Self-assembling tetrameric peptides allow <i>in situ</i> 3D bioprinting under physiological conditions - Concepedia

Concepedia

Publication | Open Access

Self-assembling tetrameric peptides allow <i>in situ</i> 3D bioprinting under physiological conditions

DOI Full Paper Access

57

Citations

39

References

2020

Year

Sakandar Rauf, Hepi Hari Susapto, Kowther Kahin, Salwa Alshehri, Sherin Abdelrahman, Jordy Homing Lam, Sultan Asad, Sandip V. Jadhav, Dhakshinamoorthy Sundaramurthi, Xin Gao,

Journal of Materials Chemistry B

Tissue EngineeringEngineeringPeptide EngineeringBiomaterials DesignPeptide ScaffoldsBiofabricationSitu Bioprinting MethodPeptide ScienceBiomedical EngineeringBiophysicsBioprintingSelf-assembling Ultrashort Peptides3D Bioprinting3D PrintingBiomolecular EngineeringBiofunctional MaterialBiomanufacturingSelf-assembling Tetrameric PeptidesSynthetic BiologyPeptide SynthesisMedicineBiomaterialsPhysiological ConditionsBiocompatible MaterialExtracellular Matrix

Abstract

We have developed an in situ bioprinting method that allows the printing of cells under true physiological conditions by applying self-assembling ultrashort peptides as bioinks. This method avoids cell stressing methods, such as UV-treatment, chemical crosslinking and viscous bioink printing methods. We further demonstrate that different nanomaterials can easily be synthesized or incorporated in the 3D bioprinted peptide scaffolds which opens up the possibility of functionalized 3D scaffolds.

References

	Year	Citations

Page 1