Effect of the alumina micro-particle sizes on the thermal conductivity and dynamic mechanical property of epoxy resin.

Epoxy thermal conductive adhesives with high thermal conductivity and dynamic mechanical properties are important thermally conductive materials for fabricating highly integrated electronic devices. In this paper, micro-Al2O3 is used as a thermally conductive filler for the epoxy resin composite and investigated the effect of micron-sized alumina particle size on the thermal conductivity and dynamic mechanical property of epoxy resin by the transient planar hot plate method and DMA (Dynamic mechanical analysis). The experimental results show that with the same amount of alumina filling, the thermal conductivity and Tg (glass transition temperature) of epoxy/Al2O3 composite material decrease with the increase of alumina particle size. The maximum thermal conductivity of the composite material is 0.679 (W/mK), while the energy storage modulus of epoxy/Al2O3 composite material increases with the increase of alumina particle size, and the maximum energy storage modulus of the composite material is 160MPa. Compared with pure epoxy resin, the thermal conductivity and energy storage modulus have increased by 2.7 and 3.2 times, respectively. The epoxy/Al2O3 composite was applied to the COB (Chips On Board) type LED package, and the substrate temperature of the LED dropped to the lowest after 1.5 hours of operation using EP-A5 composite, and the temperature was stabilized at 38.2°C, indicating that the addition of 5-micron alumina composite has the best heat dissipation in the COB type LED package. These results are critical for the implementation of particulate-filled polymer composites in practical applications because relaxed material specifications and handling procedures can be incorporated in production environments to improve efficiency.

Identification of quality markers for Cyanotis arachnoidea and analysis of its physiological mechanism based on chemical pattern recognition, network pharmacology, and experimental validation.

Cyanotis arachnoidea C. B. Clarke is a traditional Chinese medicinal herb that has a limited clinical use in the treatment of diabetes mellitus (DM) in minority areas of Guizhou in China. However, few prior reports are available on the quality control of Cyanotis arachnoidea, and its quality markers and hypoglycemic mechanism are still unclear. The purpose of this study is to explore the quality markers (Q-markers) of Cyanotis arachnoidea and predict its hypoglycemic mechanism. In this study, ultra-high-performance liquid chromatography (UHPLC) fingerprint combined with chemical pattern recognition were performed, and four differential components were screened out as quality markers, including 20-Hydroxyecdysone, 3-O-acetyl-20-hydroxyecdysone, Ajugasterone C, and 2-O-acetyl-20-hydroxyecdysone. Network pharmacology analysis revealed 107 therapeutic target genes of Cyanotis arachnoidea in DM treatment, and the key targets were Akt1, TNF, IL-6, MAPK3, and JUN. The hypoglycemic mode of action of Cyanotis arachnoidea may be mediated by tumor necrosis factor (TNF) signaling, cancer, insulin resistance, and JAK-STAT pathways. Molecular docking analysis disclosed that the foregoing quality markers effectively bound their key target genes. An in vitro experiment conducted on pancreatic islet ß-cells indicated that the forenamed active components of Cyanotis arachnoidea had hypoglycemic efficacy by promoting PI3K/Akt and inhibiting MAPK signaling. UHPLC also accurately quantified the quality markers. The identification and analysis of quality markers for Cyanotis arachnoidea is expected to provide references for the establishment of a quality control evaluation system and clarify the material basis and hypoglycemic mechanisms of this traditional Chinese medicine (TCM).

[Feasibility analysis of puncture robot technology for the application of acupuncture robot].

The difficulties such as how to accurately locate acupoints and safely insert needles are presented in acupuncture robot. The puncture robot with high technological similarity to acupuncture robot is getting mature, and a large number of human trials and animal experiments have been conducted for the development of puncture robot. Through comparing the similarities and differences between puncture robot and acupuncture robot in the aspects of through-skin puncture, needle insertion and needle removal, the valuable technology of puncture robot is analyzed for the development of acupuncture robot, and the crucial direction of technology migration is determined. ①Integrating the mechanical feedback and medical imaging technology and utilizing the multi-modal perception to achieve the safety of acupuncture operation. ②Emphasizing the integration of the existing designs of chest puncture robot to realize the acupuncture operation with inhalation and exhalation involved. ③Focusing on the development of relevant technology of automatic needle removal through conducting the actual scenario of treatment with acupuncture robot in patients under non-anaesthetic condition.

