Good Activity Research Articles

Density Functional Theory Study on Screening and Key Metrics for Non-metallic Oxygen Reduction Catalysts.

This study systematically investigates the oxygen reduction reaction (ORR) catalytic activity of graphene doped with various non-metallic impurities. The non-metal elements include boron (B), silicon (Si), nitrogen (N), phosphorus (P), arsenic (As), oxygen (O), sulfur (S), selenium (Se), tellurium (Te), fluorine (F), chlorine (Cl), bromine (Br), and iodine (I). We found that adsorbates tend to adsorb on positively charged impurity atoms. We identified several substrates with good catalytic activity, all of which have an ORR overpotential of around 0.6 V. We further verified the thermodynamic stability of these substrates and found them to be very stable. We summarized the optimal adsorption energies for ORR intermediates O2H, O, and OH to be -1.9, -3.4, and -2.4 eV, respectively, and validated their reasonableness. Finally, we used simple linear functions to fit the relationship between the adsorption energies of O2H, O, and OH and the charge and magnetic moment of the adsorption site atoms. This model can roughly predict the ORR catalytic activity of doped graphene, facilitating the faster screening of excellent ORR catalysts.

Chemical constituents and biological activities of endophytic fungi from Fagopyrum dibotrys.

Fagopyrum dibotrys is an important wild food and feed germplasm resource. It has high nutritional and medicinal value and is rich in natural products, including flavonoids, phenolic acids, coumarins, and alkaloids. Endophytic fungi in F. dibotrys have emerged as valuable sources of natural products. However, studies on the biological activity and chemical composition of these endophytic fungi remain limited. In this paper, a new method to obtain natural active ingredients by fermentation of endophytic fungi from medicinal plants was proposed. Then the antioxidant and pathogenic activities of the endophytic fungi extracts were determined in vitro. In addition, secondary metabolites produced by endophytic fungi with medicinal activity were analyzed by high performance liquid chromatography-tandem mass spectrometry (LC-MS). Among the 95 endophytic fungal strains in F. dibotrys, four strains with high phenol yields were selected by reaction: Alternaria alstroemeriae (J2), Fusarium oxysporum (J15), Colletotrichum karsti (J74), and Colletotrichum boninense (J61). Compared with those of various extracts, the ethyl acetate fractions of A. alstroemeriae (J2), F. oxysporum (J15), and C. boninense (J61) exhibited superior antioxidant and antibacterial properties. The results indicated that the fungal extract was an excellent natural antioxidant and might be a potential antibacterial agent. The DPPH free radical clearance of A. alstroemeriae was 94.96 ± 0.004%. These findings indicated that A.alstroemeriae had strong antioxidant activity. In addition, the extract of A.alstroemeriae had good antibacterial activity against Escherichia coli and Staphylococcus aureus, with MICs of 0.5 and 0.05 mg/mL, respectively. The chemical constituents of the ethyl acetate extract from A. alstroemeriae were further analyzed by liquid chromatography-mass spectrometry (LC-MS). We noted that A. alstroemeriae can create a variety of medicinal substances that have high value in medicine, such as caffeic acid (884.75 ng/mL), 3-phenyllactic acid (240.72 ng/mL) and norlichexanthone (74.36ng/mL). In summary, many valuable active substances and medicinal substances can be obtained through the study of endophytic fungi of F. dibotrys.

Electrochemical sensing of nitrite in drinking water using multi-walled carbon nanotubes modified platinum electrode

Aim: The scope of the present study was to elaborate a nitrite electrochemical sensor using multi-walled carbon nanotubes (MWCNTs) modified Pt electrode. Methods: The electrocatalytic activity of the proposed sensor was studied by cyclic voltammetry (CV), chronoamperometry (ChAm), and electrochemical impedance spectroscopy (EIS). Then electrochemical detection of nitrite was performed using square wave voltammetry (SWV). Results: The MWCNTs/Pt electrode exhibits good electrocatalytic activity for the oxidation of nitrite in neutral pH. Subsequently, the fabricated electrochemical sensor shows a high sensitivity for the NO2– determination and a low limit of detection (LOD) (0.1 µM) in a wide linear concentration range (1.0–1,000 µM). Conclusions: This electrochemical sensor has cost-effective, anti-interference capability as well as good stability, reproducibility, and applicability.

