Open Access
Open access
American Association for the Advancement of Science (AAAS)
Science advances
volume 6 issue 29 publication number eaba4174

Magnetic levitational bioassembly of 3D tissue construct in space

Vladislav A Parfenov 1, 2
Yusef D. Khesuani 1
Stanislav V Petrov 1
Pavel A. Karalkin 1, 3
Elizaveta V Koudan 1
Elizaveta K Nezhurina 3
Frederico Das Pereira 1
Alisa A Krokhmal 1
Anna A Gryadunova 1
Elena A Bulanova 1
Igor V Vakhrushev 1
Igor I Babichenko 4
Vladimir Kasyanov 5
O. F. Petrov 6
M. M. Vasiliev 6
Kenneth Brakke 7
Sergei I Belousov 8
Timofei E Grigoriev 8
E. O. Osidak 9
Ekaterina I Rossiyskaya 10
Л. Б. Буравкова 11
Oleg D Kononenko 12
Utkan Demirci 13
Vladimir Mironov 1, 14
1
 
Laboratory for Biotechnological Research “3D Bioprinting Solutions”, Moscow, Russia.
2
 
3
 
4
 
5
 
6
 
7
 
8
 
9
 
Imtek Ltd., Moscow, Russia.
10
 
11
 
12
 
Yu.A. Gagarin Research & Test Cosmonaut Training Center, Star City, Moscow Region, Russia.
13
 
14
 
Publication typeJournal Article
Publication date2020-07-17
American Association for the Advancement of Science (AAAS)
scimago Q1
wos Q1
SJR4.324
CiteScore19.6
Impact factor12.5
ISSN23752548
Multidisciplinary
Abstract
Magnetic levitation is used for 3D biomanufacturing and biofabrication in space. Magnetic levitational bioassembly of three-dimensional (3D) tissue constructs represents a rapidly emerging scaffold- and label-free approach and alternative conceptual advance in tissue engineering. The magnetic bioassembler has been designed, developed, and certified for life space research. To the best of our knowledge, 3D tissue constructs have been biofabricated for the first time in space under microgravity from tissue spheroids consisting of human chondrocytes. Bioassembly and sequential tissue spheroid fusion presented a good agreement with developed predictive mathematical models and computer simulations. Tissue constructs demonstrated good viability and advanced stages of tissue spheroid fusion process. Thus, our data strongly suggest that scaffold-free formative biofabrication using magnetic fields is a feasible alternative to traditional scaffold-based approaches, hinting a new perspective avenue of research that could significantly advance tissue engineering. Magnetic levitational bioassembly in space can also advance space life science and space regenerative medicine.
Found 
Found 
5 citations
Koudan Elizaveta
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h-index: 16
National University of Science & Technology (MISiS)
National University of Science & Technology (MISiS)
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Omelyanchik Aleksandr
PhD in Physics and Mathematics
75 publications 1 097 citations 112 reviews
h-index: 18
Immanuel Kant Baltic Federal University
Immanuel Kant Baltic Federal University
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h-index: 16
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Herzen Moscow Oncology Research Institute
Herzen Moscow Oncology Research Institute
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National Medical Research Radiological Centre of the Ministry of Health of the Russian Federation
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Baikal Institute of Nature Management of the Siberian Branch of the Russian Academy of Sciences
Baikal Institute of Nature Management of the Siberian Branch of the Russian Academy of Sciences
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Polymer science
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Prilepskii Artur
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GOST Copy
Parfenov V. A. et al. Magnetic levitational bioassembly of 3D tissue construct in space // Science advances. 2020. Vol. 6. No. 29. eaba4174
GOST all authors (up to 50) Copy
Parfenov V. A., Khesuani Y. D., Petrov S. V., Karalkin P., Koudan E. V., Nezhurina E. K., Pereira F. D., Krokhmal A. A., Gryadunova A. A., Bulanova E. A., Vakhrushev I. V., Babichenko I. I., Kasyanov V., Petrov O. F., Vasiliev M. M., Brakke K., Belousov S. I., Grigoriev T. E., Osidak E. O., Rossiyskaya E. I., Буравкова Л. Б., Kononenko O. D., Demirci U., Mironov V. Magnetic levitational bioassembly of 3D tissue construct in space // Science advances. 2020. Vol. 6. No. 29. eaba4174
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1126/sciadv.aba4174
UR - https://www.science.org/doi/10.1126/sciadv.aba4174
TI - Magnetic levitational bioassembly of 3D tissue construct in space
T2 - Science advances
AU - Parfenov, Vladislav A
AU - Khesuani, Yusef D.
AU - Petrov, Stanislav V
AU - Karalkin, Pavel A.
AU - Koudan, Elizaveta V
AU - Nezhurina, Elizaveta K
AU - Pereira, Frederico Das
AU - Krokhmal, Alisa A
AU - Gryadunova, Anna A
AU - Bulanova, Elena A
AU - Vakhrushev, Igor V
AU - Babichenko, Igor I
AU - Kasyanov, Vladimir
AU - Petrov, O. F.
AU - Vasiliev, M. M.
AU - Brakke, Kenneth
AU - Belousov, Sergei I
AU - Grigoriev, Timofei E
AU - Osidak, E. O.
AU - Rossiyskaya, Ekaterina I
AU - Буравкова, Л. Б.
AU - Kononenko, Oleg D
AU - Demirci, Utkan
AU - Mironov, Vladimir
PY - 2020
DA - 2020/07/17
PB - American Association for the Advancement of Science (AAAS)
IS - 29
VL - 6
PMID - 32743068
SN - 2375-2548
ER -
BibTex
Cite this
BibTex (up to 50 authors) Copy
@article{2020_Parfenov,
author = {Vladislav A Parfenov and Yusef D. Khesuani and Stanislav V Petrov and Pavel A. Karalkin and Elizaveta V Koudan and Elizaveta K Nezhurina and Frederico Das Pereira and Alisa A Krokhmal and Anna A Gryadunova and Elena A Bulanova and Igor V Vakhrushev and Igor I Babichenko and Vladimir Kasyanov and O. F. Petrov and M. M. Vasiliev and Kenneth Brakke and Sergei I Belousov and Timofei E Grigoriev and E. O. Osidak and Ekaterina I Rossiyskaya and Л. Б. Буравкова and Oleg D Kononenko and Utkan Demirci and Vladimir Mironov},
title = {Magnetic levitational bioassembly of 3D tissue construct in space},
journal = {Science advances},
year = {2020},
volume = {6},
publisher = {American Association for the Advancement of Science (AAAS)},
month = {jul},
url = {https://www.science.org/doi/10.1126/sciadv.aba4174},
number = {29},
pages = {eaba4174},
doi = {10.1126/sciadv.aba4174}
}