Barsch, F.; Mamilos, A.; Schmitt, V.H.; Babel, M.; Winter, L.; Wagner, W.; Winther, H.; Ottomann, C.; Niedermair, T.; Schreml, S.;
et al. In Vivo Comparison of Synthetic Macroporous Filamentous and Sponge-like Skin Substitute Matrices Reveals Morphometric Features of the Foreign Body Reaction According to 3D Biomaterial Designs. Cells 2022, 11, 2834.
https://doi.org/10.3390/cells11182834
AMA Style
Barsch F, Mamilos A, Schmitt VH, Babel M, Winter L, Wagner W, Winther H, Ottomann C, Niedermair T, Schreml S,
et al. In Vivo Comparison of Synthetic Macroporous Filamentous and Sponge-like Skin Substitute Matrices Reveals Morphometric Features of the Foreign Body Reaction According to 3D Biomaterial Designs. Cells. 2022; 11(18):2834.
https://doi.org/10.3390/cells11182834
Chicago/Turabian Style
Barsch, Friedrich, Andreas Mamilos, Volker H. Schmitt, Maximilian Babel, Lina Winter, Willi Wagner, Hinrich Winther, Christian Ottomann, Tanja Niedermair, Stephan Schreml,
and et al. 2022. "In Vivo Comparison of Synthetic Macroporous Filamentous and Sponge-like Skin Substitute Matrices Reveals Morphometric Features of the Foreign Body Reaction According to 3D Biomaterial Designs" Cells 11, no. 18: 2834.
https://doi.org/10.3390/cells11182834
APA Style
Barsch, F., Mamilos, A., Schmitt, V. H., Babel, M., Winter, L., Wagner, W., Winther, H., Ottomann, C., Niedermair, T., Schreml, S., Hierlemann, H., & Brochhausen, C.
(2022). In Vivo Comparison of Synthetic Macroporous Filamentous and Sponge-like Skin Substitute Matrices Reveals Morphometric Features of the Foreign Body Reaction According to 3D Biomaterial Designs. Cells, 11(18), 2834.
https://doi.org/10.3390/cells11182834