Potential antiviral activity of rhamnocitrin against influenza virus H3N2 by inhibiting cGAS/STING pathway in vitro.

Influenza remains a serious issue for public health and it's urgent to discover more effected drugs against influenza virus. Rhamnocitrin, as a flavonoid, its effect on influenza virus infection remains poorly explored. In this study, rhamnocitrin showed antiviral effect and anti-apoptosis on influenza virus A/Aichi/2/1968 (H3N2) in MDCK cells and A549 cells. In addition, molecular docking revealed that rhamnocitrin have good binding activity with the target proteins cGAS and STING, molecular dynamic simulation and surface plasmon resonance showed that rhamnocitrin could form a stable complex with the above proteins. Moreover, the qPCR and western blot assays further verified that rhamnocitrin could reduce type I IFN and proinflammatory cytokines production by inhibiting the cGAS/STING pathway. Taken together, the results suggest that rhamnocitrin could be a potential anti-viral agent against influenza.

Dynamic Self-Healing of the Reconstructed Phase in Perovskite Oxides for Efficient and Stable Electrocatalytic OER.

Neither electrocatalytic activity nor structural stability is inconsequential in water electrolysis. Unfortunately, they have to be compromised in practice, especially in the anodic redox chemistry of lattice oxygen. Herein, the discovery of a La1- xCexFeO3 perovskite is presented which shows both good stability and high catalytic activity. Using advanced operando characterizations, it is identified that the self-healing evolution of the La1- xCexFeO3 perovskite plays a key role during water oxidation in the lattice oxygen-mediated mechanism (LOM) pathway. Unlike irreversible reconstruction, the formation of reconstructed active-phase α-FeOOH is reversed by re-crystallization of surface La1- xCexFeO3 upon return to noncatalytic conditions. The self-healing transformation of the α-FeOOH termination layer on the stable La1- xCexFeO3 core imparts remarkable long-term stability as well as excellent electrocatalytic performance. As a result, a composition La0.9Ce0.1FeO3@FeOOH is designed that exhibits ultralow overpotentials of 257 and 312mV to achieve 10 and 100mAcm-2, respectively. The findings provide insight into self-healing behavior toward engineering perovskite oxides for efficient and stable oxygen electrocatalysis.

Chiral Metal Self‐Assemblies of Zirconium‐Tetrahedra and Their Second Harmonic Generation Activity

AbstractThe chirality of metal‐organic cages holds enormous potential for novel applications in diverse fields, while it is relatively rare to employ such asymmetric units for the construction of noncentrosymmetric materials. Herein, by self‐assembling the 4,4′,4′′‐nitrilotribenzoic acid (H3NBA) with bis(cyclopentadienyl)‐zirconium dichloride (Cp2ZrCl2, Cp=η5‐C5H5) in different solvent conditions, we have obtained three hierarchical packing modes of metallo‐tetrahedra with distinct spatial symmetry groups (designated as Zr‐α, Zr‐β, and Zr‐γ). Among them, Zr‐α employs a simple cubic arrangement and is a common centrosymmetric superstructure, which consists of a pair of equimolar metallo‐tetrahedra enantiomers in its unit cell. While Zr‐β results in conglomerates with spontaneous resolution without using any resolving agents, giving rise to two enantiopure entities separately (Zr‐β‐P, Zr‐β‐M). More importantly, Zr‐γ breaks the inversion center of symmetry and crystallizes into a racemic yet non‐centrosymmetric superstructure with face‐centered cubic packing mode. Based on the non‐centrosymmetric nature, the hierarchical superstructure Zr‐γ displayed good second harmonic generation activities. This work presents a successful instance wherein the reaction solvent induces the modulation of intermolecular packing mode to afford non‐centrosymmetric solid materials, which can greatly promote the development of noncentrosymmetric solid (NCS) materials.

