Investigating mechanism of Jiang-zhi-dai-pao-cha for treatment of hyperlipidemia by network pharmacology

Objective:To collect the main components and targets of Jiang-zhi-dai-pao-cha(JZDPC)and investigate the mechanism of JZDPC for the treatment of hyperlipidemia by network pharmacology.Methods:The components and targets of JZDPC were searched from ETCM databases,the targets related to hyperlipidemia were searched from DisGeNET and GeneCards databases,and then the intersection targets and corresponding key components were obtained.Cytoscape 3.8.2 software was used to construct and analyze networks,and then Metascape online database was applied for gene ontology(GO)enrichment analysis and Kyoto Encyclopedia of genes and genomes(KEGG)pathway enrichment analysis of core putative targets.Results:There were 99 overlapping targets between JZDPC and hyperlipidemia,among which NR3C1,ESR1,NR1I2,NFKB1,ESR2,ALOX5,PTGS1,PPARA,RXRA,LPL,PLA2G1B,PYGM,CYP2C9 were the core putative targets,and many members of nuclear receptor 1(NR1)subfamily were included.The core components of JZDPC,such as Ursolic Acid,β-Sitosterol,Resveratrol,Arirubic Acid,Alisol A,Oleanolic Acid,Rhein,Chrysophanol and Emodin,can regulate blood lipid by regulating a series of signaling pathways including the above core potential targets,such as non-alcoholic fatty liver disease(NAFLD)signaling pathway,pathways in cancer,arachidonic acid(AA)metabolism signaling pathway and peroxisome proliferator activated receptor(PPAR)signaling pathway,Starch and sucrose metabolism signaling pathway,etc.They play many roles in the treatment of hyperlipidemia by participating in lipid synthesis and metabolism,anti inflammation,anti oxidative stress,regulating hormone levels and carbohydrate metabolism.Conclusion:Network pharmacology provides a theoretical basis for investigating the mechanism of action of JZDPC,and the NAFLD signaling pathway is one of the most valuable pathways.

Clinical observation of acupoint injection combined with nerve electrical stimulation in the treatment of post-stroke dysphagia

Background:Post-stroke dysphagia is one of the common clinical symptoms in the rehabilitation department of primary hospitals,which seriously affects the quality of life of patients and their families.Majority of medical workers have comprehensively studied post-stroke dysphagia as it easily induces inhalation pneumonia,asphyxia,and many other complications.At present,many methods for post-stroke dysphagia have been proved to be effective.With regard to comprehensive treatment effect,patient compliance,technology promotion difficulty,grassroots hospital operability,and other factors,we found that acupoint injection combined with nerve electrical stimulation is a good method worthy of promotion.Methods:A total of 130 patients with dysphagia after stroke were randomly divided into nerve electrical stimulation group(n=41),acupoint injection group(n=40),and comprehensive treatment group(nerve electrical stimulation plus acupoint injection,n=49).The therapeutic effect in each group was evaluated before treatment and 20 days after treatment using the improved water swallow test,video fluoroscopic swallowing study,and standardized swallowing assessment.Results:After 20 days of treatment,significant differences were noted in each group.The scores of improved water swallow test decreased from 4.10±0.74 to 2.12±0.95 in the nerve electrical stimulation group,4.00±0.78 to 2.28±1.04 in the acupoint injection group,and 4.16±0.77 to 1.73±0.79 in the comprehensive treatment group;video fluoroscopic swallowing study scores increased from 3.71±2.16 to 5.05±2.111 in the nerve electrical stimulation group,3.80±1.94 to 5.20±1.942 in the acupoint injection group,and 3.73±2.22 to 6.24±2.21 in the comprehensive treatment group;and standardized swallowing assessment scores of the three groups also decreased from 35.13±3.38 to 28.17±3.42,34.66±3.46,and 34.48±3.26 to 26.39±3.86,respectively.The overall scores of each group after treatment were significantly different from those before treatment(P<0.05),indicating that both nerve electrical stimulation and acupoint injection were effective for post-stroke dysphagia;the scores of nerve electrical stimulation group and acupoint injection group were similar,but those of the comprehensive treatment group were significantly better than the single treatments(P<0.05).It shows that the two treatment methods have synergistic effect,and combined treatments have more benefits.Conclusion:Nerve electrical stimulation and acupoint injection have a synergistic therapeutic effect on post-stroke dysphagia.The combined treatment is more beneficial to patients with post-stroke dysphagia than the single treatments.

