Carltonpost4949
Significantly more IL-17
immune cells (CD45
IL17
) are present in the gingiva of Il1ra
mice with the majority of being TCR γδ T cells (CD45
IL-17
CD3
TCR γδ
) than WT mice
The anti-IL-17 neutralizing antibody treatment attenuated the alveolar bone loss in the LIP model.
IL-1RA plays a protective role in the murine LIP model by suppressing an expansion of the IL-17
cells and preventing a hyper-IL-17 response in the gingiva.
IL-1RA plays a protective role in the murine LIP model by suppressing an expansion of the IL-17+ cells and preventing a hyper-IL-17 response in the gingiva.The quality assessment of medicines involves multiple compliance parameters, such as identity, dosage, purity, potency, content uniformity, disintegration time, dissolution rate, among others. The measurement uncertainty associated with a measured value can affect the conformity assessment and, consequently, it impacts decision-making. Even if the particular risks are acceptable, the total risk may be significantly high. Thus, the aim of this work was to develop a procedure for the definition of acceptance (or rejection) limits applied to multiple compliance assessments, that ensure acceptable particular and total risks. The multiple compliance assessments were performed and applied in the pharmaceutical equivalence studies for cisplatin injectable solution, carboplatin injectable solution, ranitidine tablets, and acetaminophen oral solution from several manufacturers. Pharmaceutical equivalence studies were performed adopting pharmacopeial analytical procedures. All chromatographic system suitability resultscular and total risks of false conformity decisions, which is of great interest to regulatory agencies and the manufactures of the medicines.Recombinant human interferon gamma (rhIFN-γ) is a promising molecule for the treatment of several diseases. A pair of conformation-specific monoclonal antibodies (mAbs) against rhIFN-γ was selected from generated hybridoma cell lines to design a sensitive, stability-indicative, sandwich-type ELISA. The main assay parameters were optimized by the checkerboard method for the highest signal-to-noise ratio assay buffer composition, coating buffer pH and composition, coating temperature-incubation time parameters, and coating mAb concentration and conjugate dilution. Detection and quantification limits were estimated between 0.019 and 0.078 ng/mL, respectively, and recovery values were from 92.03% to 98.40%. The coefficient of variation of intra-assay precision parameters ranged from 2.32% to 9.21% while the inter-analyst variation was between 4.70% and 10.63%, supporting the method's repeatability. The ELISA was specific for correctly folded and non-aggregated molecular species, as compared to intrinsic Trp fluorescence (chemical denaturation) and optical density at 340 nm (thermal aggregation), respectively. However, the method was not sensitive to the small C-terminal degradation of full-length rhIFN-γ1-144 (losses of 6-12 amino acid residues) as compared to results with mass spectrometry and gel electrophoresis. ELISA showed good correlation with rhIFN-γ antiviral biological activity. This method was applied to the stability evaluation of rhIFN-γ in physiological buffer at low concentrations using polypropylene and glass vials also in the presence of adsorption protectant excipients. Furthermore, ELISA could be adapted to other applications such as quantification of IFN-γ in serum samples, Mycobacterium tuberculosis diagnosis, etc.In recent years, nitrosamines have been discovered in some types of drug products that becomes a current regulatory hotspot, and have attracted a lot attention from both regulatory authorities and industry. This manuscript provided an industry perspective on the nitrosamines research. A liquid chromatography coupled with tandem mass spectrometry(LC-MS/MS)method was developed and applied for the quantification of N-nitrosodimethylamine (NDMA) in metformin hydrochloride sustained-release tablets (MET). The key factors resulting in the NDMA formation in MET were identified through forced degradation and drug-excipient studies, which included high temperature, dimethylamine, strong alkali and oxidation conditions, peroxide and alkaline components contained in the formulation as well as the nitrite and nitrate impurities that might be presented in certain excipients. Further, API particle size and water content of the drug product would also affect the growth rate of NDMA. Therefore, the following mitigation strategies to reduce the risk of nitrosamines in the finished drug product are proposed in this manuscript 1) avoid the use of excipients containing nitrite, nitrate and peroxide impurities; 2) avoid high temperature and strong alkaline environment in the production and storage condition; 3) maintain an appropriate water content level in the formulation. Based on the above principles, it was recommended to add antioxidant or incorporate excipient such as Na2CO3 to modify the formulation pH to weak basic environment in the formulation of MET, which can could effectively prevent formation of NDMA in the stability process.4,4-Dimethyl-substituted sterols are bioactive minor sterols of most animal fats and plant oils, but higher shares are present in lanolin (wool grease). Here, the isolation of the 4,4-dimethyl-substituted sterols dihydrolanosterol and lanosterol from lanolin by countercurrent chromatography (CCC) is described. An initial examination of the hexane extract of saponified lanolin showed the presence of relatively high portions of fatty alcohols which were known to co-elute with the target analytes in CCC. Hence, fatty alcohols were precipitated by urea complexation. Unexpectedly, 4,4-dimethyl-substituted sterols were also found in the