Chiral Metal Self-Assemblies of Zirconium-Tetrahedra and Their Second Harmonic Generation Activity.

The chirality of metal-organic cages holds enormous potential for novel applications in diverse fields, while it is relatively rare to employ such asymmetric units for the construction of noncentrosymmetric materials. Herein, by self-assembling the 4,4',4''-nitrilotribenzoic acid (H3NBA) with bis(cyclopentadienyl)-zirconium dichloride (Cp2ZrCl2, Cp=η5-C5H5) in different solvent conditions, we have obtained three hierarchical packing modes of metallo-tetrahedra with distinct spatial symmetry groups (designated as Zr-α, Zr-β, and Zr-γ). Among them, Zr-α employs a simple cubic arrangement and is a common centrosymmetric superstructure, which consists of a pair of equimolar metallo-tetrahedra enantiomers in its unit cell. While Zr-β results in conglomerates with spontaneous resolution without using any resolving agents, giving rise to two enantiopure entities separately (Zr-β-P, Zr-β-M). More importantly, Zr-γ breaks the inversion center of symmetry and crystallizes into a racemic yet non-centrosymmetric superstructure with face-centered cubic packing mode. Based on the non-centrosymmetric nature, the hierarchical superstructure Zr-γ displayed good second harmonic generation activities. This work presents a successful instance wherein the reaction solvent induces the modulation of intermolecular packing mode to afford non-centrosymmetric solid materials, which can greatly promote the development of noncentrosymmetric solid (NCS) materials.

The Development of Performing Folk Songs Model to Develop Holistic Health in Elderly

This research aims to study the problems and factors in organizing activities to promote holistic health in the elderly, Elderly Social Welfare Development Center, and to develop activities in the art of performing folk songs to promote holistic health in the elderly, Elderly Social Welfare Development Center. It is a study that aims to extract knowledge about the process of organizing activities for the elderly in order to develop a form of folk song performing arts activities to develop holistic health in the elderly as a research and development model Divided into 3 phases: Phase 1 synthesizes knowledge on organizing activities for the elderly, Phase 2 develops and evaluates traditional performing arts activities to develop holistic health in the elderly, and Phase 3 uses Folk performing arts activity format for holistic health development in the elderly. The research tool used was a structured interview form and satisfaction assessment form for organizing activities. All analysis results are presented as descriptive data and tables with explanations. The findings revealed Problems and factors in organizing activities to promote holistic health in the elderly at the Elderly Social Welfare Development Center. The researcher can summarize into two issues: 1) The current condition of organizing activities to promote the health of the elderly at the 12 Elderly Social Welfare Development Centers has three formats: ordinary elderly, particular types, and centers without elderly residents. In terms of operations for caring for and promoting the elderly, there will be an operation plan for the center that promotes the health of the elderly. There are four areas: physical, mental, and social interaction and intelligence. 2) Factors in organizing activities to promote holistic health in the elderly. The Center for the Development of Social Welfare for the Elderly found that opinions and needs for bringing in local wisdom heritage, in terms of performing arts, all four regions came to organize activities to promote the health of the elderly at all 12 Elderly Social Welfare Development Centers. There were two issues: 1) Perspectives and opinions. It was found that bringing both local performing arts and four regionally organized activities to promote the health of the elderly within the center. It is a good and exciting activity. Most elderly people enjoy fun activities, including singing and dancing. It is also a matter of Folk performing arts that can understand the emotions and feelings of the elderly very well. It also helps promote and stimulate the memory of the elderly. 2) The need to bring local wisdom and heritage. In terms of performing arts, all four regions came to organize activities to promote the health of the elderly at all 12 Elderly Social Welfare Development Centers. It was found that there was a need to organize activities to promote the health of the elderly using all Folk performing arts. The aim is to organize activities that can develop the physical, mental, social, and intellectual aspects. The results of the development of activities in the art of performing folk songs to promote holistic health in the elderly have two crucial points: 1) The uniqueness of the art of folk song performance that has an impact on society is that it reflects the culture of the community, build relationships among people in the community, have fun public relations media and self-development 2) The results of creating and developing an art activity format for performing folk songs to promote holistic health in the elderly. The researcher created and developed a folk song performance art activity model consisting of 6 elements: principles of the form, Objectives of the format, content, activities, promoting factors, and evaluation

