Mn(II) Coordination Complex Loaded Hydrogel: Synthesis, Characterization, Fluorescence Properties, and Application in Treating Knee Arthritis.

Using a mixed-ligand approach, we successfully obtained two Mn(II)-based coordination compounds, namely [Mn2(L1)(TBIP)·H2O]n (1) and [Mn2(L2)(NPTA)·H2O]n (2) (where L1 and L2 are 1,4-bis(thiabenzimidazol-1-ylmethyl)benzene and 1,2-bis(thiabenzimidazol-1-ylmethyl)benzene, H2NPTA is 2-nitroterephthalic acid, and H2TBIP is 5-tert-butylisophthalic acid). Fluorescence performance testing of complexes 1 and 2 showed excellent green and blue fluorescence properties. Based on this, we further prepared HA/CMCS hydrogels using natural polysaccharides hyaluronic acid (HA) and carboxymethyl chitosan (CMCS) as raw materials and studied their internal structural characteristics using scanning electron microscopy. Using "Duhuo Jisheng Decoction" as a drug model, two metal gel scaffolds loaded with "Duhuo Jisheng Decoction" were prepared, and their potential for treating knee osteoarthritis was evaluated.

17ß-estradiol activates SOX6 to balance the anabolism and catabolism via estrogen receptor 2 in chondrocyte.

We investigated the influence of 17ß-estradiol (17ß-E2) on cartilage extracellular matrix (ECM) homeostasis in postmenopausal women. We focused on the roles of estrogen receptors (ESR) and SOX6 in 17ß-E2-mediated stimulation of ECM metabolism during chondrocyte (CH) degeneration. We compared the expression of anabolic genes (collagen II and aggrecan) and catabolic genes (MMPs and TIMPs) in IL-1ß-induced CH degeneration in vitro, with and without 17ß-E2 supplementation. We separately silenced the SOX6, ESR1, and ESR2 genes in CHs to determine their impact on 17ß-E2 treatment. Additionally, we used Chromatin immunoprecipitation followed by DNA sequencing (ChIP-seq) and luciferase assays to investigate protein-DNA interactions within ESR2 and SOX6-promoter complexes. After three days of IL-1ß treatment, ESR1/2, SOX6, collagen II, aggrecan, and TIMP1/3 were decreased, while MMP3/9/13 were increased. The addition of 17ß-E2 partially reversed these effects, but silencing SOX6, ESR1, or ESR2 weakened the protective effects of 17ß-E2. Silencing ESR2, but not ESR1, abolished the upregulation of SOX6 induced by 17ß-E2. ESR2 was found to bind the SOX6 promoter and regulate SOX6 expression. 17ß-E2 upregulates SOX6 through ESR2 mediation, and the synergistic effect of 17ß-E2 and ESR2 on SOX6 balances ECM metabolism in CHs.

Heat shock protein-related diagnostic signature and molecular subtypes in ankylosing spondylitis: new pathogenesis insights.

Heat shock proteins (HSP) have been associated with a range of persistent inflammatory disorders; however, little research has been conducted on the involvement of HSP in the development of ankylosing spondylitis (AS). The research aims to identify a diagnostic signature based on HSP-related genes and determine the molecular subtypes of AS. We gathered the transcriptional data of patients with AS from the GSE73754 dataset and conducted a literature search for HSP-related genes (HRGs). The logistic regression model was utilized for the identification of hub HRGs associated with AS. Subsequently, these HRGs were employed in the construction of a nomogram prediction model. We employed a consensus clustering approach to identify novel molecular subgroups. Subsequently, we conducted functional analyses, encompassing GO, KEGG, and GSEA, to elucidate the underlying mechanisms between these subgroups. To assess the immunological landscape, we employed the xCell algorithm. Through logistic regression analysis, the four core HRGs (CCT2, HSPA6, DNAJB14, and DNAJC5) were confirmed as potential biomarkers for AS. Subsequent stratification revealed two distinct molecular phenotypes, designated as Cluster 1 and Cluster 2. Notably, Cluster 2 was characterized by the upregulation of pathways pertinent to immune response and inflammation. Our research suggests that the CCT2, HSPA6, DNAJB14, and DNAJC5 exhibit potential as effective blood-based diagnostic biomarkers for AS. These findings contribute to a deeper comprehension of the underlying mechanisms involved in the development of AS and offer potential targets for personalized therapeutic interventions.

