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Repair cartilage potentially can heal horribly broken bones

Ability to heal bone fractures is especially crucial for injured, multimillion-dollar athletes who spend big bucks to get back on the field or into the ring

Date:
May 11, 2016
Source:
University of Southern California
Summary:
Hundreds of NFL players have invested in using stem cells to treat injuries, a new article reports. The publication revealed one NFL linebacker 'paid $6,000 a pop for a 1-milliliter vial of donated placenta tissue containing stem cells to be injected into each of his beat-up knees.' Now new research shows that stem cells could one day be stimulated to make a special type of cartilage to help repair large, hard-to-heal bone fractures.
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Muscle and Medicine reported that hundreds of NFL players have invested in using stem cells to treat injuries. The publication revealed one NFL linebacker 'paid $6,000 a pop for a 1-milliliter vial of donated placenta tissue containing stem cells to be injected into each of his beat-up knees.' Now USC research shows that stem cells could one day be stimulated to make a special type of cartilage to help repair large, hard-to-heal bone fractures.
Credit: Sandeep Paul and Seth Ruffins

Stem cells could one day be stimulated to make a special type of cartilage to help repair large, hard-to-heal bone fractures -- a potential boon for doctors treating big-money athletes, USC researchers say.

Gage Crump, senior author, and his colleagues used the regeneration of zebrafish jawbone to show that the processes required for embryonic development are not necessarily repeated during regeneration of damaged body parts like fractured bones. The study was published online in Development last month.

"An exciting finding from our work is that, somewhat counterintuitively, cartilage is critical for healing full-thickness bone injuries," said Crump, associate professor of stem cell and regenerative medicine at the Keck School of Medicine of USC. "By understanding how this bone-producing cartilage is generated in the simpler zebrafish model, we hope to find ways to create more of this unique cartilage tissue in patients to better heal their bones."

Zebrafish are vertebrates that have bones like humans but differ because they have the remarkable ability to regenerate many of their organs. When human bones fracture, a limited cartilage callus forms and is replaced by bone that bridges small but not large gaps. In zebrafish, however, the researchers found that the cartilage callus continued to expand and filled very large bone gaps. Remarkably, this cartilage then changed into bone throughout the large lesion.

Why the discovery matters

Today people who have severe bone fractures may have a surgeon insert metal pins and plates to help set bone, undergo bone grafts or buy into the still-developing practice of adding stem cells to the injured area to rush recovery.

About 6 million people in the United States break a bone each year, according to the American Academy of Orthopaedic Surgeons. Although most people recover fully, about 300,000 are slow to heal or do not heal at all with traditional methods. Complications include post-traumatic arthritis, growth abnormalities, delayed union and misaligned union.

How cartilage gives rise to bone repair

The surface of bones has a thin lining of stem cells that help maintain bone mass throughout life. USC researchers identified a gene, called indian hedgehog a (ihha), responsible for giving the OK to stem cells to shift from making bone to making cartilage that will repair broken bones. Zebrafish lacking this gene are unable to make cartilage in response to bone injury, and they heal poorly.

"Traditionally, the therapeutic approach to healing bone has been to use bone cells or bone-like materials," said Francesca Mariani, study co-author and assistant professor of cell and neurobiology at Keck Medicine of USC. "This work suggests that, at least for large-scale repair, stimulating stem cells to make a special kind of cartilage might be more effective."


Story Source:

Materials provided by University of Southern California. Note: Content may be edited for style and length.


Journal Reference:

  1. Sandeep Paul, Simone Schindler, Dion Giovannone, Alexandra de Millo Terrazzani, Francesca V. Mariani, J. Gage Crump. Ihha induces hybrid cartilage-bone cells during zebrafish jawbone regeneration. Development, 2016; dev.131292 DOI: 10.1242/dev.131292

Cite This Page:

University of Southern California. "Repair cartilage potentially can heal horribly broken bones: Ability to heal bone fractures is especially crucial for injured, multimillion-dollar athletes who spend big bucks to get back on the field or into the ring." ScienceDaily. ScienceDaily, 11 May 2016. <www.sciencedaily.com/releases/2016/05/160511102657.htm>.
University of Southern California. (2016, May 11). Repair cartilage potentially can heal horribly broken bones: Ability to heal bone fractures is especially crucial for injured, multimillion-dollar athletes who spend big bucks to get back on the field or into the ring. ScienceDaily. Retrieved May 27, 2017 from www.sciencedaily.com/releases/2016/05/160511102657.htm
University of Southern California. "Repair cartilage potentially can heal horribly broken bones: Ability to heal bone fractures is especially crucial for injured, multimillion-dollar athletes who spend big bucks to get back on the field or into the ring." ScienceDaily. www.sciencedaily.com/releases/2016/05/160511102657.htm (accessed May 27, 2017).

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