently since 1998 to find ways to use not just fetal stem cells but also adult human stem cells. It was previously believed that embryonic stem cells were versatile, able to become any of 200+ cell types and that adult stem cells were confined to only replicating more specialized cells of a similar nature. In late 2007, scientists found a way to reprogram adult stem cells to behave like embryonic stem cells that will form a number of other tissues, rather than just the tissue it was derived from. More studies are needed to determine whether these manipulated cells are safe for use in humans, but the findings are significant.

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