Fabrication of an aprepitant nanosuspension using hydroxypropyl chitosan to increase the bioavailability.

Aprepitant has been classified into BCS class IV, which has low permeability and poor water solubility, resulting in low bioavailability. This study focused on improving its permeability and solubility in order to improve the oral bioavailability of aprepitant. Hydroxypropyl chitosan (HPCS) was used as a stabilizer for the nanosuspension and wet milling was utilized for improving aprepitant's bioavailability and solubility. The resulting nanosuspension size was 151 ± 14.5 nm and its zeta potential was 63.5 ± 0.34 Mv. The spectral characteristics (XRPD, DSC, TEM) of the nanosuspension suggested that aprepitant existed in the crystalline form and that nanosuspension had 2-fold higher solubility than aprepitant. Hydroxypropyl chitosan can significantly reduce the TEER of Caco-2 cells and the Papp of the suspension in Caco-2 cells increased by 2.2 times compared with aprepitant. The relative bioavailability of the nanosuspension was 147.7% compared with the commercial capsule.

Video Desnowing and Deraining via Saliency and Dual Adaptive Spatiotemporal Filtering.

Outdoor vision sensing systems often struggle with poor weather conditions, such as snow and rain, which poses a great challenge to existing video desnowing and deraining methods. In this paper, we propose a novel video desnowing and deraining model that utilizes the salience information of moving objects to address this problem. First, we remove the snow and rain from the video by low-rank tensor decomposition, which makes full use of the spatial location information and the correlation between the three channels of the color video. Second, because existing algorithms often regard sparse snowflakes and rain streaks as moving objects, this paper injects salience information into moving object detection, which reduces the false alarms and missed alarms of moving objects. At the same time, feature point matching is used to mine the redundant information of moving objects in continuous frames, and a dual adaptive minimum filtering algorithm in the spatiotemporal domain is proposed by us to remove snow and rain in front of moving objects. Both qualitative and quantitative experimental results show that the proposed algorithm is more competitive than other state-of-the-art snow and rain removal methods.

Hyaluronic acid-coated nanostructured lipid carriers for loading multiple traditional Chinese medicine components for liver cancer treatment.

This study aimed to develop hyaluronic acid (HA)-coated nanostructured lipid carriers (NLC) loaded simultaneously with oleanolic acid (OA), ursolic acid (UA) and Ginsenoside Rg3 (Rg3), prepared by electrostatic attraction for delivering OA, UA and Rg3 (OUR), termed HA-OUR-NLC, to tumors over expressing cluster determinant 44(CD44). The dialysis method was used to assess the in vitro release of OUR. Parameters such as pharmacokinetics, biodistribution, fluorescence in vivo endo-microscopy (FIVE), optical in vivo imaging (OIVI) data, and in vivo antitumor effects were evaluated. The results showed a total drug loading rate of 8.76±0.95% for the optimized HA-OUR-NLC; total encapsulation efficiency was 45.67±1.14%; particle size was 165.15±3.84%; polydispersity index was 0.227±0.01; zeta potential was -22.87±0.97 mV. Drug release followed the Higuchi kinetics. Pharmacokinetics and tissue distribution, as well as antitumor effects were evaluated in nude mice in vivo. HA-OUR-NLC were better tolerated, with increased antitumor activity compared with 5-Fu. In in vivo optical imaging, we use 1,1'-dioctadecyl-3,3,3',3'-tetramethy(DiR) as a fluorescent dye to label the NLC. The DiR-OUR-NLC group showed bright systemic signals, while the tumor site was weak. The present findings indicated that HA-OUR-NLC accumulated in the tumor site, prolonging OUR duration in the circulation and enhancing tumoral concentrations. Therefore, NLC prepared by electrostatic attraction constitute a good system for delivering OUR to tumors.

Screening anaphylactoid components of Shuang Huang Lian Injection by analyzing spectrum-effect relationships coupled with UPLC-TOF-MS.

