Authors: R. Sharma, K. Shetty, R. Liang and C.J. Chen
Affilation: Florida State University, United States
Pages: 681 - 683
Keywords: carbon nanotube, MRI, skin
Carbon nanotubes are emerging as potential tools in drug delivery nanocarriers to target specific cell types and carbon cages filled with metal molecules and may improve MRI microimaging. The present paper reviews the current state of art on detection of possible hazards of carbon nanotubes with limitations to use of them as potential biomedical material for their bio-applications. The present report demonstrates the possibility of 30 nm sized carbon nanotubes penetrating in skin tissue very fast during microimaging MRI experiments within 2-3 minutes because of its small size and easy penetration across barrier. It indicates that some types of nanoparticles might pose as tiny toxin to tissue before it is used as nanocarrier, chemotherapeutic nanosphere. The carbon nanotubes showed damage to epidermis and hair across the skin. By histology, main damage was at the level of membrane and nucleus at different epidermis, dermis layers. These features suggest the thorough experimental validation to exclude any chance of toxic carbon nanotubes or nanoparticles before their acceptance as potential tools in health nanotechnology.