David J. Schreyer
Affiliations: | University of Saskatchewan, Saskatoon, SK, Canada |
Area:
development, regenerationGoogle:
"David Schreyer"Mean distance: 14.16 (cluster 6) | S | N | B | C | P |
Parents
Sign in to add mentor| Mark Molliver | research assistant | 1978-1979 | Johns Hopkins Medical School |
| Edward G. Jones | grad student | 1979-1985 | Washington University |
| Pate Skene | post-doc | 1986-1991 | Stanford Medical School |
Children
Sign in to add trainee| Christine Webber | grad student | 1997-2000 | University of Saskatchewan |
| Soheila Karimi-Abdolrezaee | grad student | 2001 | University of Saskatchewan |
| Soheila Karimi | grad student | 1997-2001 | University of Saskatchewan |
| Adam Wu | grad student | 2005-2008 | University of Saskatchewan |
| Rasheed Bani Hammad | grad student | 2005-2010 | University of Saskatchewan |
| Jennifer Chlan | post-doc | 2004-2008 | University of Saskatchewan |
BETA: Related publications
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Publications
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| Ning L, Zhu N, Mohabatpour F, et al. (2019) Bioprinting Schwann cell-laden scaffolds from low-viscosity hydrogel compositions Journal of Materials Chemistry B. 7: 4538-4551 |
| Sarker M, Naghieh S, McInnes AD, et al. (2019) Bio-fabrication of peptide-modified alginate scaffolds: Printability, mechanical stability and neurite outgrowth assessments Bioprinting. 14: e00045 |
| Sarker MD, Saman N, McInnes AD, et al. (2018) Regeneration of peripheral nerves by nerve guidance conduits: Influence of design, biopolymers, cells, growth factors, and physical stimuli. Progress in Neurobiology |
| Ning L, Sun H, Lelong T, et al. (2018) 3D bioprinting of scaffolds with living Schwann cells for potential nerve tissue engineering applications. Biofabrication |
| Sarker MD, Naghieh S, McInnes AD, et al. (2018) Strategic Design and Fabrication of Nerve Guidance Conduits for Peripheral Nerve Regeneration. Biotechnology Journal |
| Ariful Islam Sarker M, Izadifar M, Schreyer D, et al. (2018) Influence of ionic cross linkers (Ca2+/ Ba2+/ Zn2+) on the Mechanical and Biological Properties of 3D Bioplotted Hydrogel Scaffolds. Journal of Biomaterials Science. Polymer Edition. 1-51 |
| England S, Rajaram A, Schreyer DJ, et al. (2017) Bioprinted fibrin-factor XIII-hyaluronate hydrogel scaffolds with encapsulated Schwann cells and their in vitro characterization for use in nerve regeneration Bioprinting. 5: 1-9 |
| Ning L, Xu Y, Chen X, et al. (2016) Influence of mechanical properties of alginate-based substrates on the performance of Schwann cells in culture. Journal of Biomaterials Science. Polymer Edition. 1-33 |
| Zhai P, Chen XB, Schreyer DJ. (2015) An in vitro study of peptide-loaded alginate nanospheres for antagonizing the inhibitory effect of Nogo-A protein on axonal growth. Biomedical Materials (Bristol, England). 10: 045016 |
| Rajaram A, Schreyer DJ, Chen DX. (2015) Use of the polycation polyethyleneimine to improve the physical properties of alginate-hyaluronic acid hydrogel during fabrication of tissue repair scaffolds. Journal of Biomaterials Science. Polymer Edition. 26: 433-45 |