Various methods of 3D and bio-printing

Various methods of 3D and bio-printing

There is growing need for synthetic tissue replacement materials designed in a way that mimic complex structure of tissues and organs. Among various methods for fabrication of implants (scaffolds), 3D printing is very powerful technique because it enables creation of scaffolds with complex internal...

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Main Authors: Jokanović Vukoman, Čolović Božana, Antonijević Đorđe, Mićić Milutin, Živković Slavoljub
Format: Article
Language:English
Published: Serbian Medical Society - Dental Section, Belgrade 2017-01-01
Series:Stomatološki glasnik Srbije
Subjects:
3D printing
bio printing
scaffolds
biomaterials
Online Access:https://scindeks-clanci.ceon.rs/data/pdf/0039-1743/2017/0039-17431703136J.pdf
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spelling doaj-a815597a322742118a27023a9db42a6e2020-11-24T22:06:27ZengSerbian Medical Society - Dental Section, BelgradeStomatološki glasnik Srbije0039-17431452-37012017-01-016431361450039-17431703136JVarious methods of 3D and bio-printingJokanović Vukoman0Čolović Božana1Antonijević Đorđe2Mićić Milutin3Živković Slavoljub4ALBOS d.o.o., Inovativno preduzeće za proizvodnju, Beograd + Univerzitet u Beogradu, Institut za nuklearne nauke “Vinča”, Laboratorija za atomsku fiziku, BeogradUniverzitet u Beogradu, Institut za nuklearne nauke “Vinča”, Laboratorija za atomsku fiziku, BeogradUniverzitet u Beogradu, Institut za nuklearne nauke “Vinča”, Laboratorija za atomsku fiziku, BeogradUniverzitet u Beogradu, Institut za anatomiju, Medicinski fakultet, BeogradUniverzitet u Beogradu, Stomatološki fakultet, Klinika za restaurativnu stomatologiju i endodonciju, BeogradThere is growing need for synthetic tissue replacement materials designed in a way that mimic complex structure of tissues and organs. Among various methods for fabrication of implants (scaffolds), 3D printing is very powerful technique because it enables creation of scaffolds with complex internal structures and high resolution, based on medical data sets. This method allows fabrication of scaffolds with desired macro- and micro-porosity and fully inter- connected pore network. Rapid development of 3D printing technologies has enabled various applications from the creation of anatomical training models for complex surgical procedures to the printing of tissue engineering constructs. The aim of current investigations was to develop compatible printers and materials (bioinks) to obtain biomimetic scaffolds, which allow printing of living cells without significant loss of cell viability. The advanced level of such printing assumes “in situ” printing, i.e. printing cells and biomaterials directly onto or in a patient that will reduce recovery time.https://scindeks-clanci.ceon.rs/data/pdf/0039-1743/2017/0039-17431703136J.pdf3D printingbio printingscaffoldsbiomaterials
collection DOAJ
language English
format Article
sources DOAJ
author Jokanović Vukoman
Čolović Božana
Antonijević Đorđe
Mićić Milutin
Živković Slavoljub
spellingShingle Jokanović Vukoman
Čolović Božana
Antonijević Đorđe
Mićić Milutin
Živković Slavoljub
Various methods of 3D and bio-printing
Stomatološki glasnik Srbije
3D printing
bio printing
scaffolds
biomaterials
author_facet Jokanović Vukoman
Čolović Božana
Antonijević Đorđe
Mićić Milutin
Živković Slavoljub
author_sort Jokanović Vukoman
title Various methods of 3D and bio-printing
title_short Various methods of 3D and bio-printing
title_full Various methods of 3D and bio-printing
title_fullStr Various methods of 3D and bio-printing
title_full_unstemmed Various methods of 3D and bio-printing
title_sort various methods of 3d and bio-printing
publisher Serbian Medical Society - Dental Section, Belgrade
series Stomatološki glasnik Srbije
issn 0039-1743
1452-3701
publishDate 2017-01-01
description There is growing need for synthetic tissue replacement materials designed in a way that mimic complex structure of tissues and organs. Among various methods for fabrication of implants (scaffolds), 3D printing is very powerful technique because it enables creation of scaffolds with complex internal structures and high resolution, based on medical data sets. This method allows fabrication of scaffolds with desired macro- and micro-porosity and fully inter- connected pore network. Rapid development of 3D printing technologies has enabled various applications from the creation of anatomical training models for complex surgical procedures to the printing of tissue engineering constructs. The aim of current investigations was to develop compatible printers and materials (bioinks) to obtain biomimetic scaffolds, which allow printing of living cells without significant loss of cell viability. The advanced level of such printing assumes “in situ” printing, i.e. printing cells and biomaterials directly onto or in a patient that will reduce recovery time.
topic 3D printing
bio printing
scaffolds
biomaterials
url https://scindeks-clanci.ceon.rs/data/pdf/0039-1743/2017/0039-17431703136J.pdf
work_keys_str_mv AT jokanovicvukoman variousmethodsof3dandbioprinting
AT colovicbozana variousmethodsof3dandbioprinting
AT antonijevicđorđe variousmethodsof3dandbioprinting
AT micicmilutin variousmethodsof3dandbioprinting
AT zivkovicslavoljub variousmethodsof3dandbioprinting
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