Objective To assess the intervention effect of nicotinamide mononucleotide (NMN) on the mouse model of hematotoxicity induced by subacute benzene exposure. Methods Benzene exposure and NMN intervention were adopted in a 2×2 factorial design, as benzene exposure and non-exposure, and NMN intervention and non-intervention. Male specific pathogen-free C57BL/6J mice were randomly assigned to negative control group, NMN control group, simple benzene exposure group and NMN intervention group, with 12 mice in each group. Benzene exposure of mice in simple benzene exposure group and NMN intervention group was conducted by dynamic inhalation of benzene at a concentration of 325 mg/m³ for six hours per day, five days per week for four weeks (28 days). Mice in the negative control and NMN control group inhaled clean air. During benzene exposure, mice in the NMN control group and NMN intervention group received NMN in drinking water at a dose of 300 mg/kg body weight. Peripheral blood samples of mice were collected for complete blood count analysis and calculation of composite inflammatory indices after 28 days. Results Interaction analysis showed that the counts of peripheral white blood cell, neutrophil, lymphocyte, and platelet of mice in the simple benzene exposure group were lower than those in the negative control group (all P<0.05). Neutrophil and platelet counts in the NMN intervention group were higher than those in the simple benzene exposure group (all P<0.05). The results of main effect analysis showed that the monocyte count of peripheral blood, systemic inflammatory index, systemic inflammatory response index, neutrophil/lymphocyte ratio and platelet/lymphocyte ratio of mice in the benzene exposure group increased (all P<0.05), and the basophil count and lymphocyte/monocyte ratio decreased (all P<0.05), compared with the control group. Conclusion Oral NMN alleviates subacute benzene-induced decreases in peripheral neutrophil and platelet counts in mice. This protective effect may be related to the targeted intervention of NMN on mitochondrial energy metabolism disorder and oxidative damage induced by benzene exposure in male mice.

ObjectiveHigh performance liquid chromatography （HPLC） was used to establish the specific chromatograms of Aurantii Fructus from different origins， and the quality variability of Aurantii Fructus from Sichuan was analyzed and evaluated by combining entropy weighting method and grey correlation method. MethodHPLC was performed on an Agilent Eclipse Plus C₁₈ column （4.6 mm×250 mm， 5 μm） with a gradient elution of methanol （A）-0.1% phosphoric acid aqueous solution as the mobile phase （0-12 min， 25%-33%A； 12-21 min， 33%-41%A； 21-30 min， 41%-42%A； 30-40 min， 42%-59%A； 40-53 min， 59%-72%A； 53-60 min， 72%A； 60-65 min， 72%-100%A； 65-70 min， 100%A； 70~71 min， 100%-25%A； 71-80 min， 25% A） at a flow rate of 1.0 mL·min^-1， the injection volume was 10 μL and the detection wavelength was 330 nm. Fifty batches of Aurantii Fructus samples from different origins （Sichuan， Chongqing， Jiangxi and Hunan） were tested， and the similarity evaluation software is used to generate characteristic profiles and compare them with control profile for peak identification， and then to evaluate the similarity of the samples. IBM SPSS 19.0 and SIMCA 14.1 were used to perform multivariate statistical analysis on the results of the samples， and then the entropy weighting method and grey correlation were used to calculate the overall quality score of samples from Sichuan. ResultHPLC specific chromatogram of Aurantii Fructus was established， and 14 common peaks were identified as eriocitrin， neoeriocitrin， narirutin， naringin， hesperidin， neohesperidin， meranzin hydrate， poncirin， meranzin， marmin， nobiletin， 3，3′，4′，5，6，7，8-heptamethoxyflavone， tangeretin and auraptene. And the similarities between the samples from Sichuan and the control chromatogram were all above 0.980. The samples could be classified into four categories according to their main origins by chemical pattern recognition， and the results of cluster analysis， principal component analysis and orthogonal partial least squares-discriminant analysis were all able to discriminate the samples of different main origins effectively. The comprehensive evaluation results of entropy weighting method combined with grey correlation showed that the quality of Aurantii Fructus from Sichuan varied greatly among different origins， and the quality of Aurantii Fructus from Sichuan was ranked as Bazhong>Luzhou>Chongqing>Neijiang. ConclusionIn this study， the characteristic mapping of Aurantii Fructus from Sichuan is established， and combined with the analytical methods of chemometrics and grey correlation， the quality of samples from different origins can be effectively differentiated， which can provide a reference for the comprehensive evaluation and control of the quality of Aurantii Fructus from Sichuan.

