U-M leads major new regenerative medicine center funded by NIH

ANN ARBOR—A new interdisciplinary health sciences resource center at the University of Michigan has received an $11.7 million award from the National Institutes of Health to advance regenerative medicine.

The center, led by the School of Dentistry, brings together scientists, engineers and clinicians from several U-M departments in collaboration with researchers at the University of Pittsburgh, Harvard University and private companies.

They will investigate new ways to restore dental, oral and craniofacial tissues lost to disease, injury or congenital disorders. Technologies advanced in these areas could lead to tissue engineering applications for other parts of the body as well.

The research, funded by the National Institute of Dental and Craniofacial Research, involves U-M collaborators from the Medical School, School of Public Health, College of Pharmacy, College of Engineering, Office of Technology Transfer and Michigan Institute for Clinical and Health Research. Other co-investigators are from the McGowan Institute at Pittsburgh and the Wyss Institute for Biologically Inspired Engineering at Harvard.

The center is named the Michigan-Pittsburgh-Wyss Resource Center: Supporting Regenerative Medicine in Dental, Oral and Craniofacial Technologies. The three universities have committed financial support in addition to the $11.7 million NIH award to create a project total of about $14 million.

The U-M-based resource center is one of two announced today by the NIDCR. The other is based at the University of California, San Francisco. The combined NIH awards total $24 million over three years.

The collaboration of the Michigan, Pittsburgh and Harvard researchers came out of an initial one-year organizational phase funded with a previous NIDCR planning grant. The new funding supports a second, three-year phase during which investigators will evaluate and select research projects that have the most scientifically sound, clinically applicable and commercially viable strategies for the regeneration of dental, oral and craniofacial tissues.

The resource center will match the projects with engineering, biological, manufacturing, commercial and regulatory expertise from the clinical, academic and private sectors in order to more efficiently translate discoveries into clinical practice.

Regenerative medicine refers to research that integrates engineering and biology, seeking to regenerate damaged cells, tissues or organs to their full function, such as finding ways for the body to heal wounds faster or to repair bone that has been damaged.

Research strategies can be material-based, cell-based and drug delivery, or combinations of those. Some of the current material-based research in the craniofacial area, for example, uses tiny polymer-based scaffolds that are implanted to promote the growth of damaged bone or periodontal tissue that supports teeth or tooth replacement dental implants.

Project directors and principal investigators at the School of Dentistry are David Kohn, professor in the school’s Department of Biologic and Materials Sciences and also professor of biomedical engineering at the College of Engineering, and William Giannobile, the William K. and Mary Anne Najjar Professor of Dentistry and chair of the Department of Periodontics and Oral Medicine, and professor of biomedical engineering at the College of Engineering.

Laurie McCauley, dean of the School of Dentistry, said the resource center has assembled a strong team poised for important breakthroughs in this quickly evolving field.

“Drs. Kohn and Giannobile have established a multidisciplinary group with a robust plan that will build on Michigan’s success in basic tissue engineering and training to achieve transformative approaches in regenerative medicine,” she said.

Kohn said this three-year phase will be a period of investigating many aspects of each project.

“The purpose of the center is to vet technologies,” he said. “And not only vet them scientifically but vet them clinically: Is this scaffold going to solve a compelling clinical problem? Vet them in terms of manufacturing: Can this be manufactured? Can it be manufactured to FDA standards? Vet them in terms of commercialization: Is anyone going to invest and buy this?

“We might prove in a small clinical study that something is effective, but it’s not going to get out to the masses unless a company or investors decide to pursue the technology. So we’re talking about vetting in all those different sectors.”

Giannobile said U-M is uniquely positioned to lead the center. The funding application notes that U-M is the only university in the country with Top 10-ranked dental, medical and engineering schools on the same contiguous campus, which makes it easier for interdisciplinary collaboration in tissue engineering and regenerative medicine.

“There are so many excellent independent investigators here at U-M with individual grants and patents in regenerative medicine,” Giannobile said. “We feel fortunate that we were able to coalesce many different groups from around the university that could really help spearhead regenerative medicine at Michigan with this type of larger, programmatic grant.

“It’s oral, dental and craniofacial research, but certainly this will serve as a bridge to other parts of the body—the musculoskeletal system, bone regeneration, soft tissue, nerve, other structures—because what we learn in the all-important head and neck area will apply to other areas as well.”

Joining Kohn and Giannobile as project directors and principal investigators are Charles Sfeir and William Wagner of the University of Pittsburgh and David Mooney of Harvard.

The project includes two key private-sector contributors—the McGuire Institute of Houston, with extensive experience in practice-based clinical research in regenerative oral and periodontal medicine, and the Avenues Company of Flagstaff, Ariz., a marketing consulting firm focusing on clinical and business development strategies in regenerative dentistry.