Shuang Huang Lian Injection (SHLI) has been used in China for over 30 years as an effective and widely used Chinese herbal prescription to treat acute respiratory infectious. SHLI has, however, caused many severe anaphylactoid reactions. It is important to identify the potential anaphylactoid components of SHLI. Spectrum-effect relationships were used to explore potentially anaphylactoid components. Based on the original herbal formula, honeysuckle, Fructus Forsythiae and Radix Scutellariae extracts were prepared and combined in appropriate proportions. The preparations were then injected into the caudal vein of rats to obtain in vivo serum samples for pharmacological evaluation and fingerprint analysis. The release rate of ß-hexosaminidase from RBL-2H3 cells and plasma histamine level was used as the pharmacological index. Chromatographic fingerprint analysis identified 22 common peaks. Regression analysis and correlation analysis were used to calculate the relationships between the peaks and the pharmacological effects and identified peaks 5, 6, 11, 12 and 17 as likely anaphylactoid agents. The correlated peaks were identified by comparing the fingerprints with in vitro samples and reference standard samples and the structure was identified by UPLC-TOF-MS. This study established a prospective method to clarify the anaphylactoid components in SHLI, which would provide guidances for screening anaphylactoid components in other traditional Chinese medicine injections.

[Effect of combination of gastrodia and uncaria on pharmacokinetics of gastrodin and rhynchophylline].

To investigate the effect of the combination of gastrodia and uncaria on the pharmacokinetics of gastrodin and rhynchophylline, and determine their pharmacokinetic parameters after administration of the combination of gastrodia and uncaria at the ratio of 12∶9. Compared with uncaria group or gastrodia group, Cmax and AUC of both gastrodin and rhynchophylline were significantly increased, and tmax was retroceded by 1.5 h for rhynchophylline and 0.25 h for gastrodin. The change of tmax resulted in a 1.25 h difference in the peak time between gastrodin and rhynchophylline , which was the same between them. Uncaria shows a more effect in suppressing hyperactive Yang, while gastrodia has a balancing effect by nourishing Yin and suppressing hyperactive Yang. As a result, gastrodia could exert the effect in nourishing Yin and suppressing effect of uncaria, which could avoid the deficiency of Yang affecting Yin due to mono-treatment of uncaria. On one hand, the enhanced AUC and Cmax of gastrodin could increase the average plasma drug concentration of gastrodin, and remedy the losing effect of uncaria at the early stage; On the other hand, the increased AUC and Cmax of rhynchophylline could make up the quick elimination of gastrodia in vivo at the late stage. Their combination could lead to an increased anti-hypertensive effect with the balance of Yin and Yang. They showed unique advantages compared with simple dosage increase of western medicines. The results were consistent with the principle of TCM treatment for the hypertension due to hyperactivity of the liver Yang. In short, this study gives a good pharmacokinetic explanation of the balance of Yin and Yang and TCM treatment for both symptoms and root cause.

Resveratrol prevents renal lipotoxicity in high-fat diet-treated mouse model through regulating PPAR-α pathway.

Resveratrol (RSV) has beneficial effects on renal diseases, but its underlying mechanisms are still unclear. In the present study, we investigate the renoprotective effects of RSV on obesity-related renal diseases and clarify the potential mechanisms. Male C57BL/6J mice were fed with high-fat diet (HFD) with or without 400 mg/kg RSV treatment for 12 weeks. Feeding HFD induced renal injuries, but treating them with RSV significantly decreased glomerular volume (p < 0.05), glycogen (p < 0.01) and collagen (p < 0.05) in renal tissues. Although slightly changed body weight and fasting blood glucose, RSV attenuated renal dysfunction, including decreased levels of blood urea nitrogen (p < 0.05), urea protein (p < 0.01), and microalbuminuria (p < 0.01). Furthermore, RSV treatment markedly reduced gene expression of tumor necrosis factor (TNF)-α, interleukin (IL)-6 and inducible nitric oxide synthase (iNOS) (all p < 0.05), 4-Hydroxynonenal expression (p < 0.01), and lipid accumulation. Mechanistically, RSV enhanced the expression of lipolytic genes, peroxisome proliferator-activated receptor (PPAR)-α (p < 0.001), carnitine palmitoyltransferase (CPT)-1 (p < 0.05), and medium-chain acyl-coenzyme A dehydrogenase (MCAD) (p < 0.01), but had no effect on lipogenic genes, PPAR-γ and sterol regulatory element-binding protein (SREBP)-1c. RSV also obviously increased renal PPAR-α protein expression (p < 0.001) and the phosphorylation of AMPK level. Collectively, these results support the therapeutic effects of RSV on high-fat diet-induced renal damages at least partially through targeting on PPAR-α signaling pathway.

