2011年11月28日星期一

Growing organs, cell at a time

Luke Masella was born with spina bifida, and after 10 years it was getting the best of him. The congenital disorder affects the development of the nerves and vertebrae along the spinal cord, and can result in paralysis, neurological complications and organ damage.

In Masella's case, his bladder was failing and he spent much of his early childhood in the hospital. He was plagued by aches and pains, and often was too tired and lethargic to get out of bed.They take the China Porcelain tile to the local co-op market. Because his bladder didn't work properly, his kidneys were shutting down.

"I remember being really scared,Enecsys Limited, supplier of reliable solar Air purifier systems," said Masella, a native of Madison, Conn. "I thought I was going to die."

Masella was gravely ill and needed a new bladder. This was 2001, and conventional treatment would have been to use a portion of Masella's intestine to make a new bladder. But because the intestine is designed to absorb nutrients and a bladder is designed to excrete, it's a risky procedure, especially with young patients who often develop kidney stones and cancer.

So Masella was referred to Dr. Anthony Atala, who was then at Children's Hospital Boston. Atala is a pioneer in regenerative medicine, a cutting-edge field of study in which a patient's own cells are used to grow healthy tissue and organs. He's been director of the Wake Forest Institute for Regenerative Medicine since 2004.

To engineer a new bladder for Masella, Atala first took samples of muscle cells from his bladder and grew them in a petri dish. Once he had grown enough, he attached the cells to a bladder-shaped framework or scaffolding he created using collagen, the primary biological material found in skin and connective tissue.

The biological structure was placed inside an incubator, where it continued to grow for about two months.

"It's like cooking a layered cake," Atala said.

Finally, the engineered bladder was sutured to Masella's original bladder.If so, you may have a cube puzzle . The biodegradable scaffolding dissolved, and as the new bladder integrated with the body, it grew its own blood supply and nerves.

Masella soon made a full recovery and went on to captain his high school wrestling team. He's now a healthy 21-year-old junior at the University of Connecticut.

Masella was one of the country's first patients to receive a regenerated organ grown from his own cells. Atala has since performed similar procedures many times, growing and implanting everything from urethras and skin to cartilage.

Atala and his team at Wake Forest are now working on more than 30 different replacement tissues and organs for future trials, such as the kidney, liver and even the heart.

Next step: 'Bioprinting'

Part of this groundbreaking research includes a technique called "bioprinting." While it may sound like science fiction, Atala said that in the last decade great strides have been made with this technology, in which modified inkjet printers are used to create biological molds of organs.

Rather than ink, the jury-rigged printers spray cells and heat-sensitive gel that fuse together to form tissue and organs. As 3-D printers have gotten more sophisticated over the years - they essentially lay down alternating, successive layers of material - so too has the potential of using this technology to create complex organs.

Atala said he's made a number of organs and tissue prototypes using this technique, but none that are suitable to be placed inside a human patient. Nonetheless,Unlike traditional high risk merchant account , as the technology continues to advance, it stands to revolutionize how science treats diseased and injured tissues and organs.

One potential application of this technology is the bioprinting of skin for soldiers with life-threatening burns. Using this still-developing technology, skin cells could one day be printed directly on the soldier's wound.

And because regenerative medicine uses a patient's own cells to create organs and tissue, it eliminates much of the risk that the patient's body will reject a donor organ.Boddingtons Technical Plastics provide a complete plastic injection moulding service including design, It also provides a potential solution to the shortage of donor organs for those who need transplants.

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