New take on efficient delivery in regenerative medicine

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The above story is based on materials provided by Stockholm University, via AlphaGalileo.

The researchers are already working together with two companies in order to speed up the process of commercialising their innovative approach in the form of a standard differentiation kit that will allow other scientists and clinicians to reproduce their work in their own laboratories.

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A group of researchers based in Sweden, Denmark and Japan has successfully tested in animal models the use of a new type of porous material for the efficient delivery of key molecules to transplanted cells derived from stem cells. The researchers have developed a novel technological approach for the local delivery of exogenous trophic factor mimetics to transplanted cells using specifically designed silica nanoporous particles. This is potentially a versatile and widely applicable strategy for the efficient differentiation and functional integration of stem cell derivatives upon transplantation, and it can serve as a foundation for improving stem cell-based neuroregenerative protocols, for example Parkinson’s disease.

Oct. 22, 2013 ? An international research group has successfully tested the use of a new type of porous material for the efficient delivery of key molecules to transplanted cells derived from stem cells. These results can lead to improvements in the way stem cell-based neurodegenerative diseases are treated.

“We demonstrated that delivering key molecules for the differentiation of stem cells in vivo with these particles enabled not only robust functional differentiation of motor neurons from transplanted embryonic stem cells but also improves their long-term survival,” said Elena Kozlova, co-director of the study and Associated Professor at the Department of Neuroscience, Uppsala University.

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  1. A. E. Garcia-Bennett, M. Kozhevnikova, N. Konig, C. Zhou, R. Leao, T. Knopfel, S. Pankratova, C. Trolle, V. Berezin, E. Bock, H. Aldskogius, E. N. Kozlova. Delivery of Differentiation Factors by Mesoporous Silica Particles Assists Advanced Differentiation of Transplanted Murine Embryonic Stem Cells. Stem Cells Translational Medicine, 2013; DOI: 10.5966/sctm.2013-0072

“We are working to provide standard and reproducible methods for the differentiation and implementation of Stem Cell therapies using this type of approach, which couples material science with regenerative medicine,” said Dr. Alfonso Garcia-Bennett, one of the leading authors of the study currently working at the Department of Materials and Environmental Chemistry, Stockholm University.

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