Toxic effects of Tripterygium glycoside tablets on the reproductive system of male rats by metabolomics, cytotoxicity, and molecular docking.

BACKGROUND: Tripterygium glycoside tablets (TGT) is the most common preparation from Tripterygium wilfordii Hook F, which is widely used in clinical for treating rheumatoid arthritis (RA) and other autoimmune diseases. However, its serious reproductive toxicity limits its application. PURPOSE: This study aimed to elucidate the toxic effects of TGT on the reproductive system of male RA rats and its potential toxic components and mechanism. METHODS: Collagen-induced arthritis (CIA) rat model was established, and TGT suspension was given at low, medium, and high doses. Gonadal index, pathological changes, and the number of spermatogenic cells were used to evaluate the toxic effects of TGT on the reproductive system. Non-targeted metabolomics of testicular tissue was conducted by UHPLC-QTOF/MS. Combined with network toxicology, the key targets of TGT-induced reproductive toxicity were screened and RT-qPCR was used to validation. In vitro toxicity of 19 components of TGT was evaluated using TM3 and TM4 cell lines. Molecular docking was used to predict the interaction between toxic components and key targets. RESULTS: TGT reduced testicular and epididymis weight. Pathology analysis showed a lot of deformed and atrophic spermatogenic tubules. The number of spermatogenic cells decreased significantly (P<0.0001). A total of 58 different metabolites including platelet-activating factor (PAF), lysophosphatidylcholine (Lyso PC), phosphatidylinositol (PI), glutathione (GSH), and adenosine monophosphate (AMP) were identified by testicular metabolomics. Glycerophospholipid metabolism, ether lipid metabolism, and glutathione metabolism were key pathways responsible for the reproductive toxicity of TGT. Ten key reproductive toxicity targets were screened by network toxicology. The cytotoxicity test showed that triptolide, triptonide, celastrol, and demethylzeylasteral could significantly reduce the viability of TM3 and TM4 cells. Alkaloids had no apparent toxic effects. Molecular docking showed that the four toxic components had a good affinity with 10 key targets. All binding energies were less than -7 kcal/mol. The RT-qPCR results showed the Cyp19a1 level was significantly up-regulated. Pik3ca and Pik3cg levels were significantly down-regulated. CONCLUSION: Through testicular metabolomics, we found that TGT may cause reproductive toxicity through CYP19A1, PIK3CA, and PIK3CG three target, which was preliminarily revealed. This study laid the foundation for elucidating the toxicity mechanism of TGT and evaluating its safety and quality.

D Rhamnose ß-hederin Reverses NAP1L5-mediated Adriamycin Resistance in Breast Cancer.

Context: The persistent use of anticancer medicines can cause multidrug resistance in many tumors and serious cytotoxicity for healthy cells, including adriamycin (ADR), a treatment for breast cancer (BC). Cell resistance to ADR in patients with recurrent advanced BC can occur. Creating effective treatments that can grapple with multidrug resistance is still challenging. Traditional Chinese medicine (TCM) may offer a solution in D Rhamnose beta-hederin (DRß-H), an oleanane type of triterpenoid saponin. Objective: The study intended to assess the ability of DRß-H to inhibit the ADR resistance of two BC-lineage cell lines, MCF-7 and SUM-1315, and to explore the causal link between DRß-H and the reversal of chemoresistance. Design: The research team performed a cell biology study. Setting: The study took place at laboratory in China. Outcome Measures: The research team: (1) assessed cell viability and the migration and invasion the cell lines; (2) investigated the molecular mechanism and identified the downstream targets of DRß-H, and (3) comprehensively examined the expression pattern, underlying functions, and evident prognostic significance of NAP1L5 in BC by gathering the online information available. Results: DRß-H can inhibit the viability of the MCF-7/ADR and SUM-1315/ADR cancer cells in a dosage-dependent manner. NAP1L5 might be the main target of DRß-H in reversing ADR resistance. Its expression decreased in BC cells, and the more advanced the BC was, the lower the NAP1L5 expression was. Conclusion: DRß-H at nontoxic concentrations was related to ADR resistance in BC through its downstream target NAP1L5. NAP1L5 is potentially a preferable prognostic marker for BC.

