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Peritumoral brain invasion is the main target to cure glioblastoma. Chemoradiotherapy and targeted therapies fail to combat peritumoral relapse. Brain inaccessibility and tumor heterogeneity explain this failure, combined with overlooking the peritumor microenvironment. Reduce graphene oxide (rGO) provides a unique opportunity to modulate the local brain microenvironment. Multimodal graphene impacts...
The graphene revolution, which has taken place during the last 15 years, has represented a paradigm shift for science. The extraordinary properties possessed by this unique material have paved the road to a number of applications in materials science, optoelectronics, energy, and sensing. Graphene‐related materials (GRMs) are now produced in large scale and have found niche applications also in the...
Graphene and other 2D materials, such as molybdenum disulfide, have been increasingly used in electronics, composites, and biomedicine. In particular, MoS2 and graphene hybrids have attracted a great interest for applications in the biomedical research, therefore stimulating a pertinent investigation on their safety in immune cells like macrophages, which commonly engulf these materials. In this study,...
The cover, inspired by a famous album cover by Pink Floyd, represents the transformation of the “dark” undetected signal side of graphene into a visible signal, thanks to a specific functionalization with ZnS‐doped AgInS2 nanocrystals, allowing its tracking on the complex mix of human peripheral blood mononuclear cells at the single cell level, as presented in article number 2000123, by Davide Bedognetti,...
Considering the potential exposure to graphene, the most investigated nanomaterial, the assessment of the impact on human health has become an urgent need. The deep understanding of nanomaterial safety is today possible by high‐throughput single‐cell technologies. Single‐cell mass cytometry (cytometry by time‐of flight, CyTOF) shows an unparalleled ability to phenotypically and functionally profile...
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