Preparation, in vitro and in vivo evaluation of mPEG-PLGA nanoparticles co-loaded with syringopicroside and hydroxytyrosol.

This study investigated the therapeutic efficiency of monomethoxy polyethylene glycol-poly(lactic-co-glycolic acid) (mPEG-PLGA) co-loaded with syringopicroside and hydroxytyrosol as a drug with effective targeting and loading capacity as well as persistent circulation in vivo. The nanoparticles were prepared using a nanoprecipitation method with mPEG-PLGA as nano-carrier co-loaded with syringopicroside and hydroxytyrosol (SH-NPs). The parameters like in vivo pharmacokinetics, biodistribution in vivo, fluorescence in vivo endomicroscopy, and cellular uptake of SH-NPs were investigated. Results showed that the total encapsulation efficiency was 32.38 ± 2.76 %. Total drug loading was 12.01 ± 0.42 %, particle size was 91.70 ± 2.11 nm, polydispersity index was 0.22 ± 0.01, and zeta potential was -24.5 ± 1.16 mV for the optimized SH-NPs. The nanoparticle morphology was characterized using transmission electron microscopy, which indicated that the particles of SH-NPs were in uniformity within the nanosize range and of spherical core shell morphology. Drug release followed Higuchi kinetics. Compared with syringopicroside and hydroxytyrosol mixture (SH), SH-NPs produced drug concentrations that persisted for a significantly longer time in plasma following second-order kinetics. The nanoparticles moved gradually into the cell, thereby increasing the quantity. ALT, AST, and MDA levels were significantly lower on exposure to SH-NPs than in controls. SH-NPs could inhibit the proliferation of HepG2.2.15 cells and could be taken up by HepG2.2.15 cells. The results confirmed that syringopicroside and hydroxytyrosol can be loaded simultaneously into mPEG-PLGA nanoparticles. Using mPEG-PLGA as nano-carrier, sustained release, high distribution in the liver, and protective effects against hepatic injury were observed in comparison to SH.

Globular protein-coated Paclitaxel nanosuspensions: interaction mechanism, direct cytosolic delivery, and significant improvement in pharmacokinetics.

About 40% of the marketed drugs and 70-90% of new drug candidates are insoluble in water and therefore poorly bioavailable, which significantly compromises their therapeutic effects. A formulation of nanosuspensions achieved by reducing the pure drug particle size down to seb-micron range is one of the most promising approaches to overcome the insolubility. However, the nanosuspension formulations are subject to instability because of nucleation and particle growth. Therefore, a stabilizer is needed to be incorporated into the nanosuspension formulation during the preparation process to suppress the aggregation of drug particles. ß-LG, a globular protein, is broken by heat-induced denaturation, and its hydrophobic area is exposed, which allows it to associate with organic particles. PTX, an insoluble drug, is widely used for the clinical treatment of human cancer. However, this drug's clinical application is greatly limited by intrinsic defects including poor solubility, adverse side effects, and poor tumor penetration. In this study, we prepared ß-LG-stabilized PTX nanosuspensions (PTX-NS) by coating the protein onto nanoscaled drug particles, investigating the stabilization effect of ß-LG on PTX-NS, and evaluating its in vitro and in vivo performance. PTX-NS with a diameter of approximately 200 nm was easily prepared. ß-LG produced significantly stabilized effect on PTX-NS via the interaction between the hydrophobic area of the protein and the hydrophobic surface of the drug particles, which resulted in a conformational change of the protein, the loss of both secondary and tertiary structures, and the transition of Trp residues to a less hydrophobic condition. Importantly, unlike other conventional nanoparticles, PTX-NS could directly translocated across the membrane into the cytosol in an energy-independent manner, without entrapment within the endosomal-lysosomal system. Moreover, compared with Taxol, PTX-NS increased AUC and Cmax by 26- and 16-fold, respectively, and prolonged T1/2 by 314-fold. As expected, PTX-NS had better in vitro and in vivo antitumor activity compared to PTX alone. Additionally, ß-LG is cyto- and bio-compatible, and PTX-NS is not toxic to healthy tissues. In conclusion, the present study has suggested the high potency of globular proteins, such as ß-LG, as novel biomaterials for nanosuspension platform to improve the drug delivery for disease treatment.