Quality evaluation of the classical prescription, Danggui Jianzhong decoction, using ultra-high-performance liquid chromatography fingerprint, chemical pattern recognition, and network pharmacology.

Danggui Jianzhong decoction is a classical prescription that has been widely used for thousands of years. However, the quality of this formula is difficult to control owing to its complex chemical component system. In this study, a simple and efficient method comprising ultra-high-performance liquid chromatography fingerprint, chemical pattern recognition, and network pharmacology was established to evaluate the quality of this decoction. A total of 20 common peaks were obtained by fingerprint analysis and 19 chemicals were identified. The fingerprint similarity of 15 batch samples ranged from 0.963 to 0.991. Chemical pattern recognition analysis could clearly classify 15 batches of Danggui Jianzhong decoction into three groups. Further, seven chemical markers were screened out. A herbs-active components-targets-disease network was constructed and enrichment analyses were performed, which indicated that these 19 chemical components are the medicinal substances of Danggui Jianzhong decoction. Further, the mechanism employed by this formula to treat primary dysmenorrhea may be related to the regulation of inflammatory response. In conclusion, this combination approach enables accurate evaluation and prediction of the quality of Danggui Jianzhong decoction, and lays the foundation for studies on the material basis and exploration of the mechanism of Danggui Jianzhong decoction in the treatment of primary dysmenorrhea.

Synchronous Investigation of the Mechanism and Substance Basis of Tripterygium Glycosides Tablets on Anti-rheumatoid Arthritis and Hepatotoxicity.

Tripterygium Glycosides Tablets (TGT) has shown obvious anti-rheumatoid arthritis (RA) effects accompanied by hepatotoxicity. Despite that many studies looked at TGT's anti-RA or hepatotoxic mechanism and substance basis, the results were still insufficient. Furthermore, the anti-RA and hepatotoxicity investigations of TGT were undertaken separately, neglecting the relationship between efficacy and toxicity. Herein, an integrated approach combining metabolomics, network pharmacology, serum pharmacochemistry, and molecular docking was adopted to elucidate the mechanism and substance basis of Tripterygium Glycosides Tablets (TGT) on anti-rheumatoid arthritis and hepatotoxicity simultaneously. The results showed that 33 components in TGT were absorbed into rat serum. Two toxic targets (PRKCA, FASN), three effective targets (PLA2G10, PTGES, PLA2G1B), and four effective and toxic targets (PTGS1, PTGS2, PLA2G2A, ALOX5) were obtained by metabolomics combined with network analysis and network pharmacology. A component-target-RA-hepatotoxicity network was constructed and five hepatotoxic components (1-desacetylwilforgine, wilfordconine, wilforgine, wilformine, wilfornine D), eight effective-toxic components (14-oxo-19-(4 → 3) abeo-abieta-3,8,12-tetraen-19,18-olide, 7-oxo-18(4 → 3) abeo-abieta-3,8,11,13-tetraen-18-oic acid, hypoglaulide, triptotriterpenic acid A, wilforol F, wilforlide B, triptoquinone B, wilforlide A); and 23 non-effective and non-toxic components were acquired and validated by molecular docking. In addition, our research revealed that glycerophospholipid metabolism and ether lipid metabolism were correlated to both hepatotoxicity and anti-RA of TGT. While in sphingolipid metabolism, ceramidases regulated ceramide-sphingosine and phytoceramide-phytosphingosine reaction were found to be correlated to hepatotoxicity, sphinganine-1-phosphate lyase (SPL) regulated sphingosine 1-phosphate (S1P)-phosphoethanolamine and sphinganine 1-phosphate-phosphoethanolamine were found to be attributed to anti-RA effects.

Identification and comparison of compounds in commercial Tripterygium wilfordii genus preparations with HPLC-QTOF/MS based on molecular networking and multivariate statistical analysis.

