Ecologically friendly biofunctional ink for reconstruction of rigid living systems under wet conditions

Year:2021
Authors: A. Avila-Ramírez, A.U. Valle-Perez, H.H. Susapto, R. Perez-Pedroza, G.R. Briola, A. Alrashoudi, Z. Khan, P. Bilalis, C.A.E. Hauser
Bioprinting Biopolymers Bioceramics Rigid tissue Crosslinking Ecofriendly

Delivery of endothelial cell-laden microgel elicits angiogenesis in self-assembling ultrashort peptide hydrogels in vitro

Year:2021 DOI:10.1021/acsami.1c03787
Authors: G. Ramirez-Calderon, H.H. Susapto, And C.A.E. Hauser
Self-assembling ultrashort peptide Microfluidics Flow focusing Microgels

Time-dependent pulsing of microfluidic pumps to enhance 3D bioprinting of peptide bioinks

Year:2021 DOI:10.1117/12.2578830
Authors: Z. Khan, K. Kahin, And C.A.E. Hauser
Microfluidics 3D printing Fluid dynamics Skin Tissue engineering

Metal complex formation and anticancer activity of Cu(I) and Cu(II) complexes with Metformin

Year:2021 DOI:10.3390/molecules26164730
Authors: Sh. Abdelrahman, M. Alghrably, M. Campagna, C.A.E. Hauser, M. Jaremko, J.I. Lachowicz
Metformin Copper complexes Diabetes Cancer Proliferation Protonation constants Stability constants Glutathione NMR

Scaffolds from self-assembling tetrapeptides support 3D spreading, osteogenic differentiation, and angiogenesis of mesenchymal stem cells

Year:2021 DOI:10.1021/acs.biomac.1c00205
Authors: S. Alshehri, H.H. Susapto, C.A.E. Hauser
Self-assembling tetrapeptides Osteogenic differentiation Angiogenesis Mesenchymal stem cells

Ultrashort peptide bioinks support automated printing of large-scale constructs assuring long-term survival of printed tissue constructs

Year:2021 DOI:10.1021/acs.nanolett.0c04426
Authors: H.H. Susapto, D. Alhattab, S. Abdelrahman, Z. Khan, S. Alshehri, K. Kahin, R. Ge, M. Moretti, A.-H. Emwas, C.A.E. Hauser
Ultrashort peptides Molecular self-assembly Peptide bioinks Automated 3D bioprinting Postprinting differentiation

Supramolecular biopolymers for tissue engineering

Year:2021 DOI:10.1155/2021/8815006
Authors: R. Pérez-Pedroza, A. Ávila-Ramírez, Z. Khan, M. Moretti, C.A.E. Hauser
Biochemistry Biodegradable polymers Supramolecular chemistry Tissue

Engineered microgels—their manufacturing and biomedical applications

Year:2021 DOI:10.3390/mi12010045
Authors: H. Alzanbaki, M. Moretti, C.A.E. Hauser
Microgels Self-assembling peptides Biofabrication 3D bioprinting Cell-laden constructs

CHAPTER 11: Ultrashort tetrameric peptide nanogels support tissue graft formation, wound healing and 3D bioprinting

Year:2021 DOI:10.1039/9781839161148-00363
Authors: W. Arab, And C.A.E. Hauser
3D printers Biocompatibility Peptide scaffolds Tissue regeneration Nanostructured materials

Self-assembling tetrameric peptides allow in situ3D bioprinting under physiological conditions

Year:2021 DOI:10.1039/D0TB02424D
Authors: S. Rauf, H.H. Susapto, K. Kahin, S. Alshehri, S. Abdelrahman, J.H. Lam, S. Asad, S. Jadhav, D. Sundaramurthi, X. Gao, C.A.E. Hauser
Peptide scaffolds Physiological condition Peptides Chemical cross-linking 3-D scaffolds
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