Nanotechnology to Drive Stem Cell Commitment

Overview

Journal Nanomedicine (Lond)

Specialty Biotechnology

Date 2013 Mar 13

PMID 23477337

Citations 12

Authors

Eriberto Bressan

Amedeo Carraro

Letizia Ferroni

Chiara Gardin

Luca Sbricoli

Riccardo Guazzo

Edoardo Stellini

Marco Roman

Paolo Pinton

Stefano Sivolella

Barbara Zavan

Affiliations

Soon will be listed here.

Abstract

Stem cells (SCs) are undifferentiated cells responsible for the growth, homeostasis and repair of many tissues. The maintenance and survival of SCs is strongly influenced by several stimuli from the local microenvironment. The majority of signaling molecules interact with SCs at the nanoscale level. Therefore, scaffolds with surface nanostructures have potential applications for SCs and in the field of regenerative medicine. Although some strategies have already reached the field of cell biology, strategies based on modification at nanoscale level are new players in the fields of SCs and tissue regeneration. The introduction of the possibility to perform such modifications to these fields is probably due to increasing improvements in nanomaterials for biomedical applications, as well as new insights into SC biology. The aim of the present review is to exhibit the most recent applications of nanostructured materials that drive the commitment of adult SCs for potential clinical applications.

Citing Articles

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In Vitro Model for the Evaluation of Innovative Transcatheter Debridement Device (TDD): Pericardium-Based Scaffold and Stem Cells to Reproduce Calcificated Valves.

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The Biological Properties of OGI Surfaces Positively Act on Osteogenic and Angiogenic Commitment of Mesenchymal Stem Cells.

Ghensi P, Bressan E, Gardin C, Ferroni L, Soldini M, Mandelli F Materials (Basel). 2017; 10(11).

PMID: 29149082 PMC: 5706268. DOI: 10.3390/ma10111321.

Porcine Bone Scaffolds Adsorb Growth Factors Secreted by MSCs and Improve Bone Tissue Repair.

Mijiritsky E, Ferroni L, Gardin C, Bressan E, Zanette G, Piattelli A Materials (Basel). 2017; 10(9).

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Non-Washed Resorbable Blasting Media (NWRBM) on Titanium Surfaces could Enhance Osteogenic Properties of MSCs through Increase of miRNA-196a And VCAM1.

Gardin C, Ferroni L, Piattelli A, Sivolella S, Zavan B, Mijiritsky E Stem Cell Rev Rep. 2016; 12(5):543-552.

PMID: 27318850 DOI: 10.1007/s12015-016-9669-1.