Notes

Predictors associated with work pleasure and also intention to remain in the job between health-care companies in Uganda as well as Zambia.
As a proof of concept, the plasmonic nanomembranes are loaded with cell non-permeant antibodies, which upon near-infrared stimulation can be released from the plasmonic nanomembranes into the cytosol of living cells, without impairing cell viability or the antibodies' function. These results set the stage for the development of photoactive cell-derived nanocarriers, which in addition to cell-specific functions promise straightforward access to spatiotemporal-controlled intracellular delivery of antibodies. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The usage of biomineralization processes performed by living microalgae to create 3D nanostructured materials are advantageous compared to conventional synthesis routes. Exploitation of in vivo shaping using living cells leads to inorganic intricate biominerals, produced with low environmental impact. Since biomineralization processes are genetically controlled, the formation of nanostructured materials is highly reproducible. The shells of microalgae, like coccoliths, are particularly of great interest. This study shows the generation of mesoporous highly structured functional materials with induced optoelectronical properties using in vivo processes of the microalga species Emiliania huxleyi. It demonstrates the metabolically driven incorporation of the lanthanide terbium into the coccoliths of E. huxleyi as a route for the synthesis of finely patterned photoluminescent particles by feeding the microalgae with this luminescent element. The resulting green luminescent particles have hierarchical ordered pores on the nano- and microscale and may act as powerful tools for many applications; they may serve as imaging probes for biomedical applications, or in microoptics. The luminescent coccoliths combine a unique hierarchical structure with a characteristic luminescence pattern, which make them superior to conventional produced Tb doted material. With this study, the possibility of the further exploitation of coccoliths as advanced functional materials for nanotechnological applications is given. © 2020 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Islet transplantation has been demonstrated to be a promising therapy for type 1 diabetes mellitus. Although it is a minimally invasive operating procedure and provides easy access for graft monitoring, subcutaneous transplantation of the islet only has limited therapeutic outcomes, owing to the poor capacity of skin tissue to foster revascularization in a short period. Herein, 3D cell spheroids of clinically accessible umbilical cord blood mesenchymal stem cells and human umbilical vein endothelial cells are formed and employed for codelivery with β cells subcutaneously. The 3D stem cell spheroids, which can secrete multiple proangiogenic and prosurvival growth factors, induce robust angiogenesis and prevent β cell graft death, as indicated by the results of in vivo bioluminescent tracking and histological analysis. These experimental data highlight the efficacy of the 3D stem cell spheroids that are fabricated using translationally applicable cell types in promoting the survival and function of subcutaneously transplanted β cells. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.The continuous development of simple and practical cell cryopreservation methods is of great importance to a variety of sectors, especially when considering the efficient short- and long-term storage of cells and their transportation. Although the overall success of such methods has been increased in recent years, there is still need for a unified platform that is highly suitable for efficient cryogenic storage of cells in addition to their easy-to-manage retrieval. Here, a paper-based cell cryopreservation method as an alternative to conventional cryopreservation methods is presented. The method is space-saving, cost-effective, simple and easy to manage, and requires no additional fine-tuning to conventional freezing and thawing procedures to yield comparable recovery of viable cells. It is shown that treating papers with fibronectin solution enhances the release of viable cells post thawing as compared to untreated paper platforms. Additionally, upon release, the remaining cells within the paper lead to the formation and growth of spheroid-like structures. Moreover, it is demonstrated that the developed method works with paper-based 3D cultures, where preformed 3D cultures can be efficiently cryopreserved. © 2020 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Mitochondria are the powerhouse of the cell, which maintain the metabolism of living cells. Mitochondrial membrane potential (MMP) is the key parameter of mitochondria and represents cellular activity. The programmable MMP transformations, i.e., normal, decrease, and vanishing, are indicative mitochondria healthy/damaged/dead states. Therefore, methods for monitoring MMP are of great importance. In this work, carbon dots responsive to mitochondrial membrane potential (MMP-CDs) are prepared by a simple microwave method. The intracellular distribution of the MMP-CDs is dependent on the mitochondrial membrane potential. Three different spatiotemporally organelle distributions (mitochondria/lysosome/nucleus) of the MMP-CDs indicate three distinct MMP levels (normal/decrease/vanishing), which represent three different cell states (healthy/damaged/dead). The normal cells with high mitochondrial membrane potential causes the MMP-CDs to accumulate in the mitochondria due to the Nernstian effect. The MMP-CDs are released from the mitochondria and transported to the lysosome when cells are in apoptosis with the decreased mitochondrial membrane potential. In dead cells with a vanished mitochondrial membrane potential, the MMP-CDs are collocated with the nucleus due to the affinity with DNA. Thus, various cellular states can be visualized through the different localizations of the MMP-CDs. These MMP-CDs are successfully employed in the detection of autophagy and H2 O2 -induced mitochondria and mitochondrial membrane potential changes. selleck chemical © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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