Description
Biomaterials such as silk which has self-assembling properties, is biocompatible and biodegradable show promise for improving stem cell delivery and retention for treatment of stroke. The present aims were to assess the capacity of self-assembling silk hydrogels to improve stem cell delivery in vitro and in an in vivo stroke model.
Data formats: pzf Prism, Excel, images in JPJ and powerpoint
Data formats: pzf Prism, Excel, images in JPJ and powerpoint
Date made available | 5 Sep 2018 |
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Publisher | University of Strathclyde |
Date of data production | 14 Apr 2014 - 1 Mar 2018 |
Cite this
Ibrahim, O. A. S. (Creator), Carswell, H. (Supervisor), Seib, P. (Supervisor), Wongpinyochit, T. (Contributor), McKittrick, C. M. (Contributor), Gorenkova, N. (Contributor), Goudie, A. (Contributor). (5 Sep 2018). Data for: "Self-assembling silk hydrogels as a mesenchymal stem cell support matrix for stroke". University of Strathclyde. CD, AlamarBlue(.pzf), Conformity(.pzf), FTIR, Kinetic_gel_formation_by_light_scattering(.pzf), Rheology(.pzf), SEM, Swelling_test(.pzf), cell_disrtibution_Histology(.pzf). 10.15129/2bbce19a-4b47-43d9-b9d5-7549b4d9ae4a