Doctors research use of stem cells to grow new bone

York: Doctors in the UK are investigating how bone can be grown from baby stem cells to replace diseased joints.

At present stem cells from the umbilical cords of babies are used to treat leukaemia patients, but researchers at York University hope to find a new use for the two million units of cord blood collected every year in Europe.

Doctors already believe the process is possible but now need clinical proof, which is being funded by the EU to the tune of £1.6 million. Last year doctors in Germany replaced part of the skull of a child using stem cells taken from body fat, which appeared to turn into bone cells.

Scientists grow joint cartilage from stem cells

London: Stem cells have been used to grow cartilage in a breakthrough that could eventually mean fewer patients need hip and knee replacements.

Scientists from Imperial College London have used stem cells from embryos to make new cartilage that can be injected into damaged joints. The development may mean that the technology can be used for patients with sports injuries and age-related disasters such as osteoarthritis.

Cartilage is a smooth, flexible layer of tissue that sits between the bones in the body’s major joints. Its job is to act as a shock absorber, protecting the joints against impact damage and from wear and tear.

The Imperial College scientists combinedthe stem cells with a few cartilage cells extracted from healthy joints. Although the technique has yet to be used in humans, the team behind the research is confident it has major advantages over existing cartilage production methods.

Scientists 10 years from growing teeth

London: Medical research teams in the US and Europe are heading towards a technique that can grow adult teeth. Growing teeth would be a more natural and cheaper alternative to dentures, dental implants and bridges

In London researcher Paul Sharpe of Kings College, is seeking funding of $5.2 million to begin testing people within three years. The teeth would be “completely normal and identical in every way to existing teeth.”

He plans to use stem cells grown in a lab which are then reimplanted at the site of the missing tooth. It would take about two months to grow into a full tooth. It is estimated that the technique is ten years away from fruition.

While in Chicago, Tom Diekwisch of the University of Illinois is studying tooth regenration in animals.

Different teams are using different approaches. But the techniques generally involve directing immature stem cells to develop into tooth tissue.

At the US Harvard School of Dental Medicine another team headed by Pamela Yelick has used rat stem cells to grow well-formed crowns, with layers of enamel, dentin and pulp. Her team also has grown pig tooth crowns.

It is likely that tooth repairs will precede whole teeth. Stem cells could, for example be used to repair cracked teeth rather than use synthetic materials. It also might be possible to regenerate pulp inside the tooth, thereby eliminating the need for root canals.

The key to growing or regenerating teeth is coaxing stem cells to do the job. A stem cell is an unspecialized cell that can develop into a specialized cell.

Stem cell research is under way on many fronts. For example, researchers hope to coax stem cells to produce insulin for diabetics, regenerate heart muscle for cardiac patients or repair spinal cord injuries for paraplegics.

Some researchers are obtaining stem cells from human embryos, which opponents consider unethical because embryos are destroyed in the process. But the stem cells that would be used to grow or repair teeth would not come from embryos. They instead could be obtained from such sources as the patient’s mouth, jaw, blood or existing teeth. Some researchers prefer to use the term progenitor cells.

Although improved dental care is enabling more people to keep their teeth, tooth loss remains a huge problem. By age 44, nearly seven in 10 American adults have lost at least one tooth to decay or gum disease. And about one in four elderly adults have lost all of their teeth.

It costs anywhere from $1,500 to $3,000 to replace a lost tooth with an implant or a bridge.

What is stem cell therapy?

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These miraculous cells have the potential to heal all kinds of degenerative conditions and injuries. Research is on-going but stem cells appear to work by migrating to the site of disease and dividing to replace the damaged cells. Reseach so far appears to show they have the potential to regenerate all kinds of body tissue. Scientists have used them to reverse diabetes, regenerate the liver and brain.

It is possible that they have the potential to be the ultimate anti-ageing treatment.

There are three types of human stem cells:

Embryonic cells from fetal tissue. These are technically the most powerful stem cells.

Adult stem cells are taken from the bone marrow of adults which need to match the donor to avoid rejection and are less powerful.

Cord blood stem cells extracted from the discarded umbilical cords from natural full term births. Although technically adult they contain much of the power of an embryonic cells. These cells are processed so that they have no red or white cells so there is no need for matching and no rejection. In most cases, cord clood ctem cells therapy involves one simple IV (intravenous) injection.

The use of stem cells for research is tightly regulated in most countries but there are a growing number of private stem cell “banks” where parents can deposit stem cells from umbilical cords for future use should the child or another family member fall ill.

To find out more about stem cells by visiting the sites of the Research bodies

Therapy Information

Biomark International – a cell bank that also manufactures stem cell therapy injections for a range of illnesses. A physician should be consulted for treatment.

Links

Immunotherapy
www.cancerresearch.org
www.cordblood.com

Stem Cells
www.aabb.org
www.stemcells.com
www.nih.gov/news/stemcell/primer.htm
www.michaeljfox.org
www.clinicaltrials.gov
www.stemcellhelp.org

Alternative Medicine
www.immunesystemdisorders.com
www.camaweb.org

Nutrition
www.www.davidwolfe.com
www.livingfoodsinstitute.com