Dodecylamine‐Assisted Hydrothermal Synthesis of Carbon‐Supported Ultrafine IrRu Nanoparticles for Oxygen Evolution Electrocatalysis and Overall Water Splitting

AbstractRuthenium (Ru)‐ and iridium (Ir)‐based nanomaterials have always been regarded as efficient electrocatalysts for oxygen evolution reaction (OER) in acidic electrolytes. Herein, we develop a facile dodecylamine‐assisted hydrothermal synthesis for producing carbon‐supported IrRu alloy nanoparticles with controllable Ir/Ru ratios and ultrafine sizes towards high‐efficiency OER and overall water electrolysis. In this strategy, the dodecylamine that serves as a capping and reducing agent enables the final IrRu alloy nanoparticles to possess average sizes <3 nm and high degree of dispersion on carbon substrate. By combining high OER activity of Ru with high acidic robustness of Ir, the as‐prepared IrRu/C nanoparticles at a suitable Ir/Ru ratio of 1/3 show good activity and durability for the OER electrocatalysis and overall water splitting. In specific, the Ir1Ru3/C catalyst exhibits the lowest overpotential of 302 mV at the current density of 10 mA cm−2 and the highest mass activity of 120.5 mA mg−1 at 1.532 V for OER in 0.5 M H2SO4 electrolyte. In addition, a two‐electrode acidic electrolyzer assembled with Ir1Ru3/C at anode and commercial Pt/C at cathode (Pt/C|| Ir1Ru3/C) exhibits a low cell voltage of 1.44 V for achieving the current density of 10 mA cm−2, along with a satisfied 20h durability.

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In this picture, the Chinese classical mythic figure Red Boy, holding a red tasseled gun (adriamycin), is attacking a lots of monster (live balls, multidrug resistance cancer cells) with the help of the Samadhi fire (polycyclic polyprenylated acylphloroglucinols, PPAPs). This indicates that PPAPs along with adriamycin show good cytotoxic activity on multidrug resistance cancer cells. More details are discussed in the article by Yuan et al. on pages 3293—3307. image

Light-Driven Organocatalyzed Controlled Radical Copolymerization of (Perfluoroalkyl)ethylenes and Vinyl Esters/Amides.

Fluoropolymers of well-defined structures exhibit significant potential in a broad range of high-tech applications. However, the controlled synthesis of fluoropolymers from easily available monomers remains difficult. In this work, we report the development of an organocatalyzed controlled radical copolymerization of (perfluoroalkyl)ethylenes (PFAEs) and unconjugated vinyl monomers (UCMs) under light irradiation, which has enabled on-demand access toward side-chain fluorinated polymers under metal-free conditions. This method furnishes a large variety of polymers with diverse fluoroalkyl and ester/amide as pendent groups, tunable molar masses, and low dispersities (ca. Đ = 1.1-1.3), and adjustable fractions of PFAE and UCM units. Obtained fluoropolymers exhibit good chain-end fidelity and activity, allowing chain-extension polymerizations to prepare block copolymers of complicated compositions. Furthermore, the PFAE copolymers exhibit outstanding light transmission and low refractive index.

