Novel method for hard tissue regeneration, significant departure from current therapies, described in Scientific Reports

04 October 2017

A research team led by the University of Birmingham has found a new method which could mark the first step in a new direction for hard tissue regeneration with the potential to help repair bone, teeth and cartilage, according to a paper published today (Tuesday, October 3rd 2017) in Scientific Reports.

The paper describes the use of extra-cellular vesicles in combination with phosphate therapy, which outperformed the current clinical gold standard (BMP-2) in terms of rate and volume of mineral deposition in in vitro models of bone regeneration.

This novel method is a significant departure from currently available therapeutic approaches.  University of Birmingham Enterprise, the technology transfer arm of the University, has patented the approach, with a view to developing a technology that can promote bone formation or regeneration via a kit or device.

Current approaches, based on bone grafting, bone graft substitutes or growth factors such as bone morphogenic proteins (BMPs), have limitations: autologous bone grafts are limited by donor site tissue and cause patient morbidity, and allogenic grafts present a potential source of infection and are often stripped of the many factors that induce tissue regeneration. Growth factor-based approaches are costly and may have serious side effects.

In recent years attention has focussed on cell-based approaches, although translation is frequently prevented by insurmountable regulatory, ethical and economic hurdles. Extracellular vesicles harness the advantages of cell-based therapies but with less concern about immunological risks.

The research team was led by Drs Sophie Cox and Owen Davies from the University of Birmingham.

Dr Sophie Cox, from the School of Chemical Engineering at the University of Birmingham, explained, “Though we can never fully mimic the complexity of vesicles produced by cells in nature, this work describes a new pathway harnessing natural developmental processes to facilitate hard tissue repair.”

Dr Owen Davies, EPSRC E-TERM Landscape Fellow at the University of Birmingham and Loughborough University, said, “It is early days, but the potential is there for this to transform the way we approach tissue repair. We’re now looking to produce these therapeutically valuable particles at scale and also examine their capacity to regenerate other tissues.”

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