Objective To evaluate biomechanical properties of the nickel-titanium (NiTi) memory alloy stent and its in vitro biomechanical properties for lumbar interbody fusion. Methods The mechanical properties of the NiTi memory alloy stent were tested on mechanical testing machine. Moreover, lumbar interbody fusion was simulated on fresh lumbar specimens, and biomechanical properties of the NiTi memory alloy stent with matching bone graft for used for lumbar interbody fusion were analyzed and compared with the traditional box-shape cage. Results The maximum compressive strength of the NiTi memory alloy stent was ( 12 964 ± 962) N. The maximum deformation within the effective range of memory characteristics was (4. 68±0. 03) mm. The recovery rate of the NiTi memory alloy stent was up to 99. 86% . Compared with the intact lumbar model, the stability of the operative segment after the simulated lumbar interbody fusion using NiTi memory alloy stent alone was increased in the direction of anterior flexion, posterior extension, lateral flexion and rotation, which was equivalent to the box shape cage group (P>0. 05). After the combined use of autogenous bone granule and absorbable bone cement the ROM of the operative segment was further reduced (P<0. 05), which was equivalent to the box-shape cage+ unilateral posterior fixation group (P>0. 05). The pull-out strength of the NiTi memory alloy stent with matching bone graft group was significantly stronger than that of the box-shape cage group (P<0. 05). Conclusions The NiTi memory alloy stent in this study was designed with a matched bone granule-absorbable bone cement graft,which provided a new idea for the further optimization and development of lumbar interbody fusion. With excellent support and deformation properties, this NiTi memory alloy stent is biomechanical equivalent to the traditional box shape cage for lumbar interbody fusion, and can greatly improve the stability of surgical segment and the pull-out strength of implants after the combined use of autogenous bone granule and absorbable bone cement.

ObjectiveTo study the accumulation and absorption of dry matter and nutrients in Curcuma phaeocaulis from Sichuan， the origin of Curcumae Radix （tuber） and Curcumae Rhizoma （rhizome）， to explore the growth and development laws and nutrient demand characteristics of the medicinal species， and thus to lay a theoretical basis for rational fertilization. MethodThe plant growth indexes， dry matter accumulation， and nutrient content of C. phaeocaulis at different growth stages in Sichuan were measured and analyzed. ResultThis medicinal species featured the dominant growth of aboveground leaves and stems before October and growth of underground part （particularly the rhizomes and tubers） from October. During the whole growth period， the accumulation of nitrogen， phosphorus， potassium， calcium， magnesium， iron， manganese， zinc， and copper per plant was 2 450.31， 907.09， 3 171.18， 625.94， 493.38， 14.53， 2.24 ， 2.93， 0.46 mg， respectively， with the order of potassium > nitrogen > phosphorus > calcium > magnesium > iron > zinc > manganese > copper. ConclusionThe species needs sufficient potassium and nitrogen， appropriate amount of phosphorus， calcium， and magnesium， a small amount of iron， and very little zinc， manganese， and copper for growth， and potassium is particularly important. Nitrogen， phosphorus， and potassium fertilizers supply macroelements and nitrogen fertilizer should be supplemented at seedling stage， leafy stage， early rhizome expansion stage， tuber expansion stage， and the second expansion stage of rhizome. Phosphorus and potassium fertilizers should be applied at seedling stage， tuber expansion stage， secondary expansion stage of rhizome， and dry matter accumulation stage of tuber and rhizome. At seedling stage， leafy stage， early rhizome expansion stage， tuber expansion stage， and the second expansion stage of rhizome， a variety of medium and trace elements-containing foliar fertilizers should be used.

