TOOTH REGENERATION NOW POSSIBLE

https://www.wired.com/medtech/health/news/2008/04/tooth_regeneration

The next time your children get cavities, they might get tooth regeneration instead of fillings.

That’s because materials scientists are beginning to find just the right solutions of chemicals to rebuild decayed teeth, rather than merely patching their holes. Enamel and dentin, the materials that make teeth the strongest pieces of the body, would replace the gold or ceramic fillings that currently return teeth to working order.

"What we’re hoping to have happen is to catch [decaying teeth] early and remineralize them," said Sally Marshall, a professor at the University of California at San Francisco. Marshall gave a talk last week at the spring meeting of the Materials Research Society on rebuilding the inner portions of teeth.

While regrowing your uncle’s toothless grin from scratch is still a decade away , the ability to use some of the body’s own building materials for oral repair would be a boon to dentists, who have been fixing cavities with metal fillings since the 1840s. Enamel and dentin are remarkably strong and long-lasting, and they can repair themselves. But as scientists are continuing to find out, dentin in particular is a remarkably complex structure.

The outer covering of teeth is enamel. The body makes it by growing tiny mineral crystals in a highly regular crystal lattice. Underneath that ceramic-like covering, dentin is like hard clay reinforced by fibers of collagen, similar to the way adobe bricks contain clay reinforced by straw fibers.

"The tooth is a beautiful structure," said Van Thompson , dentistry professor and chairman of New York University’s Department of Biomaterials and Biomimetics.

But teeth, because they are made from minerals, are susceptible to what is essentially erosion. Acids, like those produced by bacteria or Coca-Cola, demineralize the enamel of the teeth. Usually the body is constantly repairing small amounts of damage, Marshall said. But when the body’s defenses become overwhelmed, bacteria break through into the dentin below, and you get tooth decay, commonly called a cavity.

The acid produced by the bacteria eats into the minerals in the dentin, turning it mushy and useless. Normal dentin is twice as stiff as pinewood, but damaged dentin is more like rubber, which makes it pretty hard to chew with.

Marshall’s newest work, which has been accepted for publication in the Journal of Structural Biology , focuses on regrowing dentin in damaged teeth with the help of a calcium-containing solution of ions (electrically charged particles).

By putting a layer of the solution on individual test teeth, Marshall has already been able to remineralize some parts of the teeth. The challenge is to get the crystals to regrow throughout the dentin.

To heal properly, the crystals need to form from the bottom of the tooth up to the enamel. Marshall isn’t sure whether that’s happening yet, but she is confident that she’ll find a way to restore dentin functionality over the next few years.

Stephen Bayne, professor of dentistry at the University of Michigan, noted that while many groups are working on regrowing teeth, Marshall has "incredible stature" in dentistry for her groundbreaking work helping dentists understand the structure of the tooth.

Still, even with the recent progress, the very complexity that Marshall and other researchers have discovered in the humble tooth is likely to keep her technique out of your local dentist’s office for a few more years.

"We’re still a ways from being able to grow back dentin and enamel," Bayne said.

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