AI Article Synopsis
- - Understanding how nanomaterials interact with biological systems is crucial for their biomedical application, but the processes of their uptake, degradation, and clearance in the body are not yet fully understood.
- - Some nanomaterials like liposomes and various nanoparticles are FDA-approved for clinical trials; however, there's still significant uncertainty about their long-term effects and behavior in the body.
- - The review highlights the need to explore the distribution, clearance mechanisms, and biological barriers nanomaterials face to maximize their efficacy and informs future research directions.
Article Abstract
Realization of the immense potential of nanomaterials for biomedical applications will require a thorough understanding of how they interact with cells, tissues, and organs. There is evidence that, depending on their physicochemical properties and subsequent interactions, nanomaterials are indeed taken up by cells. However, the subsequent release and/or intracellular degradation of the materials, transfer to other cells, and/or translocation across tissue barriers are still poorly understood. The involvement of these cellular clearance mechanisms strongly influences the long-term fate of used nanomaterials, especially if one also considers repeated exposure. Several nanomaterials, such as liposomes and iron oxide, gold, or silica nanoparticles, are already approved by the American Food and Drug Administration for clinical trials; however, there is still a huge gap of knowledge concerning their fate in the body. Herein, clinically relevant nanomaterials, their possible modes of exposure, as well as the biological barriers they must overcome to be effective are reviewed. Furthermore, the biodistribution and kinetics of nanomaterials and their modes of clearance are discussed, knowledge of the long-term fates of a selection of nanomaterials is summarized, and the critical points that must be considered for future research are addressed.
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| http://dx.doi.org/10.1002/adma.201704307 | DOI Listing |
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