OBJECTIVE To investigate the mechanism of Fuke duanhongyin capsule in improving dysfunctional uterine bleeding （DUB） in rats. METHODS Pregnant SD rats were randomly divided into blank control group （distilled water）， model control group （distilled water） and Fuke duanghongyin capsule group （1.296 g/kg）， with 6 rats in each group. Except for blank control group， DUB model was established in other groups. After modeling， they were given relevant medicine/distilled water 10 mL/kg intragastrically， once a day， for consecutive 14 d. After medication， uterine index， ovary index and hemorheology indexes （whole blood high shear relative index， whole blood low shear relative index， erythrocyte aggregation index， Carson viscosity） of rats were all determined. The pathological changes of uterus and ovary tissues were observed； mRNA relative expression levels of epidermal growth factor （EGF）， hypoxia-inducible factor 1α （HIF-1α）， epidermal growth factor receptor （EGFR） and serine/ threonine-protein kinase 1（AKT1）， and protein relative expression levels of EGF and EGFR in uterine tissue were all measured. RESULTS Compared with model control group， the uterine index， ovary index， erythrocyte aggregation index were all decreased significantly in Fuke duanghongyin capsule group （P＜0.05 or P＜0.01）； whole blood high shear relative indexes， mRNA relative expression levels of EGF， HIF-1α and EGFR and protein relative expression levels of EGF and EGFR in uterine tissue were all increased significantly （P＜0.05 or P＜0.01）. The pathological changes of ovary and uterus were improved. CONCLUSIONS Fuke duanhongyin capsule can improve DUB in rat， the mechanism of which may be related to the activation of EGF-EGFR signaling pathway.

Plant metabolites are important for plant development and human health. Plants of celery (Apiumgraveolens L.) with different-colored petioles have been formed in the course of long-term evolution. However, the composition, content distribution, and mechanisms of accumulation of metabolites in different-colored petioles remain elusive. Using ultra-high performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS), 1159 metabolites, including 100 lipids, 72 organic acids and derivatives, 83 phenylpropanoids and polyketides, and several alkaloids and terpenoids, were quantified in four celery cultivars, each with a different petiole color. There were significant differences in the types and contents of metabolites in celery with different-colored petioles, with the most striking difference between green celery and purple celery, followed by white celery and green celery. Annotated analysis of metabolic pathways showed that the metabolites of the different-colored petioles were significantly enriched in biosynthetic pathways such as anthocyanin, flavonoid, and chlorophyll pathways, suggesting that these metabolic pathways may play a key role in determining petiole color in celery. The content of chlorophyll in green celery was significantly higher than that in other celery cultivars, yellow celery was rich in carotenoids, and the content of anthocyanin in purple celery was significantly higher than that in the other celery cultivars. The color of the celery petioles was significantly correlated with the content of related metabolites. Among the four celery cultivars, the metabolites of the anthocyanin biosynthesis pathway were enriched in purple celery. The results of quantitative real-time polymerase chain reaction (qRT-PCR) suggested that the differential expression of the chalcone synthase (CHS) gene in the anthocyanin biosynthesis pathway might affect the biosynthesis of anthocyanin in celery. In addition, HPLC analysis revealed that cyanidin is the main pigment in purple celery. This study explored the differences in the types and contents of metabolites in celery cultivars with different-colored petioles and identified key substances for color formation. The results provide a theoretical basis and technical support for genetic improvement of celery petiole color.
Anthocyanins ; Apium/metabolism* ; Chlorophyll/metabolism* ; Color ; Gene Expression Regulation, Plant ; Humans ; Metabolomics ; Plant Proteins/genetics* ; Tandem Mass Spectrometry