Sustainable synthesize of beetroot extract-silver-iron oxide (BE-Ag-Fe2O3) bimetallic nanoparticles for antioxidant studies

In this work, beetroot extract is used to synthesize the silver-iron oxide (Ag-Fe2O3) bimetallic nanoparticles, which are then characterized and used for the antioxidant studies. Phenolic components were found to coat the nanoparticles, according to FT-IR analysis. Tannins and flavonoids in the extract serve as stabilizing and reducing agents. SEM revealed spherical bimetallic nanoparticles that were roughly 40 nm in size. Crystallinity and purity were shown by XRD examination, which also revealed unique reflection peaks. Particle size and zeta potential values clearly confirm that, the prepared bimetallic nanoparticles are in nano size and it is stable in nature. Furthermore, in this study, the antioxidant properties of produced bimetallic nanoparticles are examined, and their efficacy is compared to that of beetroot extract. Beetroot extract-silver-iron oxide (BE-Ag-Fe2O3) bimetallic nanoparticles showed improved radical scavenging effectiveness when compared to DPPH. Moreover, bimetallic nanoparticles demonstrated increased radical scavenging efficacy in relation to DPPH and H2O2. Surprisingly, at 20 mg/ml, the BE-Ag-Fe2O3) bimetallic nanoparticles showed good scavenging activity, reaching 84.65%. The produced bimetallic NPs had greater antioxidant activity than the plant extract, according to an analysis of the total antioxidant capacity and free radical scavenging activity data. Electron donation property of main constituent of beetroot extract was analysed by density functional theory (DFT) and Monte Carlo (MC) simulation. Consequently, this work implies that beetroot extract assisted bimetallic NPs could be a flexible material with a range of uses in the biomedical area.Graphical

Antibacterial Activity, GC MS Analysis and In Silico Validation of Bioactive Compound from Endophytic Fungus Lasiodiplodia pseudotheobromae EF-9.

Secondary metabolites synthesized by endophytic fungi have garnered significant interest for their broad applications in treating various ailments. In this study involving 20 plant samples, 11 endophytic fungi were isolated and cultured, and Lasiodiplodia pseudotheobromae EF-9, derived from Hibiscus rosa-sinensis, demonstrated greater antibacterial efficacy than the other isolated endophytes. Phylogenetic analyses using 18S rRNA gene confirmed the EF-9 identity as L. pseudotheobromae. Following mass production, the active compound was partially purified using column chromatography. The fraction collected at the 60th min exhibited good antibacterial activity against Bacillus coagulans (MTCC 6735) and Shigella flexneri (ATCC 12022), with an inhibition zone of approximately 20 mm in diameter. UV spectral studies revealed a wide absorption band at 430 nm. High Performance Liquid Chromatography (HPLC) of the active fraction showed a distinct peak with a retention time of 4.216 min at 430 nm absorbance. Gas Chromatography-Mass Spectrometry (GC-MS) identified the active compound in the L. pseudotheobromae EF-9 culture broth extract as Bis(2-ethylhexyl) phthalate, which displayed a peak at 16.856 min and covered 66.69% of the area in the spectral analysis.

Discovery of Chalcone Derivatives as Bifunctional Molecules with Anti-SARS-CoV-2 and Anti-inflammatory Activities.

