352 research outputs found

    Anti-Helicobacter pylori activity of steroidal alkaloids obtained from three Veratrum plants

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    Anti-Helicobacter pylori (HP) activities were examined, by disc method, on three total alkaloid fractions and fourteen steroidal alkaloids obtained from three Veratrum plants ( V. manckii, V. nigrum var. ussuriense and V. patulum) , which are used as a name of "Li-lu (藜蘆)" to treat aphasia arising from apoplexy, wind type dysentery, jaundice, headache, scabies, chronic malaria, etc. Among them, verapatulin (12) and veratramine (13) revealed anti-HP activities, and the disc-minimum inhibitory concentration (disk-MIC) value (10 μg/ml) of 12 against two standard HP strains, NCTC11637 and NCTC11916, was higher than that of a clinically used antibiotic, erythromycin (≦0.013 μg/ml) , but was comparable to those of penicillin G (3.1 μg/ml and 1.6 μg/ml, respectively). 漢薬"藜蘆"として用いられている3種のヴェラトラム属植物(V.maackii, V.nigrum var.ussuriense and V.patulum)から得た総アルカロイドフラクション3種及ぴステロイドアルカロイド14種について,抗ヘリコバクター・ピロリ活性をディスク法で測定した。調べたステロイドアルカロイドの中で,ヴェラパツリン(12)及ぴヴェラトラミン(13)が抗ヘリコバクター・ピロリ活性を示した。ヴェラパツリン(12)のヘリコバグター・ピロリ標準株2種(NCTC11637及ぴNCTC11916)に対するdisk MIC値は10μg/mlであり,臨床で用いられる抗生物質のエリスロマイシン(≦0.013μg/ml)よりは弱いが,ペニシリンG(各標準株に対して3.1μg/ml,1.6μg/ml)と同程度であった

    A novel Rac1-GSPT1 signaling pathway controls astrogliosis following central nervous system injury

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    Astrogliosis (i.e. glial scar), which is comprised primarily of proliferated astrocytes at the lesion site and migrated astrocytes from neighboring regions, is one of the key reactions in determining outcomes after CNS injury. In an effort to identify potential molecules/pathways that regulate astrogliosis, we sought to determine whether Rac/Rac-mediated signaling in astrocytes represents a novel candidate for therapeutic intervention following CNS injury. For these studies, we generated mice with Rac1 deletion under the control of the GFAP (glial fibrillary acidic protein) promoter (GFAP-Cre;Rac1(flox/flox)). GFAP-Cre;Rac1(flox/flox) (Rac1-KO) mice exhibited better recovery after spinal cord injury and exhibited reduced astrogliosis at the lesion site relative to control. Reduced astrogliosis was also observed in Rac1-KO mice following microbeam irradiation-induced injury. Moreover, knockdown (KD) or KO of Rac1 in astrocytes (LN229 cells, primary astrocytes, or primary astrocytes from Rac1-KO mice) led to delayed cell cycle progression and reduced cell migration. Rac1-KD or Rac1-KO astrocytes additionally had decreased levels of GSPT1 (G(1) to S phase transition 1) expression and reduced responses of IL-1β and GSPT1 to LPS treatment, indicating that IL-1β and GSPT1 are downstream molecules of Rac1 associated with inflammatory condition. Furthermore, GSPT1-KD astrocytes had cell cycle delay, with no effect on cell migration. The cell cycle delay induced by Rac1-KD was rescued by overexpression of GSPT1. Based on these results, we propose that Rac1-GSPT1 represents a novel signaling axis in astrocytes that accelerates proliferation in response to inflammation, which is one important factor in the development of astrogliosis/glial scar following CNS injury