ObjectiveTo analyze the production of Poria in 5 major producing areas and the problems through field investigation and literature review and thus to lay a foundation for healthy development of Poria industry. MethodEach production process of Poria in Anhui， Hubei， Hunan， Yunnan， and Sichuan was probed and related research was retrieved for the analysis. ResultSichuan， Guangxi， Guizhou， and other areas have been the emerging producers of Poria. However， a few Poria cocos lines were used and the variety breeding lagged behind. Different cultivation techniques were adopted in different production areas. For example， the "induction" method failed to be widely used. Moreover， the harvest time was mainly dependent on the market demand not matter it was suitable or not. Furthermore， steaming has replaced the traditional diaphoretic processing in the processing of this medicinal material in production areas. In addition， fumigation with sulphur was still used in the processing of Poria. ConclusionAn excellent variety is the key to the quality of Poria. Efforts should be made to strengthen the evaluation of the germplasm resources of P. cocos and variety breeding and standardize the processing in production areas， thereby ensuring the safety and effectiveness of Poria and the decoction pieces. In addition， the contradiction between artificial cultivation and woodland ecology should be fully coordinated to ensure the sustainable development of Poria industry in China.

Although intestinal microbiome have been established as an important biomarker and regulator of cancer development and therapeutic response, less is known about the role of microbiome at other body sites in cancer. Emerging evidence has revealed that the local microbiota make up an important part of the tumor microenvironment across many types of cancer, especially in cancers arising from mucosal sites, including the lung, skin and gastrointestinal tract. The populations of bacteria that reside specifically within tumors have been found to be tumor-type specific, and mechanistic studies have demonstrated that tumor-associated microbiota may directly regulate cancer initiation, progression and responses to chemo- or immuno-therapies. This review aims to provide a comprehensive review of the important literature on the microbiota in the cancerous tissue, and their function and mechanism of action in cancer development and treatment.

Resin cements have been widely employed for bonding all-ceramic restorations in clinical practice, its color stability is directly related to long-term prosthetic effect of restorations. Discoloration of resin cements can be attributed to two causes: endogenous factors are generally related to material compositions and initiation mechanism of polymerization; exogenous factors are mainly related to stimulation of local oral environment. Color stability of resin cements has close relationship with esthetic effect of all-ceramic restorations. The aim of this literature review was to make a presentation and discussion systematically about color stability of resin cements commonly used clinically, its influence factors and influence on all-ceramic restorations, so as to provide a reference for the application of all-ceramic restorations.

Objective: To evaluate the effects of epigallocatechin-3-gallate (EGCG) modification on the bonding stability of an etch-and-rinse adhesive to intraradicular dentin, and to find a new strategy to improve the stability of bonding interface. Methods: EGCG was incorporated into Single Bond 2 (SB2) with the concentration of 200 mg/L and 400 mg/L respectively to fabricated experimental adhesives group A and group B, while Single Bond 2 without EGCG was used as control group. Laser scanning confocal microscope (LSCM) and scanning electron microscope (SEM) were used to observe the bacterial biofilm adherent to the surface of the cured adhesive. Micro-Raman spectrum was used to test the degree of conversion (DC) of adhesives. The push-out bond strength of instant testing and aging with thermocycling for 5 000 times were also tested. Results: Group A and group B showed inhibiting effect on the biofilm formation of Enterococcus faecalis and performed better with higher concentration. No significant differences were detected in DC among group A ([69.73±0.68]%), group B ([69.03±1.65]%) and control group ([70.06±1.62]%) (P>0.05), and the immediate push-out bond strength of control group ([10.45±2.00] MPa) was not compromised compared to group A ([10.02±2.03] MPa) and group B ([9.95±3.03] MPa) (P>0.05). After thermocycling for 5 000 times, group A ([7.01±1.39] MPa) and group B ([7.62±1.88] MPa) showed significantly higher push-out bond strength than control group did ([5.08±1.56] MPa) (P<0.05). Conclusions EGCG modified etch-and-rinse adhesives showed anti-bacterial effect and enhanced bonding stability of intraradicular dentin-adhesive interfaces.