Amineh Ghaderi; Yugal Agrawal;Ashutosh Tiwari; Eduardo Antunez de Mayolo; Hirak Kumar Patra; Mohsen Golabi; Onur Parlak; Rickard Gunnarsson; Raul Campos; Revuri Vishnu; Sami Elhag; Selvakumar Subramanain; Wetra Yandi; Yuan Liu
Abstract
Nanoscale theragnosis is the biomedical aspect of nanomaterials for simultaneous diagnosis and therapy. The last decade was completely devoted by the scientist to combine the advancement in nanotechnology molecular biotechnology for the development of future nanomedicine. The approach started with the ...
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Nanoscale theragnosis is the biomedical aspect of nanomaterials for simultaneous diagnosis and therapy. The last decade was completely devoted by the scientist to combine the advancement in nanotechnology molecular biotechnology for the development of future nanomedicine. The approach started with the development of target-specific delivery of the cargo imaging molecule or drugs for biomedical applications. The cutting edge advantages of the nanoscale materials (e.g., large surface to volume ratio, size-shape dependent physicochemical properties and multi-functionality etc.) proved themselves as the most potential preferences to design optimal therapy for the personalized medicine. The present tutorial review will highlight the recent advances in the development on the regulation of such theragnosis system and their biomedical perspectives to act as a future nanomedicine.
Chan Oeurn Chey; Wetra Yandi;Ashutosh Tiwari; Hirak K Patra; Mattias Tengdelius; Mohsen Golabi; Onur Parlak; Roghayeh Imani; Sami A. I. Elhag
Abstract
The length scale for nanomaterial is small enough to be invisible and presume innocence for the initial avoidance of the toxicity issues. Again it was beyond the understanding of the time frame when nanotechnology just blooms that a length scale itself might be an important toxic parameter apart from ...
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The length scale for nanomaterial is small enough to be invisible and presume innocence for the initial avoidance of the toxicity issues. Again it was beyond the understanding of the time frame when nanotechnology just blooms that a length scale itself might be an important toxic parameter apart from its materialistic properties. We present this report to address the fundamental issues and questions related to the nanotoxicity issues from laboratory to the land of applications. We emphasize about the basic nanoscale materials that are regularly being used by the scientific community and the nanotechnology based materials that has already in the market or will come soon.