    Empirical Calculation Method of Bypass Leakage in Scroll Compressors

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    This study presents an empirical method to calculate the bypass leakage mass flow rate along the tip seal in a scroll compressor. The leakage flows through small axial and radial clearances between the orbiting and fixed scrolls of scroll compressor were previously studied by Ishii et al. In these earlier studies, the pressure decay in the pressurized vessel due to leakage through the axial and radial clearances was measured using a maximum pressure of 3 MPa for CO2 and 0.6 MPa for R22. The Darcy-Weisbach equation for incompressible, viscous fluid flow through the thin rectangular cross-section was applied to calculate the leakage mass flow rate that matched the pressure decay characteristics. The empirical friction factors were determined and plotted on a Moody diagram. As a result, the empirical friction factors for both axial and radial clearance leakage flows have been determined and shown to take on essentially the same value for both CO2 and R22, despite the significantly different working pressures. In contrast, the flow patterns in bypass leakage along the tip seal are so complicated that not even the leakage characteristics are known definitively. No method exists for calculating the bypass leakage mass flow rate. In the present study, a bypass leakage model was constructed, compatible with a production-type scroll compressor with a large cooling capacity. A similar test of the pressure decay in the pressurized vessel due to bypass leakages were conducted with the refrigerant gas R410A. The measured pressure decay characteristics were then simulated by the Darcy-Weisbach equation with the empirical friction factors from our previous study for the leakage flow through the axial clearance. In the present simulations of the measured pressure decay, the complicated flow patterns through bypass clearances were classified into two representative rectangular thin cross-section leakage passes, one with an equivalent width and the other with an equivalent length. Empirical friction factor values for the equivalent pass width and length were determined to match the measured pressure decays. As a result, the calculation of the bypass leakage flow rate along the tip seal in scroll compressors can be accomplished using a simple scheme in terms of the equivalent pass width and equivalent pass length for two representative leakage passes forming a thin rectangular cross-section and applying empirically determined friction factors,

    Special Relativistic Magnetohydrodynamic Simulation of Two-Component Outflow Powered by Magnetic Explosion on Compact Stars

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    The nonlinear dynamics of outflows driven by magnetic explosion on the surface of a compact star is investigated through special relativistic magnetohydrodynamic simulations. We adopt, as the initial equilibrium state, a spherical stellar object embedded in hydrostatic plasma which has a density ρ(r)rα\rho(r) \propto r^{- \alpha} and is threaded by a dipole magnetic field. The injection of magnetic energy at the surface of compact star breaks the equilibrium and triggers a two-component outflow. At the early evolutionary stage, the magnetic pressure increases rapidly around the stellar surface, initiating a magnetically driven outflow. A strong forward shock driven outflow is then excited. The expansion velocity of the magnetically driven outflow is characterized by the Alfv\'en velocity on the stellar surface, and follows a simple scaling relation vmagvA1/2v_{\rm mag} \propto {v_{\rm A}}^{1/2}. When the initial density profile declines steeply with radius, the strong shock is accelerated self-similarly to relativistic velocity ahead of the magnetically driven component. We find that it evolves according to a self-similar relation Γshrsh\Gamma_{\rm sh} \propto r_{\rm sh}, where Γsh\Gamma_{\rm sh} is the Lorentz factor of the plasma measured at the shock surface rshr_{\rm sh}. Purely hydrodynamic process would be responsible for the acceleration mechanism of the shock driven outflow. Our two-component outflow model, which is the natural outcome of the magnetic explosion, can provide a better understanding of the magnetic active phenomena on various magnetized compact stars.Comment: Accepted for publication in ApJ. 15 pages, 2 tables, 17 figure

    FEDSM2002-31229 CALCULATION OF TWO-PHASE FLOWS IN AN OIL SEPARATOR BY USING A CUBIC INTERPOLATED PROPAGATION CODE ON UNSTRUCTURED GRID SPACES

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    ABSTRACT We have developed a cubic interpolated propagation (CIP) code combined with a finite volume method using unstructured grid spaces. The CIP code, which can solve both compressible and incompressible flows simultaneously, was used to calculate gas-liquid flows -in this case, waterspouts-in an oil separator. We found that waterspouts raise the oil at the bottom of the separator's chamber and lower the efficiency of oil separation remarkably. We also found that the waterspouts can be classified as circulatory or non-circulatory and that they are caused by a low-pressure core in the discharge pipe. Furthermore, we predicted the critical conditions under which the waterspouts occur, and these predictions agree with measurements taken with a test separator

    Lubrication Tests to Support Optimal Performance Design Guidelines for Thrust Slide-Bearings in Scroll Compressors