Monocyte mediated brain targeting delivery of macromolecular drug for the therapy of depression.

Leukocytes can cross intact blood-brain barrier under healthy conditions and in many neurological diseases, including psychiatric diseases. In present study, a cyclic RGD (cRGD) peptide with high affinity for integrin receptors of leukocytes was used to modify liposomes. The cRGD-modified liposomes (cRGDL) showed high affinity for monocytes in vitro and in vivo and co-migrated across in vitro BBB model with THP-1. The trefoil factor 3 (TFF3), a macromolecular drug, was rapidly and persistently delivered to brain for at least 12 h when loaded into cRGDL while 2.8-fold increase in drug concentration in basolateral amygdala regions related to depression was observed. A systemic administration of cRGDL-TFF3 mimicked antidepressant-like effect of direct intra-basolateral amygdala administration of TFF3 solution in rats subjected to chronic mild stress. The effective dual-brain targeting delivery resulting from the combination and co-migration of cRGDL with leukocyte cross BBB may be a promising strategy for targeted brain delivery. FROM THE CLINICAL EDITOR: In an effort to treat depression, brain targeted delivery via monocyte-cRGD liposome complexes capable of crossing the intact BBB was performed in this study in a murine model. Similar approaches may be helpful in the treatment of other neuropsychiatric conditions.

Development of an LC-MS/MS method for determining the pharmacokinetics of clonidine following oral administration of Zhenju antihypertensive compound.

Zhenju antihypertensive compound (ZJAHC) is a combined Chinese-Western medicine formula including clonidine (CLO), hydrochlorothiazide (HCT), rutin, Chrysanthemum indicum extract and pearl powder. Compared with CLO preparations, ZJAHC shows improved activities and decreased adverse effects. It is believed that the side effects of CLO are caused by its high peak plasma concentration. Hence, study of the influence of ZJAHC on the pharmacokinetic behaviors of clonidine seems essential. In present study, the plasma concentrations of CLO were determined with a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method. The MS/MS transitions monitored for clonidine and internal standard were 230.2 → 213.1 and 152.2 → 110.2, respectively. The analyte was quantified in a single run within 3 min. The pharmacokinetic study showed that the area under the plasma concentration-time curve of CLO in ZJAHC (60 µg/kg CLO) was similar to that of CLO-HCT-high (120 µg/kg CLO) but the peak concentration was much lower than that in CLO-HCT-high. ZJAHC could enhance the bioavailability without greatly increasing peak concentration of clonidine. This comprehensive effect of enhancing the bioavailability and avoiding the high peak plasma concentration for CLO might mainly result from the co-contribution of Western medicine and traditional Chinese medicine (TCM), while the effect of TCM was stronger than that of Western medicine.

[A new benzaldehyde from aerial part of Rehmannia glutinosa].

A new benzaldehyde, 3-hydroxy-4-(4-(2-hydroxyethyl) phenoxy) henzaldehyde(1), together with six known compounds, including isovanillic acid(2), pyrocatechol(3), glutinosalactone A(4), chrysoeriol(5), apigenin(6) and luteolin(7) were isolated from aerial part of Rehmannia glutinosa. The compounds were isolated by macroporous resin, silica gel, Sephadex LH-20 and HPLC chromatographies. The chemical structures of 1-7 were elucidated on the basis of spectral analysis (MS, 1D NMR and 2D NMR).

