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61.
The macrophage migration inhibitory factor has been implicated in a number of immune and inflammatory processes. MIF presents particular opportunities for drug design and development with potential therapeutic applications. Drug design strategies taking into consideration of specific stereochemical and tautomeric requirements in the interaction of MIF with substrates and inhibitors allow several novel structures to be de-signed. Our investigations successfully explored the tautomeric and stereochemical aspects of new compounds of the 2-phenylpyruvic acid type, both experimentally, through synthe-sis and structural investigations and computationally, through molecular mechanics and quantum mechanics calculations. 相似文献
62.
W. G> Shin D. Y. H. Pui H. Fissan S. Neumann A. Trampe 《Journal of nanoparticle research》2007,9(1):61-69
TSI Nanoparticle Surface Area Monitor (NSAM) Model 3550 has been developed to measure the nanoparticle surface area deposited
in different regions of the human lung. It makes use of an adjustable ion trap voltage to match the total surface area of
particles, which are below 100 nm, deposited in tracheobronchial (TB) or alveolar (A) regions of the human lung. In this paper,
calibration factors of NSAM were experimentally determined for particles of different materials. Tests were performed using
monodisperse (Ag agglomerates and NaCl, 7–100 nm) and polydisperse particles (Ag agglomerates, number count mean diameter
below 50 nm). Experimental data show that the currents in NSAM have a linear relation with a function of the total deposited
nanoparticle surface area for the different compartments of the lung. No significant dependency of the calibration factors
on particle materials and morphology was observed. Monodisperse nanoparticles in the size range where the response function
is in the desirable range can be used for calibration. Calibration factors of monodisperse and polydisperse Ag particle agglomerates
are in good agreement with each other, which indicates that polydisperse nanoparticles can be used to determine calibration
factors. Using a CFD computer code (Fluent) numerical simulations of fluid flow and particle trajectories inside NSAM were
performed to estimate response function of NSAM for different ion trap voltages. The numerical simulation results agreed well
with experimental results. 相似文献
63.
我国口腔生物力学研究进展与展望 总被引:1,自引:0,他引:1
本文综述了我国口腔生物力学研究现状、研究手段、达到的水平以及临床应用状况、并作了展望。 相似文献
64.
65.
Yameng Liu 《Electrophoresis》2023,44(11-12):978-987
Macrophages are considered critical in the initiation, maintenance, and resolution of inflammation. Lipopolysaccharide (LPS)-induced inflammation is often used as a model to understand the cell inflammation responses. Current techniques identifying the LPS-induced inflammation are experiencing cell destruction or cell labeling or are based on the whole cell population information with low identification degree. This limits the detection process with time-consuming cytokine selection, low resolution of population heterogeneity, and unavailability for their next use. Direct current insulator-based electrokinetics (DC-iEK) is introduced to achieve an easier and noninvasive identification of inflamed cells with high resolution. A biophysical scale is also established first time for screening medicine in the treatment of inflammation. The new microfluidic design concentrates cells with applied voltages forming streamline providing more stable cell capture conditions and unique biophysical factors at different capture positions. The average electric field of the cell capture positions is recorded to characterize each cell population. The characterization value of macrophage decreases from to 1.61 × 104 V/m when treated with 0.1 mM LPS and to 1.42 × 104 V/m when treated with 1 mM LPS. By treating the inflamed macrophages with representative effective medicines, healing signals could also be detected by a newly established inflammation scale. The cells showed proliferation and functional activity after extraction. DC-iEK has provided an easy and noninvasive approach to identify inflammation for further fundamental and clinical precision medicine use. 相似文献
66.
《Arabian Journal of Chemistry》2023,16(5):104680
The Camellia sinensis plant provides a wide diversity of black, green, oolong, yellow, brick dark, and white tea. Tea is one of the majorly used beverages across the globe, succeeds only in the water for fitness and pleasure. Generally, green tea has been preferred more as compared to other teas due to its main constituent e.g. polyphenols which contribute to various health benefits. The aim of this updated and comprehensive review is to bring together the latest data on the phytochemistry and pharmacological properties of Camellia sinensis and to highlight the therapeutic prospects of the bioactive compounds in this plant so that the full medicinal potential of Camellia sinensis can be realised. A review of published studies on this topic was performed by searching PubMed/MedLine, Scopus, Google scholar, and Web of Science databases from 1999 to 2022. The results of the analysed studies showed that the main polyphenols of tea are the four prime flavonoids catechins: epigallocatechin gallate (EGCG), epicatechin gallate (ECG), epigallocatechin (EGC), and epicatechin (EC) along with the beneficial biological properties of tea for a broad heterogeneity of disorders, including anticancer, neuroprotective, antibacterial, antiviral, antifungal, antiobesity, antidiabetes and antiglaucoma activities. Poor absorption and low bioavailability of bioactive compounds from Camellia sinensis are limiting aspects of their therapeutic use. More human clinical studies and approaching the latest nanoformulation techniques in nanoparticles to transport the target phytochemical compounds to increase therapeutic efficacy are needed in the future. 相似文献