Nanotextured titanium surfaces stimulate spreading, migration, and growth of rat mast cells

Nanotextured titanium surfaces stimulate spreading, migration, and growth of rat mast cells

Titanium is a biomaterial widely used in dental and orthopedic implants. Since tissue–implant interactions occur at the nanoscale level, nanotextured titanium surfaces may affect cellular activity and modulate the tissue response that occurs at the tissue–implant interface. Therefore, the characteri...

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Bibliographic Details
Published in:Journal of biomedical materials research. Part A Vol. 105; no. 8; pp. 2150 - 2161
Main Authors: Marcatti Amarú Maximiano, William, Marino Mazucato, Vivian, Tambasco de Oliveira, Paulo, Célia Jamur, Maria, Oliver, Constance
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-08-2017
Subjects:
Adherent cells
Animals
Biocompatibility
Biocompatible Materials - chemistry
biomaterial
Cell Adhesion
Cell culture
Cell Line
Cell migration
Cell Movement
Cell Proliferation
Cytoskeleton
Dental prosthetics
Histamine
Immune system
Inflammation
Inflammatory response
mast cell
Mast cells
Mast Cells - cytology
migration
morphology
Nanostructure
Nanostructures - chemistry
nanotopography
Physiology
Rats
Surface chemistry
Surface Properties
Surgical implants
Titanium
Titanium - chemistry
Titanium base alloys
Transplants & implants
mast cell
migration
nanotopography
biomaterial
morphology
titanium
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Summary:Titanium is a biomaterial widely used in dental and orthopedic implants. Since tissue–implant interactions occur at the nanoscale level, nanotextured titanium surfaces may affect cellular activity and modulate the tissue response that occurs at the tissue–implant interface. Therefore, the characterization of diverse cell types in response to titanium surfaces with nanotopography is important for the rational design of implants. Mast cells are multifunctional cells of the immune system that release a range of chemical mediators involved in the inflammatory response that occurs at the tissue–implant interface. Therefore, the aim of this study was to investigate the effects of the nanotopography of titanium surfaces on the physiology of mast cells. The results show that the nanotopography of titanium surfaces promoted the spreading of mast cells, which was accompanied by the reorganization of the cytoskeleton. Also, the nanotopography of titanium surfaces enhanced cell migration and cell growth, but did not alter the number of adherent cells in first hours of culture or affect focal adhesions and mediator release. Thus, the results show that nanotopography of titanium surfaces can affect mast cell physiology, and represents an improved strategy for the rational production of surfaces that stimulate tissue integration with the titanium implants. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 105A: 2150–2161, 2017.
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ISSN:1549-3296
1552-4965
DOI:10.1002/jbm.a.36076