[Aporphine alkaloids from Litsea greenmaniana].

A new aporphine alkaloid (1), together with five known analogues (2-6), has been isolated from the branch of Litsea greenmaniana by using various chromatographic techniques. Their structures were identified by spectroscopic data analysis ( MS, IR, 1D and 2D NMR) as 2,9-dihydroxy-1,10-dimethoxy-4,5-dihydro-7-oxoaporphine (1), laurotetanine (2), N-methyllaurotetanine (3), isodomesticine (4), isocorydine (5), and norisocorydine (6). Compound 1 was a new compound, and compounds 2-6 were obtained from this plant for the first time.

Self-Powered and Self-Healable Extraocular-Muscle-Like Actuator Based on Dielectric Elastomer Actuator and Triboelectric Nanogenerator.

Although dielectric elastomer actuators (DEAs) are promising artificial muscles for use as visual prostheses in patients with oculomotor nerve palsy (ONP), high driving voltage coupled with vulnerable compliant electrodes limits their safe long-term service. Herein, a self-healable polydimethylsiloxane compliant electrode based on reversible imine bonds and hydrogen bonds is prepared and coated on an acrylic ester film to develop a self-healable DEA (SDEA), followed by actuation with a high-output triboelectric nanogenerator (TENG) to construct a self-powered DEA (TENG-SDEA). Under 135.9 kV mm-1 , the SDEA exhibits an elevated actuated strain of 50.6%, comparable to the actuation under DC power. Moreover, the mechanically damaged TENG-SDEA displays a self-healing efficiency of over 90% for 10 cycles. The TENG ensures the safe using of TENG-SDEAs and an extraocular-muscle-like actuator with oriented motion ability integrated by several TENG-SDEAs is constructed. Additionally, the SDEA is directly used as a flexible capacitive sensor for real-time monitoring of the patient's muscle movement. Accordingly, a medical aid system based on a conjunction of the extraocular-muscle-like actuator and a flexible capacitive sensor is manufactured to help the patients suffering from ONP with physical rehabilitation and treatment.

[Application and advance of artificial antigens in studies on allergic reaction of traditional Chinese medicine injections].

There are some small molecules with potential allergenicity in traditional Chinese medicine injections. They are lack of immunogenicity due to their small molecular weight, but they can lead to allergic reactions when they were coupled with appropriate vectors. Therefore, how to couple small molecule semi-antigens with vectors to prepare complete antigens with immunogenicity and reactogenicity is the key for screening small molecular allergenic substances out of traditional Chinese medicine injections. In terms of semi-antigen characteristics of traditional Chinese medicine injections, vector selection and application, coupling method and complete antigen purification and identification, the author introduces the latest research situations of artificial antigen and antibody preparation technology, the advance in experimental studies on screening of allergenic substances in traditional Chinese medicine injections, as well as the application prospect of immuno-chip technology in studies on allergenic substances in traditional Chinese medicine injections, with the aim of providing new experimental thoughts and methods for safety control of traditional Chinese medicine injections.

Long Non-Coding RNA AL928768.3 Promotes Rheumatoid Arthritis Fibroblast-Like Synoviocytes Proliferation, Invasion and Inflammation, While Inhibits Apoptosis Via Activating Lymphotoxin Beta Mediated NF-κB Signaling Pathway.

