Suna Giannona scite author profile

Suna Giannona

2Publications

57Citation Statements Received

36Citation Statements Given

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Center of Advanced European Studies and Research

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Vertically Aligned Carbon Nanotubes as Cytocompatible Material for Enhanced Adhesion and Proliferation of Osteoblast-Like Cells

Giannona¹,

Firkowska²,

Rojas-Chapana³

et al. 2007

j nanosci nanotechnol

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In this study, we describe the spatial organization of CAL-72 osteoblast-like cells on arrays of vertically aligned multi-walled carbon nanotubes (VACNTs). It was observed that, unlike cell growth on non-patterned surfaces, the cell attachment and spreading process on VACNTs was significantly enhanced. Additionally, since carbon nanotubes are known to possess resilient mechanical properties and are chemically stable, the effect of periodic arrays of VACNTs on CAL-72 osteoblast-like cells was also studied. The periodicity and alignment of VACNTs considerably influenced growth, shape and orientation of the cells by steering toward the nanopattern. This situation is of great interest for the potential application of VACNTs in bone bioenginnering. This data provides evidence that CAL-72 osteoblast-like cells can sense physical features at the nanoscale. These results give a fascinating insight into the ways in which cell growth can be influenced by man-made nanostructures and could provide a framework for achieving controlled cell guidance with controlled organization and special physical properties.

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Biocompatible Nanomaterials and Nanodevices Promising for Biomedical Applications

Firkowska

Giannona

Rojas-Chapana

et al. 2008

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Nanotechnology applied to biology requires a thorough understanding of how molecules, sub-cellular entities, cells, tissues, and organs function and how they are structured. The merging of nanomaterials and life science into hybrids of controlled organization and function is possible, assuming that biology is nanostructured, and therefore man-made nano-materials can structurally mimic nature and complement each other. By taking advantage of their special properties, nanomaterials can stimulate, respond to and interact with target cells and tissues in controlled ways to induce desired physiological responses with a minimum of undesirable effects. To fulfill this goal the fabrication of nano-engineered materials and devices has to consider the design of natural systems. Thus, engineered micro-nano-featured systems can be applied to biology and biomedicine to enable new functionalities and new devices. These include, among others, nanostructured implants providing many advantages over existing, conventional ones, nanodevices for cell manipulation, and nanosensors that would provide reliable information on biological processes and functions.

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Suna Giannona

Vertically Aligned Carbon Nanotubes as Cytocompatible Material for Enhanced Adhesion and Proliferation of Osteoblast-Like Cells

Biocompatible Nanomaterials and Nanodevices Promising for Biomedical Applications

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