Tripterygium wilfordii genus preparations (TWGP) are widely used in traditional Chinese medicines for the treatment of autoimmune diseases and immune diseases with definite therapeutic effects but high toxicity. The aim of this study is to identify and compare chemical compounds in three types of commercial TWGP using UHPLC-QTOF-MS/MS and molecular networking (MN) technology. First, the mass fragmentation pathways of 10 compounds were investigated, which included two sesquiterpene alkaloids, four diterpenoids, and four triterpenoids. The chemical compounds were then identified using UHPLC-QTOF-MS/MS and a conventional database. Following that, molecular network technology was used to further identify the GNPS platform. Finally, metabonomic data analysis was used to compare 92 commercial TWGP samples from 13 manufacturers. A total of 103 compounds were identified, with the molecular network detecting 40 of them. Moreover, the quality of commercial Tripterygium glycoside tablets varies greatly and 26 compounds, including triptolide, wilforine, wilforgine, and demethylzeylasteral, were discovered to be the main differential compounds in tripterygium glycosides tablets. This was the first time MN technology was used for compound analysis in TWGP, laying the foundation for classifying effective and toxic substances and TWGP quality control.

An integrated approach for investigating pharmacodynamic material basis of Lingguizhugan Decoction in the treatment of heart failure.

ETHNOPHARMACOLOGICAL RELEVANCE: As a classical formula of traditional Chinese medicine (TCM), Lingguizhugan Decoction (LGZGD) has been used for treating heart failure (HF) because it has an efficiency of yang-warming and fluid-dispersing. However, the pharmacodynamic material basis of LGZGD responsible for the therapeutic benefits is not well understood. AIM OF THE STUDY: The aim of this study was to elucidate the pharmacodynamic material basis of LGZGD by an integrated approach. MATERIALS AND METHODS: Following oral administration of LGZGD in mice, ultra-high performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UHPLC-Q-TOF-MS/MS) was used to identify prototype substances. A heart failure (HF) model was established, followed by an untargeted metabolomics study to determine potential targets of LGZGD. The network pharmacology method was performed to screen substances that interacted with potential targets of LGZGD treating HF. Molecular docking technology was applied to further screen substances based on binding energy. Cell viability assays were conducted to verify pharmacodynamic effects of selected substances. RESULTS: In all, forty-two prototype substances were identified in the blood, urine, and fecal samples of mice. A total of fifty-five differential metabolites were identified using heart tissue untargeted metabolomics. Twenty-five substances of LGZGD were screened relating to thirty-three targets treating HF. Twenty-two substances were filtered according to their binding energy using molecular docking technology. Cell experiments revealed cinnamaldehyde, glycyrrhetinic acid, kaempferol, daidzein, caffeic acid, and catechin could significantly improve the survival rate of H9c2 cells, which might be the pharmacodynamic material basis of LGZGD. CONCLUSIONS: A scientific approach that integrated in vivo substances identification, metabolomics, network pharmacology, molecular docking, and cell pharmacodynamic assay has been developed to study the pharmacodynamic material basis of LGZGD in the treatment of HF.

Integrative serum metabolomics and network analysis on mechanisms exploration of Ling-Gui-Zhu-Gan Decoction on doxorubicin-induced heart failure mice.

ETHNOPHARMACOLOGICAL RELEVANCE: Ling-Gui-Zhu-Gan Decoction (LGZGD) formula, derived from traditional Chinese medicine (TCM), has definitive clinical efficacy in the treatment of heart failure (HF) in China. However, little is known of the underlying mechanism of LGZGD. AIM OF THE STUDY: The aim of this work was to investigate the therapeutic mechanism of LGZGD on HF treatment based on an integration of the serum metabolomics and network analysis. MATERIALS AND METHODS: HF model mice were established by intraperitoneal injecting of doxorubicin. Body weight, echocardiography, biochemical assay and hematoxylin and eosin staining experiments were used to evaluate the efficacy of LGZGD. A metabolomics approach based on ultra-high-performance liquid chromatography coupled with quadrupole time-of-flight mass spectrometry (UHPLC-QTOF-MS) was performed to analyze the serum biomarkers from model group, control group and LGZGD-treatment group. Principle component analysis (PCA) and orthogonal projection to latent structures-discriminant analysis (OPLS-DA) were utilized to identify differences of metabolic profiles in mice among the three groups. The network of "gene-enzyme-metabolite" was built to investigate the possible mechanism of LGZGD from the systematic perspective. RESULTS: 54 metabolites, which showed a significantly restoring trend from HF to normal condition, were regarded as potential biomarkers of LGZGD treatment. The most critical pathway was glycerophospholipid metabolism and arachidonic acid metabolism. According to the results of network analysis, 8 biomarkers were regarded as hub metabolites, which meant these metabolites may have a major relationship with the LGZGD therapeutic effects for the HF. 8 enzymes and 29 genes in the network were considered as potential targets of LGZGD treatment. CONCLUSIONS: By integrated serum metabolomic and network analysis, we found that LGZGD might retard the pathological process of HF by regulating the disturbed metabolic pathways and the relative enzymes, which may be potential mechanism for LGZGD in the treatment of HF.