crystalline fraction, while cholesterol and other desmethylsterols were detected in the liquid phase. Urea complexation represented a useful preparative method for the separation of desmethylsterols and 4,4-dimethyl-substituted sterols from lanolin. Shake flask experiments of 4,4-dimethyl-substituted sterols and fatty alcohols with 14 biphasic solvent systems indicated suitable partition coefficients (K values) with n-hexane/ethanol/water (1281, v/v/v) and n-hexane/benzotrifluoride/acetonitrile (20713, v/v/v). After initial tests with conventional CCC, the application of CCC in heart-cut recycling mode provided 4,4-dimethyl-substituted sterols with purities of 99 % (dihydrolanosterol) and 95 % (lanosterol).Spherical rotors in magic angle spinning (MAS) nuclear magnetic resonance (NMR) experiments have potential advantages relative to cylindrical rotors in terms of ease of fabrication, low risk of rotor crash, easy sample exchange, and better microwave access. However, one major disadvantage so far of spherical rotors is poor NMR filling factor due to the small sample volume and large cylindrical radiofrequency (RF) coil. Here we present a novel NMR coil geometry in the form of a spherical coil. The spherical coil best fits the spherical sample to maximize sensitivity, while also providing excellent RF homogeneity. We further improve NMR sensitivity by employing a spherical shell as the rotor, thereby maximizing sample volume (219 μL in this case of 9.5 mm outer diameter spheres). The spinning gas is supplied by a 3D-printed ring stator external to the coil, thereby introducing a simplified form of MAS stators. In this apparatus, the RF field generated along the coil axis is perpendicular to the external magnetic field, regardless of rotor orientation. We observe a linear increase in sensitivity with increasing sample volume. We also simulate the RF performance of spherical and cylindrical solenoid coils with constant or variable pitch for spherical and cylindrical rotors, respectively. The simulation results show that spherical solenoid coils generate comparable B1 field intensities but have better homogeneity than cylindrical solenoid coils do.
To investigate temporal changes in imaging findings of conservatively treated acute unruptured vertebral basilar artery dissection (VBAD) and its contributing factors.
Fifty-three patients who underwent conservative treatment for 64 cases of acute VBAD diagnosed between January 2006 and March 2019 with follow-up of at least 12 months after onset were retrospectively investigated. Statistical analyses of age, sex, medical history, pattern of onset, lesion site, imaging findings and changes over time, regular medication, and outcomes were performed.
Changes in the vascular morphology of the lesion site during the follow-up period were observed in only 23 (43 %) patients (median time until change 19 days). Univariate analysis of factors contributing to morphological changes at the dissection site showed that changes were significantly more likely in younger patients (p=0.011). Patients taking antiplatelet drugs had a significantly greater rate of deterioration at the dissection site (p=0.028) than others. e considered a benign condition.According to the limited molecular information reflected by single spectroscopy, and the complementarity of FTIR spectroscopy and Raman spectroscopy, we propose a novel diagnostic technology combining multispectral fusion and deep learning. We used serum samples from 45 healthy controls, 44 non-small cell lung cancer (NSCLC), 38 glioma and 37 esophageal cancer patients, and the Raman spectra and FTIR spectra were collected respectively. Then we performed low-level fusion and feature fusion on the spectral, and used SVM, Convolutional Neural Network-Long-Short Term Memory (CNN-LSTM) and the multi-scale convolutional fusion neural network (MFCNN). The accuracy of low-level fusion and feature fusion models are improved by about 10% compared with single spectral models.Pesticide residues in water is one of the most serious problems in developing countries. Surface enhanced Raman spectroscopy (SERS) is widely used in the detection and monitoring of pesticide and other trace compounds because of its low limits of detection (LODs). However, different SERS substrate synthesis methods have different economic benefits and environmental impacts. In this paper, a flexible AuNPs@CDA SERS substrate was fabricated by the gold nanoparticles (AuNPs) and the biomass-based cellulose diacetate (CDA), which had stable test performance and considerable LODs. The substrates were economically viable and environment friendly. The characterization analysis of the substrate allows us to flexibly select different test methods (drop-test or enrichment-test) as coping strategy in different situation. The results showed that the LODs of thiram pesticide in water by enrichment-test could reach 10-7 g/mL, and had a good linear relationship in the concentration range of 10-7-10-6 g/mL. This strategy can realize the rapid and effective detection and monitoring of thiram pesticide in water.The low temperature solvothermal method synthesized Cr2O3 NPs has not only peroxidase activity, but also oxidase activity. Then, the oxidase activity of Cr2O3 NPs is effectively shielded by nanogel immobilization using three monomers acrylamide, NIPAAM (N-isopropylacrylamide) and MBA (N,N'-methylene bisacrylamide) in HEPES (4-(2-hydroxyerhyl)piperazine-1-erhanesulfonic acid) buffer. Ultimately, the enzymatic activity of Cr2O3@nanogel/Au is significantly enhanced after doping Au NPs by SERS (Surface Enhanced Raman Spectroscopy) evaluation. Chk2 Inhibitor II in vitro A SERS strategy was proposed for the detection of H2O2 by Cr2O3@nanogel/Au. The linear range was 10-8 mol·L-1-10-1 mol·L-1.