Danshensu extracted with traditional Chinese medicine Salvia miltiorrhiza has a wide range of bioactivities. Danshensu containing a catechol moiety has a moderate inhibitory effect on SARS-CoV-2 3CLpro (IC50 = 2.2 μM) by a reversible covalent interaction and exhibits good anti-inflammatory activity. To enhance the inhibitory activity, we introduced Michael receptors into the side chain of danshensu as a possible covalent warhead and blocked the covalent binding sites of catechol moiety to yield chalcone derivatives. The resulting chalcone derivatives, A4 and A7, were found to inhibit SARS-CoV-2 3CLpro in vitro with IC50 values of 83.2 and 261.3 nM, respectively. Furthermore, A4 and A7 inhibit viral replication in the SARS-CoV-2 replicon system with EC50 values of 19.9 and 11.7 μM, respectively. Time-dependent inhibition experiment and mass spectrometry show that A4 acted as a noncovalent mixed inhibitor, while A7 likely binds covalently at Cys145. The interaction mechanism between SARS-CoV-2 3CLpro and A4 or A7 was characterized by molecular docking studies. Additionally, both A4 and A7 demonstrated potent anti-inflammatory activity in lipopolysaccharide (LPS)-stimulated RAW264.7 macrophage cells. These promising results suggest that chalcone derivatives A4 and A7 can serve as bifunctional molecules with both antivirus and anti-inflammatory properties.

Riddelline from Tamarix articulate as a potential anti-bacterial lead compound for novel antibiotics discovery: A comprehensive computational and toxicological studies.

Tamarix articulate from the Tamaricaece family is a halophytic plant. This plant is commonly called Athal or Tamarix in different Arabic and Asian countries. Due to the high load of polyphenolic phytochemicals, the plant has been used as a therapeutic option against several diseases for decades. The plant is an anti-inflammatory, anti-bacterial, anti-viral, anti-cancer, anti-oxidant, and anti-inflammatory. In this work, the 222 phytochemical compounds of T. articulate from our previous study are used in different bioinformatic and biophysics techniques to explore their biological potency against different anti-bacterial, anti-cancer and anti-viral targets. By doing so, it was found that Riddelline ranked as the best binding molecule of biological macromolecules selected herein in particular the bacterial targets. The binding energy value of the compound for the KdsA enzyme was -14.64 kcal/mol, KdsB (-13.09 kcal/mol), MurC (-13.67 kcal/mol), MurD (-13.54 kcal/mol), MurF (-14.20 kcal/mol), Polo-like kinase 1 (Plk1) (-12.34 kcal/mol), Bcl-2 protein (-13.39 kcal/mol), SARS-CoV-2 main protease enzyme (-12.67 kcal/mol), and Human T cell leukemia virus protease (-13.67 kcal/mol). The mean Rg value of KdsA-Riddelline complex and KdsA-FPE complex is 32.67 Å, and average RMSD of KdsA-Riddelline complex and KdsA-FPE complex is 2.31 Å, respectively. The binding energy complexes was found to be dominated by van der Waals (-71.98 kcal/mol for KdsA-Riddelline complex and -65.09 kcal/mol for KdsA-FPE complex). The lead compound was also unveiled to show favorable druglike properties and pharmacokinetics. Together, the data suggest the good anti-bacterial activities of the T. articulate phytochemicals and thus can be subjected to experimental in vitro and in vivo investigations.

Synthesis, crystal structure, Hirshfeld surface analyses and antibacterial activity of 2-fluorobenzylpyridinium tetrabromidocuprate(II)

In this article, novel organic-inorganic hybrid material, 2-fluorobenzylpyridinium tetrabromidocuprate(II) [2FBzPy]2[CuBr4], has been obtained by using a slow evaporation solution-growth method and was characterized by powder X-ray diffraction, infrared spectroscopy, scanning electron microscopy, UV–visible diffuse reflectance spectrum. The compound crystallizes in the monoclinic space group P21 /c, and the packing is governed by C − H···Br hydrogen bonding interactions, which was confirmed by the Hirshfeld surface analysis. The results of antimicrobial experiments showed that the compound possessed excellent antimicrobial activity against Staphylococcus aureus and Escherichia coli. RESEARCH HIGHLIGHTS An inorganic-organic hybrid salt [2FBzPy]2[CuBr4] was synthesized and characterized. The main intermolecular interaction in [2FBzPy]2[CuBr4] crystals have been studied and analyzed. The interactions between different molecules in[2FBzPy]2 [CuBr4] were examined by Hirshfeld surface analyses. [2FBzPy]2[CuBr4] had an optical band gap of 1.69 eV, was a typical semiconductor material with good optical property. The as-synthesized salts exhibits good antibacterial activities against S. aureus and E. coli.