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    This study focuses on the role of lubrication in the optimal performance design guidelines for the thrust slide-bearings in scroll compressors. The theoretical analysis of Ishii et al. showed that the minimum friction power loss in the thrust slide-bearing occurs at a certain outer radius of the friction surface. In the theoretical development, the physical thrust slide-bearing was modeled as a cylindrical thrust plate, representing the orbiting scroll, and the flat plate, representing the fixed scroll, with the same friction area as the physical bearing. The outer radius of the friction surface was varied for a fixed inner radius, where the fluid wedge angle between the sliding surfaces, due to axial loading on the thrust plate, was assumed to be constant at a small value. The average Reynolds equation by Patier & Cheng and the solid contact theory by Greenwood & Williamson were applied to calculate the resultant lubrication performance and finally the friction power loss at the sliding surface. The model showed that the friction power loss drastically decreases and then gradually increases, with increasing outer radius of the sliding surface.  The minimum value of friction power loss was about 80% lower than that of the conventional design thrust slide-bering. In order to confirm experimentally this predicted optimal lubrication performance, a thrust slide-bearing cylindrical-model submerged in a refrigerant oil SUNISO-RB68A was operated under pressurized conditions using R410A as the pressurizing gas. The pressure difference across the friction surface of the thrust bearing was fixed at 0.6 MPa, corresponding to the rated operation condition of a small cooling capacity scroll compressor. In the experiments, a special device was fabricated to maintain a constant fluid wedge angle between the friction surfaces due to the net pressure-induced elastic deformation of the thrust plate. The friction power loss at the friction surface was measured over a wide range of orbiting speeds from 1200 rpm up to 6000 rpm for a fixed orbiting radius of 3.0 mm. The resulting measured data exhibited showed the predicted tendency that the lubrication of the thrust slide-bearing is substabtially by increasing the outer radius. The friction power loss decreased with increasing outer-to-inner radii ratio of friction surface. The minimum loss occurred at an outer-to-inner radii ratio of about 2.1 for an operating speed of 3600 rpm, a significant 80% reduction relative to the usual conventional design ratio

    Clinical utility of the Vesical Imaging-Reporting and Data System for muscle-invasive bladder cancer between radiologists and urologists based on multiparametric MRI including 3D FSE T2-weighted acquisitions

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    Objectives: To investigate the clinical utility of the Vesical Imaging-Reporting and Data System (VI-RADS) by comparing its diagnostic performance for muscle-invasive bladder cancer (MIBC) between radiologists and urologists based on multiparametric MRI, including three-dimensional (3D) fast spin-echo (FSE) T2-weighted acquisitions. Methods: This study included 66 treatment-naïve patients (60 men, 6 women; mean age 74.0 years) with pathologically proven bladder cancer who underwent multiparametric MRI, including 3D FSE T2-weighted imaging, before transurethral bladder tumour resection between January 2010 and November 2018. The MRI scans were categorised according to the five-point VI-RADS score by four independent readers (two board-certified radiologists and board-certified urologists each), blinded to the histopathological findings. The VI-RADS scores were compared with the postoperative histopathological diagnosis. Interobserver agreement was assessed using weighted kappa coefficients. ROC analysis and generalised estimating equations were used to evaluate the diagnostic performance. Results: Forty-nine (74.2%) and 17 (25.8%) tumours were confirmed to be non-MIBC and MIBC, respectively, based on pathological examination. The interobserver agreement was good-to-excellent between all pairs of readers (range, 0.73–0.91). The urologists’ sensitivity/specificity values for DCE-MRI VI-RADS scores were significantly lower than those of radiologists. No significant differences were observed for the overall VI-RADS score. The AUC for the overall VI-RADS score was 0.94, 0.92, 0.89, and 0.87 for radiologists 1 and 2 and urologists 1 and 2, respectively. Conclusions: The VI-RADS score, based on multiparametric MRI including 3D FSE T2-weighted acquisitions, can be useful for radiologists and urologists to determine the bladder cancer muscle invasion status preoperatively. Key Points: • VI-RADS (using multiparametric MRI including 3D FSE T2-weighted acquisitions) achieves good to excellent interobserver agreement and has similar diagnostic performance for detecting muscle invasion by both radiologists and urologists. • The diagnostic performance of the overall VI-RADS score is high for both radiologists and urologists, particularly due to the dominant effect of diffusion-weighted imaging on the overall VI-RADS score. • The sensitivity and specificity values of the T2WI VI-RADS scores for four readers in our study (using 3D FSE T2-weighted acquisitions) were similar (with slightly higher specificity values) to previously published results (using 2D FSE T2-weighted acquisitions)
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