12 research outputs found

    Progress on Thin Film Freezing Technology for Dry Powder Inhalation Formulations

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    The surface drying process is an important technology in the pharmaceutical, biomedical, and food industries. The final stage of formulation development (i.e., the drying process) faces several challenges, and overall mastering depends on the end step. The advent of new emerging technologies paved the way for commercialization. Thin film freezing (TFF) is a new emerging freeze-drying technique available for various treatment modalities in drug delivery. TFF has now been used for the commercialization of pharmaceuticals, food, and biopharmaceutical products. The present review highlights the fundamentals of TFF along with modulated techniques used for drying pharmaceuticals and biopharmaceuticals. Furthermore, we have covered various therapeutic applications of TFF technology in the development of nanoformulations, dry powder for inhalations and vaccines. TFF holds promise in delivering therapeutics for lung diseases such as fungal infection, bacterial infection, lung dysfunction, and pneumonia

    On-surface synthesis of graphene nanoribbons with zigzag edge topology

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    Graphene-based nanostructures exhibit a vast range of exciting electronic properties that are absent in extended graphene. For example, quantum confinement in carbon nanotubes and armchair graphene nanoribbons (AGNRs) leads to the opening of substantial electronic band gaps that are directly linked to their structural boundary conditions. Even more intriguing are nanostructures with zigzag edges, which are expected to host spin-polarized electronic edge states and can thus serve as key elements for graphene-based spintronics. The most prominent example is zigzag graphene nanoribbons (ZGNRs) for which the edge states are predicted to couple ferromagnetically along the edge and antiferromagnetically between them. So far, a direct observation of the spin-polarized edge states for specifically designed and controlled zigzag edge topologies has not been achieved. This is mainly due to the limited precision of current top-down approaches, which results in poorly defined edge structures. Bottom-up fabrication approaches, on the other hand, were so far only successfully applied to the growth of AGNRs and related structures. Here, we describe the successful bottom-up synthesis of ZGNRs, which are fabricated by the surface-assisted colligation and cyclodehydrogenation of specifically designed precursor monomers including carbon groups that yield atomically precise zigzag edges. Using scanning tunnelling spectroscopy we prove the existence of edge-localized states with large energy splittings. We expect that the availability of ZGNRs will finally allow the characterization of their predicted spin-related properties such as spin confinement and filtering, and ultimately add the spin degree of freedom to graphene-based circuitry.Comment: 15 pages, 4 figure

    Secure kNN Query Processing in Entrusted Cloud Environments

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    Now days a Wireless devices which having geopositioning facility like GPS enable users to give information about their current location. Users are interested in querying in their physical location like restaurants, college, home, etc. Such data may be important due to their information. Furthermore, storing such relevant information regularly to the users tedious task, so the author of such information will make the data access only to paying users. The users are send their proper location as the query parameter, and wish to accept as result the nearest position, i.e., nearest-neighbors (NNs). But actual data owners do not have the technical knowledge to support processed query on a large data, so they outsource information storage and querying to a main dataset. Many such cloud providers exist offer powerful storage and computational structures at less cost. However, such a dataset providers are not completely trusted, and typically behave in a causal fashion. Specifically they use the some rules to answer queries perfectly, but they also collect the locations of the users and the subscribers for other uses. Giving this information of locations can lead to security breaches and financial losses to the data provider, for whom the dataset is an important source of revenue. The importance of user locations leads to privacy and may refer subscribers from using the service altogether. In this paper, we propose a set of ideas that allow NN queries in an unsecured outsourced structure, while at the same time provide security to both the location and querying users’ positions. Our ideas focus on only secure order-preserving encryption method which is known to-date. We also provide performance measurements to reduce the processing cost inherent to processing on secured data, and we consider the problem of incrementally updating these datasets. We present an extensive performance measurement of our ideas to illustrate their use in practice. Keywords- location privacy, spatial databases, database outsourcing, mutable order preserving encoding

    Progress on Thin Film Freezing Technology for Dry Powder Inhalation Formulations

    No full text
    The surface drying process is an important technology in the pharmaceutical, biomedical, and food industries. The final stage of formulation development (i.e., the drying process) faces several challenges, and overall mastering depends on the end step. The advent of new emerging technologies paved the way for commercialization. Thin film freezing (TFF) is a new emerging freeze-drying technique available for various treatment modalities in drug delivery. TFF has now been used for the commercialization of pharmaceuticals, food, and biopharmaceutical products. The present review highlights the fundamentals of TFF along with modulated techniques used for drying pharmaceuticals and biopharmaceuticals. Furthermore, we have covered various therapeutic applications of TFF technology in the development of nanoformulations, dry powder for inhalations and vaccines. TFF holds promise in delivering therapeutics for lung diseases such as fungal infection, bacterial infection, lung dysfunction, and pneumonia

    Tumor-necrosis factor impairs CD4(+) T cell-mediated immunological control in chronic viral infection

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    Persistent viral infections are characterized by the simultaneous presence of chronic inflammation and T cell dysfunction. In prototypic models of chronicity-infection with human immunodeficiency virus (HIV) or lymphocytic choriomeningitis virus (LCMV)-we used transcriptome-based modeling to reveal that CD4(+) T cells were co-exposed not only to multiple inhibitory signals but also to tumor-necrosis factor (TNF). Blockade of TNF during chronic infection with LCMV abrogated the inhibitory gene-expression signature in CD4(+) T cells, including reduced expression of the inhibitory receptor PD-1, and reconstituted virus-specific immunity, which led to control of infection. Preventing signaling via the TNF receptor selectively in T cells sufficed to induce these effects. Targeted immunological interventions to disrupt the TNF-mediated link between chronic inflammation and T cell dysfunction might therefore lead to therapies to overcome persistent viral infection
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