A UHPLC-QTOF-MS/MS method for the simultaneous determination of eight triterpene compounds from Poria cocos (Schw.) Wolf extract in rat plasma: Application to a comparative pharmacokinetic study.

Poria cum Radix Pini (PRP), White Poria (WP), Rubra Poria (RP), and Poriae Cutis (PC), different parts of the dried sclerotium of Poria cocos (Schw.) Wolf (PCW), have possessed various pharmacological effects and clinical application. In the present study, a novel ultra-high performance liquid chromatography/quadrupole time-of-flight mass spectrometry (UHPLC-QTOF-MS/MS) method was developed and validated for the simultaneous determination of eight triterpene compounds in rat plasma and then was applied in the comparison of pharmacokinetic characteristics of PRP, WP, RP, and PC extracts. Chromatographic separation was performed on an ACQUITY UPLC® BEH C18 (2.1 × 100 mm, 5 µm) with a mobile phase composed of aqueous solution (containing 0.5‰ formic acid and 0.5 mmol/L ammonium acetate) and acetonitrile in gradient elution. Mass spectrometric of the analytes and internal standard (IS) were conducted in negative electrospray ionization with high-resolution multiple reaction monitoring (MRMHR) mode. The lower limit of quantification (LLOQ) for the eight analytes were in the range of 2.00-20.16 ng/mL. All calibration curves showed good linearity (r > 0.993). The inter- and intra-batch precision and accuracy for the eight triterpene compounds were acceptable. The results indicated that the eight triterpene compounds displayed different pharmacokinetic characteristics in PRP, WP, RP, and PC, and that poricoic acid B, poricoic acid A, pachymic acid, dehydrotrametenolic acid, dehydrotumulosic acid, polyporenic acid C and dehydropachymic acid may be the major bioactive compounds of PCW contributing to the diuretic effect.

D Rhamnose ß-Hederin against human breast cancer by reducing tumor-derived exosomes.

D Rhamnose ß-hederin (DRß-H), a novel oleanane-type triterpenoid saponin isolated from the traditional Chinese medicinal plant Clematis ganpiniana, has been demonstrated to be effective against various types of tumor. However, the exact role of DRß-H on breast cancer remains largely unresolved. In the present study, it was observed that DRß-H exhibited anti-proliferative and pro-apoptotic activity in human breast cancer cells (MCF-7/S). DRß-H was able to inhibit exosome secretion, and the level of exosomes was positively associated with cell growth after absorption and internalization by target breast cancer cells. By analyzing the miRNA profiles of exosomes and MCF-7/S, it was identified that several miRNAs were detected exclusively in exosomes. Knockdown of the top five exosomal miRNAs and an MCF-7/S proliferation assay indicated that exosomal miR-130a and miR-425 may enhance MCF-7/S cell viability. Target gene prediction and pathway analysis revealed the involvement of miR-130a and miR-425 in pathways associated with malignant cell proliferation. These results demonstrated that DRß-H inhibited MCF-7/S cell growth through reducing exosome release.

d Rhamnose ß-hederin reverses chemoresistance of breast cancer cells by regulating exosome-mediated resistance transmission.