Effect of acupuncture on short-term pain after standard thoracotomy

Background:To observe the effect of perioperative acupuncture on postoperative pain in patients undergoing standard sternotomy.Methods:57 patients who received standard median sternotomy were randomly divided into acupuncture group(30 cases)and control group(27 cases).The control group was treated with routine operation and nursing,and the acupuncture group was treated with acupuncture for 10 days on the basis of perioperative period.The pain levels of the two groups before and after operation were compared.Results:The pain level of the acupuncture group was significantly lower than that of the control group on the 2nd,10th,and 30th days after operation(P<0.05),and the short-term pain levels in the two groups were statistically significant(P<0.05).Conclusion:The perioperative acupuncture treatment has a significant analgesic effect on short-term pain for patients undergoing anterior midline thoracotomy,and it is helpful for patients to recover quickly after surgery.

Self-templated formation of twin-like metal-organic framework nanobricks as pre-catalysts for efficient water oxidation

Fabrication of single-crystalline metal-organic framework(MOF)hollow nanostructures with two-dimensional(2D)morphologies is a challenging task.Herein,twin-like MOF nanobricks,a quasi-hollow 2D architecture,with multi-metal nodes and replaceable organic ligands,are uniformly and firmly grown on conductive Ni foam through a generic one-pot approach.The formation process of twin-like MOF nanobricks mainly includes selective epitaxial growth of Fe-rich MOF layer and simultaneously dissolution of the pre-formed Ni-rich metal-organic frameworks(MOFs),all of which can be ascribed to a special self-templated mechanism.The fantastic structural merits of twin-like MOF nanobrick arrays,featuring highly exposed active sites,remarkable electrical conductivity,and hierarchical porosities,enable this material for efficient electrocatalysis.Using bimetallic NiFe-MOFs grown on Ni foam as an example,the resultant twin-like nanobrick arrays can be directly utilized as three-dimensional(3D)integrated electrode for high-performance water oxidation in 1 M KOH with a low overpotential,fast reaction kinetics(28.5 mV·dec^(-1)),and superb stability.Interestingly,the unstable NiFe-MOFs were served as an oxygen evolution reaction(OER)pre-catalyst and the single-crystalline NiFe-MOF precursor can be in-situ topochemically regulated into porous and lowcrystalline NiFeOx nanosheets during the OER process.This work extends the hollowing strategy to fabricate hollow MOFs with 2D architectures and highlights their direct utilization for advanced electrocatalysis.

Tunable ultrathin dual-phase P-doped Bi_(2)MoO_(6) nanosheets for advanced lithium and sodium storage

The construction of electrode materials for lithium-ion batteries(LIBs)and sodium-ion batteries(SIBs)has gradually been an appealing and attractive technology in energy storage research field.In the present work,a facile strategy of synthesizing ultrathin amorphous/nanocrystal dual-phase P-doped Bi_(2)MoO_(6)(denoted as P-BiMO)nanosheets via a one-step wet-chemical synthesis approach is explored.Quite distinct from conventional two-dimensional(2D)nanosheets,our newly developed ultrathin P-BiMO nanosheets exhibit a unique tunable amorphous/nanocrystalline dual-phase structure with several compelling advantages including fast ion exchange ability and superb volume change buffer capability.The experimental results reveal that our prepared P-BiMO-6 electrode delivers an excellent reversible capacity of 509.6 mA·g^(−1) after continuous 1,500 cycles at the current densities of 1,500 mA·g^(−1) and improved rate performance for LIBs.In the meanwhile,the P-BiMO-6 electrode also shows a reversible capacity of 300.6 mA·g^(−1) after 100 cycles at 50 mA·g^(−1) when being used as the SIBs electrodes.This present work uncovers an effective dual-phase nanosheet structure to improve the performance of batteries,providing an attractive paradigm to develop superior electrode materials.

Low-temperature synthesis of SiC nanowires with Ni catalyst

SiC nano wires were fabricated on the silicon substrate dipped with a layer of Ni catalyst at 900 ℃ by gas pressure annealing processing. The morphologies and crystal structures were determined by scanning electron microscopy(SEM), transmission electron microscopy(TEM)and X-ray diffraction(XRD). The results show that the assynthesized nanowires are β-SiC single crystalline with diameter range of 50-100 nm, and length of tens of micron by directly annealing at 900 ℃. The SiC nano wires grow along the [111] direction with highly uniform morphology. And the possible growth mechanism of SiC nano wires is proposed.The present work provides an efficient strategy for the production of high-quality SiC nano wires.