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The Impact of Simulated and Real Microgravity on Bone Cells and Mesenchymal Stem Cells

by Ulbrich, Claudia , van Loon, Jack , Grimm, Daniela , Wise, Petra , Wehland, Markus , Pietsch, Jessica , Aleshcheva, Ganna , Grosse, Jirka , Magnusson, Nils , Infanger, Manfred , Sundaresan, Alamelu , Eilles, Christoph

in Analysis / Apoptosis / Biology / Biomedical research / Bioreactors / Bone and Bones - cytology / Bone and Bones - metabolism / Bone cells / Bone density / Cell Culture Techniques - methods / Experiments / Gene expression / Gravity / Humans / Influence / Laboratories / Medical research / Mesenchymal Stromal Cells - cytology / Mesenchymal Stromal Cells - metabolism / Microgravity / Physiological aspects / Physiology / Review / Stem cells / Studies / Tissue Engineering / Weightlessness

2014

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The Impact of Simulated and Real Microgravity on Bone Cells and Mesenchymal Stem Cells

2014

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2014

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Journal Article

The Impact of Simulated and Real Microgravity on Bone Cells and Mesenchymal Stem Cells

Ulbrich, Claudia,

van Loon, Jack,

Grimm, Daniela,

Wise, Petra,

Wehland, Markus,

Pietsch, Jessica,

Aleshcheva, Ganna,

Grosse, Jirka,

Magnusson, Nils,

Infanger, Manfred,

Sundaresan, Alamelu,

Eilles, Christoph

2014

Overview

How microgravity affects the biology of human cells and the formation of 3D cell cultures in real and simulated microgravity (r- and s-µg) is currently a hot topic in biomedicine. In r- and s-µg, various cell types were found to form 3D structures. This review will focus on the current knowledge of tissue engineering in space and on Earth using systems such as the random positioning machine (RPM), the 2D-clinostat, or the NASA-developed rotating wall vessel bioreactor (RWV) to create tissue from bone, tumor, and mesenchymal stem cells. To understand the development of 3D structures, in vitro experiments using s-µg devices can provide valuable information about modulations in signal-transduction, cell adhesion, or extracellular matrix induced by altered gravity conditions. These systems also facilitate the analysis of the impact of growth factors, hormones, or drugs on these tissue-like constructs. Progress has been made in bone tissue engineering using the RWV, and multicellular tumor spheroids (MCTS), formed in both r- and s-µg, have been reported and were analyzed in depth. Currently, these MCTS are available for drug testing and proteomic investigations. This review provides an overview of the influence of µg on the aforementioned cells and an outlook for future perspectives in tissue engineering.

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Publisher

Hindawi Puplishing Corporation,Hindawi Publishing Corporation,John Wiley & Sons, Inc

Subject

Analysis

/ Apoptosis

/ Biology

/ Biomedical research

/ Bioreactors

/ Bone and Bones - cytology

/ Bone and Bones - metabolism