d Rhamnose ß-hederin (DRß-H), an active component extracted from the traditional Chinese medicinal plant Clematis ganpiniana, has been reported to be effective against breast cancer. Recent studies have also indicated that the isolated exosomes (D/exo) from docetaxel-resistant breast cancer cells MCF-7 (MCF-7/Doc) were associated with resistance transmission by delivering genetic cargo. However, the relevance of D/exo during DRß-H exposure remains largely unclear. In the present work, exosomes were characterized by morphology and size distribution. We reinforced the significant role of D/exo in spreading chemoresistance from MCF-7/Doc to recipient sensitive cells after absorption and internalization. DRß-H could reduce the formation and release of D/exo. Next, we demonstrated that DRß-H was able to reverse docetaxel resistance and that D/exo was responsible for DRß-H-mediated resistance reversal. We also found that DRß-H could decrease the expressions of several most abundant miRNAs (miR-16, miR-23a, miR-24, miR-26a, and miR-27a) transported by D/exo. Target gene prediction and pathway analysis showed the involvement of these selected miRNAs in pathways related to treatment failure. Our results suggested that DRß-H could reduce D/exo secretion from MCF-7/Doc cells and induce the reduction in resistance transmission via D/exo.

Role of Vitamin D in Cognitive Function in Chronic Kidney Disease.

Both vitamin D deficiency and cognitive impairment are common in patients with chronic kidney disease (CKD). Vitamin D exerts neuroprotective and regulatory roles in the central nervous system. Hypovitaminosis D has been associated with muscle weakness and bone loss, cardiovascular diseases (hypertension, diabetes and hyperlipidemia), inflammation, oxidative stress, immune suppression and neurocognitive impairment. The combination of hypovitaminosis D and CKD can be even more debilitating, as cognitive impairment can develop and progress through vitamin D-associated and CKD-dependent/independent processes, leading to significant morbidity and mortality. Although an increasingly recognized comorbidity in CKD, cognitive impairment remains underdiagnosed and often undermanaged. Given the association of cognitive decline and hypovitaminosis D and their deleterious effects in CKD patients, determination of vitamin D status and when appropriate, supplementation, in conjunction with neuropsychological screening, should be considered integral to the clinical care of the CKD population.

[Impact of Phosphogypsum Wastes on the Wheat Growth and CO2 Emissions and Evaluation of Economic-environmental Benefit].

Phosphogypsum is a phosphorus chemical waste which has not been managed and reused well, resultantly, causing environmental pollution and land-occupation. Phosphogypsum wastes were used as a soil amendment to assess the effect on wheat growth, yield and CO2 emissions from winter wheat fields. Its economic and environmental benefits were analyzed at the same time. The results showed that wheat yield was increased by 37.71% in the treatment of phosphogypsum of 2 100 kg x hm(-2). Compared with the control treatment, throughout the wheat growing season, CO2 emission was accumulatively reduced by 3% in the treatment of phosphogypsum waste of 1050 kg x hm(-2), while reduced by 8% , 10% , and 6% during the jointing stage, heading date and filling period of wheat, respectively; while CO2 emission was accumulatively reduced by 7% in the treatment of phosphogypsum waste of 2 100 kg x hm(-2) throughout the wheat growing season, as reduced by 11% , 4% , and 12% during the reviving wintering stage, heading date and filling period of wheat, respectively. It was better for CO2 emission reduction in the treatment of a larger amount of phosphogypsum waste. In the case of application of phosphogypsum waste residue within a certain range, the emission intensity of CO2 ( CO2 emissions of per unit of fresh weight or CO2 emissions of per unit of yield) , spike length, fresh weight and yield showed a significantly negative correlation--the longer the ear length, the greater fresh weight and yield and the lower the CO2 emissions intensity. As to the carbon trading, phosphogypsum utilization was of high economic and environmental benefits. Compared with the control, the ratio of input to output changed from 1: 8.3 to 1: 10.7, which in the same situation of investment the output could be increased by 28.92% ; phosphogypsum as a greenhouse gas reducing agent in the wheat field, it could decrease the cost and increase the environmental benefit totally about 290 yuan per unit of ton. The results demonstrated phosphogypsum wastes could obviously decrease the CO2 emission from field soil and had a great potential to control agricultural greenhouse gases. Hopefully it has an important application perspective for the low-carbon, ecological and sustainable agricultural development.

Dysmagnesemia in Hospitalized Patients: Prevalence and Prognostic Importance.