NIDCR is one of 27 institutes and centers under the umbrella of the National Institutes of Health. NIH is part of the Department of Health and Human Services.

The new Michigan and California centers are part of the NIDCR’s Dental, Oral, and Craniofacial Tissue Regeneration Consortium, an initiative designed to shepherd new therapies through preclinical studies and into human clinical trials. The ultimate goal is to develop strategies and devices that could help repair or regenerate damaged tissues such as craniofacial bone, muscle and blood vessels, nerves, teeth and salivary glands.

“By establishing this research consortium, NIDCR seeks to lead national efforts to accelerate the translation of promising dental, oral and craniofacial regenerative medicine therapies into the clinic,” said NIDCR Director Martha Somerman. “The consortium is designed as a model for optimizing translation of scientific advances in this field.”

More information:

New Michigan Regenerative Medicine Center Formed

 
The University of Michigan School of Dentistry is one of 10 institutions in the country that has been selected by the National Institute of Dental and Craniofacial Research (NIDCR) to establish a center that will develop clinical applications in tissue engineering and regenerative medicine that have dental, oral and craniofacial tests.

The Michigan Regenerative Medicine Resource Center, as it’s official known, will be led by Drs. William Giannobile and David Kohn.  Their education and expertise complement each other – Giannobile’s as a clinician/life scientist; Kohn’s as an engineer.  Giannobile chairs the school’s Department of Periodontics and Oral Medicine.  Kohn is a professor in the school’s Department of Biologic and Materials Sciences and a professor in the Department of Biomedical Engineering at the College of Engineering.

“The center will transform how clinicians in the not-too-distant future repair, reconstruct and regenerate dental, oral and craniofacial anomalies in patients due to injury or disease,” Giannobile says.  “In recent years there have been major discoveries and advances in dentistry, medicine, biology, materials science, technology and other fields, and NIDCR wants the Michigan Center and similar centers around the country to find ways to use those advances so clinicians can then apply those discoveries to help their patients.”

Above are three-dimensional printed polymer scaffolds designed to promote bone and periodontal repair in the oral cavity. The design offers the potential to regenerate the different tissues teeth needed to treat teeth that have lost support due to the periodontal disease process. Photo by Jerry Mastey

Above are three-dimensional printed polymer scaffolds designed to promote bone and periodontal repair in the oral cavity. The design offers the potential to regenerate the different tissues teeth needed to treat teeth that have lost support due to the periodontal disease process. Photo by Jerry Mastey

Above are three-dimensional printed polymer scaffolds designed to promote bone and periodontal repair in the oral cavity. The design offers the potential to regenerate the different tissues teeth needed to treat teeth that have lost support due to the periodontal disease process. Photo by Jerry Mastey

Above are three-dimensional printed polymer scaffolds designed to promote bone and periodontal repair in the oral cavity. The design offers the potential to regenerate the different tissues teeth needed to treat teeth that have lost support due to the periodontal disease process. Photo by Jerry Mastey

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Crucial to achieving that objective, Kohn says, will be establishing teams of multidisciplinary and interdisciplinary specialists from across the University of Michigan, industry and private practice.  “These teams will be dedicated to selecting the most scientifically sound, clinically and commercially applicable strategies to regenerate oral tissues,” he says.

Historically, Kohn says, discoveries in a laboratory have progressed in a linear fashion, that is, they move forward one step at a time before being commercialized and used clinically.  “We want to change that approach,” Kohn adds.  “Our teams will take discoveries that show promise and provide the resources to advance the technologies to apply them more quickly than in the past.”  This approach, he adds, is uniquely suited to Michigan’s broad scientific, clinical and engineering strengths, and interdisciplinary culture.

Giannobile says clinical teams will work with technical advisory groups and data centers to assess what might be feasible clinically.  In the past, he says, scientists and clinicians have not always communicated to take advantages of scientific advances that can be used by dentists in a patient care setting.

Among the groups that will help the Michigan Regenerative Medicine Resource Center will be the Wyss Institute at Harvard, a multidisciplinary research institute that focuses on developing new materials with applications in health care, manufacturing and other areas, and the McGuire Institute in Houston which focuses on delivering clinical applications based on research using new or improved technologies.

The center was established with a $125,000 grant from NIDCR, the first step in what will be a two-step process.  The next step involves submitting a proposal that could possibly lead to funding for as much as $10 million, sometime next summer.

- See more at: http://dent.umich.edu/news/2015/10/14/new-michigan-regenerative-medicine-center-formed#sthash.1i4hOOSf.dpuf