From the last three decades, innovative 3D printing processes have been progressively more investigated for food and regenerative medicine topics due to modern technological advances of 3D printers. In tissue engineering, 3D bioprinting technologies are increasingly improved by the continuous development of efficient bioinks. In this area, biodegradable, cell-biocompatible and nontoxic biopolymers such as microbial polysaccharides have been successfully used as hydrogel biomaterial for bone, skin, etc., tissue regeneration.
TY - CHAP
AU - Nalbantova, Vanya
AU - Lukova, Paolina K.
AU - Pierre, Guillaume
AU - Benbasat, Niko
AU - Katsarov, Plamen D.
AU - Espitia, P. J. P.
AU - Fuenmayor, Carlos A.
AU - Nešić, Aleksandra
AU - Carranza, Mary Stephanie S.
AU - Michaud, Philippe
AU - Delattre, Cedric
PY - 2022
UR - https://vinar.vin.bg.ac.rs/handle/123456789/10938
AB - From the last three decades, innovative 3D printing processes have been progressively more investigated for food and regenerative medicine topics due to modern technological advances of 3D printers. In tissue engineering, 3D bioprinting technologies are increasingly improved by the continuous development of efficient bioinks. In this area, biodegradable, cell-biocompatible and nontoxic biopolymers such as microbial polysaccharides have been successfully used as hydrogel biomaterial for bone, skin, etc., tissue regeneration.
T2 - Polysaccharides of Microbial Origin: Biomedical Applications
T1 - 3D Printing of Microbial Polysaccharides
SP - 1213
EP - 1245
DO - 10.1007/978-3-030-42215-8_61
ER -
@inbook{
author = "Nalbantova, Vanya and Lukova, Paolina K. and Pierre, Guillaume and Benbasat, Niko and Katsarov, Plamen D. and Espitia, P. J. P. and Fuenmayor, Carlos A. and Nešić, Aleksandra and Carranza, Mary Stephanie S. and Michaud, Philippe and Delattre, Cedric",
year = "2022",
abstract = "From the last three decades, innovative 3D printing processes have been progressively more investigated for food and regenerative medicine topics due to modern technological advances of 3D printers. In tissue engineering, 3D bioprinting technologies are increasingly improved by the continuous development of efficient bioinks. In this area, biodegradable, cell-biocompatible and nontoxic biopolymers such as microbial polysaccharides have been successfully used as hydrogel biomaterial for bone, skin, etc., tissue regeneration.",
journal = "Polysaccharides of Microbial Origin: Biomedical Applications",
booktitle = "3D Printing of Microbial Polysaccharides",
pages = "1213-1245",
doi = "10.1007/978-3-030-42215-8_61"
}
Nalbantova, V., Lukova, P. K., Pierre, G., Benbasat, N., Katsarov, P. D., Espitia, P. J. P., Fuenmayor, C. A., Nešić, A., Carranza, M. S. S., Michaud, P.,& Delattre, C.. (2022). 3D Printing of Microbial Polysaccharides. in Polysaccharides of Microbial Origin: Biomedical Applications, 1213-1245.
https://doi.org/10.1007/978-3-030-42215-8_61
Nalbantova V, Lukova PK, Pierre G, Benbasat N, Katsarov PD, Espitia PJP, Fuenmayor CA, Nešić A, Carranza MSS, Michaud P, Delattre C. 3D Printing of Microbial Polysaccharides. in Polysaccharides of Microbial Origin: Biomedical Applications. 2022;:1213-1245.
doi:10.1007/978-3-030-42215-8_61 .
Nalbantova, Vanya, Lukova, Paolina K., Pierre, Guillaume, Benbasat, Niko, Katsarov, Plamen D., Espitia, P. J. P., Fuenmayor, Carlos A., Nešić, Aleksandra, Carranza, Mary Stephanie S., Michaud, Philippe, Delattre, Cedric, "3D Printing of Microbial Polysaccharides" in Polysaccharides of Microbial Origin: Biomedical Applications (2022):1213-1245,
https://doi.org/10.1007/978-3-030-42215-8_61 . .
