Scientists Use Laser and Stem Cells to Repair Teeth

A recent study could lay the groundwork for the development of noninvasive laser therapy that could dramatically change dental treatment. The laser prompts human stem cells to form dentin, the calcified tissue that provides most of a tooth’s core structure.

If it is found to be effective in humans, the new approach (detailed in Science Translational Medicine, May 28, 2014) could potentially eliminate the need for crowns, fillings and other complex—and often painful—dental operations in the future. “It would be a substantial advance in the field if we can regenerate teeth rather than replace them,” confirms study leader David Mooney, PhD, a faculty member at Harvard University’s Wyss Institute for Biologically Inspired Engineering.

More important, the advance offers a more streamlined way to use endogenous (i.e., already in the body) stem cells that lays the foundation for a wealth of new clinical applications.

Stem cell use complicated. Given their unique regenerative abilities, stem cells offer many possibilities when it comes to treating diseases such as diabetes and heart disease. However, utilizing them for regenerative medicine currently requires that they be isolated from the body, manipulated in a laboratory using added growth factors or small molecules, and returned to the body. The process is complicated and costly—but the method developed by Professor Mooney and his team is simpler.

Using growth factors. The procedure’s success revolves around transforming growth factor beta (TGF-β). Growth factors are naturally occurring substances capable of stimulating cell growth and differentiation, and TGF-β plays crucial roles in embryonic development, wound healing, and the immune system.

TGF-β exists in the body in latent form until activated, and this activation includes a wide range of biological and physical modalities. In their research, Professor Mooney and his team found that it was possible to activate TGF-β by exposing it to a low-power laser beam—and during preliminary tests of dentin tissues, the laser-activated TGF-β stimulated the stem cells already present in the pulp-dentin within the teeth. “Once TGF-β is activated by the laser, it can bind to stem cells residing in the tissue,” says Dr. Mooney. “Then it induces those stem cells to differentiate so they can form dentin.”

Other applications possible. The technique has proven successful in an animal model, triggering dentin formation in lab rats and mice. As yet it has not been possible to regenerate an entire tooth—but merely getting dentin to grow could help prevent the need for root canal treatment, the sometimes-painful procedure to remove dead or dying nerve tissue and bacteria from inside a tooth.

Human trials are currently being planned, and given the minute nature of rodent teeth, Professor Mooney says this is one of the rare cases where it will likely be easier to extend their research into people. It also should be easier for clinicians to utilize the new approach if human trials are successful. “Our treatment modality does not introduce anything new to the body, and lasers are routinely used in medicine and dentistry, so the barriers to clinical translation are low,” says Professor Mooney.

The study’s lead author, Praveen Arany, DDS, PhD, an Assistant Clinical Investigator at the National Institutes of Health, agrees. “We are also excited about expanding these observations to other regenerative applications with other types of stem cells,” he adds.

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