Our previous study using RNA sequencing and reverse transcription quantitative polymerase chain reaction (RT-qPCR) validation identified a long non-coding RNA (lnc), lnc-AL928768.3, correlating with risk and disease activity of rheumatoid arthritis (RA), then the present study was conducted to further investigate the interaction of lnc-AL928768.3 with lymphotoxin beta (LTB) and their impact on proliferation, migration, invasion, and inflammation in RA-fibroblast-like synoviocytes (RA-FLS). Human RA-FLS was obtained and transfected with lnc-AL928768.3 overexpression, negative control overexpression, lnc-AL928768.3 short hairpin RNA (shRNA) and negative control shRNA plasmids. Then cell functions and inflammatory cytokine expressions were detected. Afterward, rescue experiments were conducted via transfecting lnc-AL928768.3 shRNA with or without LTB overexpression plasmids in RA-FLS. Lnc-AL928768.3 enhanced proliferation and invasion, inhibited apoptosis, while had little impact on migration in RA-FLS. In addition, lnc-AL928768.3 positively modulated interleukin-1ß (IL-1ß), IL-6 and IL-8 expressions in RA-FLS supernatant; moreover, it also positively regulated LTB mRNA expression, LTB protein expression, p-NF-κB protein expression, and p-IKB-α protein expression in RA-FLS. Furthermore, following experiment showed that lnc-AL928768.3 positively regulated LTB expression while LTB did not impact on lnc-AL928768.3 expression in RA-FLS. Furthermore, in rescue experiments, LTB overexpression curtailed the effect of lnc-AL928768.3 knock-down on regulating proliferation, invasion, apoptosis and inflammatory cytokine expressions in RA-FLS. Lnc-AL928768.3 promotes proliferation, invasion, and inflammation while inhibits apoptosis of RA-FLS via activating LTB mediated NF-κB signaling.

The First Discovery of a Microstructure in Black Plaster and Its Performance Characterization.

Background: Black plaster is one of the classic dosage forms of traditional Chinese medicine for external use and has been widely utilized since the Tang and Song Dynasties. In this paper, we take Goupi Gao as the research object and discuss the scientific characteristics of the black plaster dosage form. Goupi Gao ointment is a plaster for external use of traditional Chinese medicine. Methods: Methods for the morphological and quantitative characterization of black plaster's microstructure, based on FESEM-IPP (Field Emission Scanning Electron Microscope IPP Image Processing) technology, were established. According to the actual operating temperature of Goupi Gao, three temperatures were selected: 28°C, 35°C, and 45°C. A UPLC analysis method was applied to the cinnamaldehyde and eugenol in Goupi Gao, and the release behavior of Goupi Gao from three samples at three temperatures was investigated using the paddle over disk method. Preparation of rabbit model of knee osteoarthritis of cold blood stasis type by cold stimulation combined with drug induction. Results: In terms of morphology, Goupi Gao and the blank black plaster matrix both formed a double continuous phase system with a thicker vegetable oil phase and crossed "branched" soap crystal fibers. Based on the IPP image quantification parameters, the pore area (A) was highly positively correlated with temperature. After the 28 °C treatment, A1 = (216.8±59.5) µm2; after the 35 °C treatment, A2 = (259.7±52.8) µm2; after the 45 °C treatment, A3 = (408.0±57.7) µm2, and there were no significant differences in other pore parameters. Conclusion: The black plaster matrix's unique structure makes it highly applicable in numerous medications; it exhibits slow-release and performs well in extreme temperatures, with good adhesion and peeling properties.

[Study on intestinal absorption kinetics of syringopicroside in rats].

OBJECTIVE: To study the intestinal absorption mechanism of traditional Chinese medicine monomer syringopicroside in rats. METHOD: The in situ rat single-pass intestinal perfusion model was established to detect the concentration of syringopicroside by HPLC. The absorption at different intestine segments in rat and the influence of concentration, pH and P-glycoprotein inhibitors of the drug solution on the absorption of syringopicroside were also observed. RESULT: The absorption rate constant (K,) of syringopicroside at duodenum, jejunum, ileum, and colon were 0.00255, 0.00630, 0.00900, 0.00799 min- , respectively; Ka from intestine at syringopicroside concentration of 0.090, 0.180, 0.360 g x L(-1) were 0.00370, 0.00708, 0.00694 min(-1), respectively; and Ka at pH of 7.4, 6.8 and 5.0 were 0.00733, 0.00747, 0.00362 min(-1), respectively. P-glycoprotein inhibitor on the intestinal absorption of syringopicroside showed significant influence (P < 0.05). CONCLUSION: Syringopicroside is well absorbed at the lower small intestine. When the drug concentration is low, the absorption rate constant is low, where as Ka increases at medium and high concentrations; the Ka is low at pH 5.0 and increases at pH 6.8 and pH 7.4. Syringopicroside is proved to be a substrate of P-glycoprotein.