OBJECTIVE: To examine the prevalence of serum magnesium (Mg) alterations and outcomes in hospitalized patients. PATIENTS AND METHODS: All admissions to Mayo Clinic in Rochester, Minnesota, from January 1, 2009, through December 31, 2013 (288,120 patients), were screened. Admission Mg from each unique patient and relevant clinical data were extracted from the institutional electronic database. RESULTS: After excluding patients aged less than 18 years, those without Mg measurement, and readmission episodes, a total of 65,974 patients were studied. Magnesium levels of 2.1 mg/dL or higher were found in 20,777 patients (31.5%), and levels less than 1.7 mg/dL were noted in 13,320 (20.2%). Hypomagnesemia was common in patients with hematologic/oncological disorders, and hypermagnesemia was common in those with cardiovascular disease. The lowest hospital mortality, assessed by restricted cubic spline and percentage death, occurred in patients with Mg levels between 1.7 and 1.89 mg/dL. An Mg level of less than 1.7 mg/dL was independently associated with an increased risk of hospital mortality after adjusting for all variables except the admission diagnosis; risk for longer hospital stay and being discharged to a care facility were increased in the fully adjusted model. An elevated Mg level of 2.3 mg/dL or higher was a predictor for all adverse outcomes. The magnitude of Mg elevations in patients with levels of 2.3 mg/dL or higher (N=7908) was associated with worse hospital mortality in a dose-response manner. In patients with cardiovascular diseases, Mg levels of 1.5 to 1.69 mg/dL and 2.3 mg/dL or higher both independently predicted poor outcomes including hospital mortality. CONCLUSION: Dysmagnesemia in hospitalized patients is common, with hypermagnesemia being most prevalent. Compared with hypomagnesemia, hypermagnesemia is a stronger predictor for poor outcomes. Magnesium supplementation for patients without Mg deficiency should be avoided in the absence of randomized controlled trials documenting a benefit.

Discovery and characterization of novel small-molecule inhibitors targeting nicotinamide phosphoribosyltransferase.

Nicotinamide phosphoribosyltransferase (NAMPT) is a promising anticancer target. Using high throughput screening system targeting NAMPT, we obtained a potent NAMPT inhibitor MS0 (China Patent ZL201110447488.9) with excellent in vitro activity (IC50 = 9.87 ± 1.15 nM) and anti-proliferative activity against multiple human cancer cell lines including stem-like cancer cells. Structure-activity relationship studies yielded several highly effective analogues. These inhibitors specifically bound NAMPT, rather than downstream NMNAT. We provided the first chemical case using cellular thermal shift assay to explain the difference between in vitro and cellular activity; MS7 showed best in vitro activity (IC50 = 0.93 ± 0.29 nM) but worst cellular activity due to poor target engagement in living cells. Site-directed mutagenesis studies identified important residues for NAMPT catalytic activity and inhibitor binding. The present findings contribute to deep understanding the action mode of NAMPT inhibitors and future development of NAMPT inhibitors as anticancer agents.

[Identification of Bupleurum chinense and B. longiradiatum based on ITS2 barcode].

In this study, ITS2 barcode was used to identify Bupleurum chinense and B. longiradiatum. The ITS2 regions of 48 samples were amplified and sequenced. The sequences obtained above were aligned and the K2P distances were calculated. We used three methods, BLAST1, nearest distance and phylogenetic tree (NJ-tree), to test the identification ability. The results showed that the maximum intraspecific genetic distance of B. chinense was 0.013, and the minimum interspecific genetic distance between B. chinense and B. longiradiatum was 0.049. The NJ-tree can easily identify B. chinense and B. longiradiatum. Therefore, the ITS2 barcode is suitable to identify B. chinense and B. longiradiatum.

[Molecular identification of Manis pentadactyla using DNA barcoding].

The COI gene as DNA barcode was used to identify the Manis pentadactyla and its adulterants in order to provide a scientific basis for the molecular identification of M. pentadactyla. Genomic DNA was extracted from experimental samples using the DNA extraction kit. The COI genes were amplified using polymerase chain reaction (PCR) and sequenced bi-directionally. Obtained sequences were assembled using the CodonCode Aligner. The neighbor-joining (NJ) tree was constructed by MEGA 6.0. The results indicated that COI sequences were successfully amplified and NJ trees results indicated that M. pentadactyla and its adulterants can be easily identification. Therefore, the COI gene is an efficient barcode for identification of M. pentadactyla and its adulterants,which will provide a new technique for the market supervision.