Extended-spectrum β - lactamase inhibitory potential of Dichrocephala integrifolia: an in vitro and computational studies

Extended-spectrum β-lactamases (ESBL) producing enterobacteriales are a major global health concern since they often result in the ineffectiveness of empirical antibiotic therapy with β-lactams. This study aims to identify potential medicinal plants that can inhibit β-lactamase and subsequently enhance the activity of the β-lactams against resistant bacterial strains. A synergistic study of Dichrocephala integrifolia extract exhibited good synergistic activity against a CTX-M-producing organism, which was confirmed using an agar-based diffusion bioassay method. Further validation was done by Molecular docking in which, the phytocompound Propanamide, N-[4-(4-chlorophenyl)-2-thiazolyl]-3-(1-pyrrolidinyl)-/NSC339591, obtained from the GC-MS study showed a good binding affinity with favourable hydrogen bond interactions with the active sites of CTX-M-14. This phytocompound was further selected for a Molecular Dynamic Simulation (MD) study with CTX-M-14, where the complex exhibited good stability and maintained a consistent conformation throughout the simulation. NSC339591 cleared the drug-likeness filters.

Carboxyl-Group-Bearing Metal Corroles of Cobalt, Manganese and Copper for Electrocatalytic Hydrogen Evolution.

5,15-bis(perfluorophenyl)-10-(4-carboxyphenyl) corrole and its Co(III), Mn(III), and Cu(III) corrole complexes were synthesized. The electrocatalytic hydrogen evolution reaction (HER) of these metal corrole complexes was investigated using different proton sources (AcOH, trifluoroacetic acid, and TsOH) in an organic dimethylformamide solvent. The electrocatalytic HER may proceed through EECC, EECEC, or EEECEC pathways (where E represents electron transfer and C represents proton binding) depending on the acidity and concentration of the proton source used. The Co corrole complex exhibits remarkable hydrogen production performance, achieving a turnover frequency of 201 s-1 and a catalytic efficiency of 1.00. The examined metal corrole complexes also exhibit good HER activity in aqueous solution, with their catalytic activity following an order of 1-Co>1-Cu>1-Mn in both organic and aqueous phases.

Nutritional status and daily habits as determinants of hospitalization duration in ovarian cancer patients undergoing chemotherapy

Adequate nutrition in a hospital setting is essential for achieving optimal health outcomes in oncology patients. This study specifically investigated the interrelationships between nutritional status, daily habits, and hospital length of stay (LOS) in ovarian cancer patients undergoing chemotherapy. A prospective longitudinal study was conducted from August 2019 to January 2022 in a tertiary hospital. Throughout the study, nutritional status, biochemical indicators, diet, and physical activity were meticulously recorded at different stages of chemotherapy: before chemotherapy (T0), the first course (T1), third course (T2), and fifth course (T3). To determine the factors influencing LOS, a generalized estimation equation (GEE) was employed. A total of 460 patients completed the follow-up period. The findings revealed a decline in nutritional risk among patients by 9.90% at T1, 17.62% at T2 and 18.26% at T3 (χ2 = 79.220, P < 0.001). The proportion of people receiving enteral nutrition showed an upward trend (χ2 = 15.202, P < 0.001). Notably, the proportion of patients adhering to a healthier diet increased by 40.44% by the study’s conclusion, while the number of patients abstaining from physical activity or engaging in solely low-intensity activities decreased by 21.08%. Moreover, as the chemotherapy cycle progressed, daily activity steps exhibited an upward trajectory (F = 5.986, P < 0.001), while the LOS experienced a significant reduction (F = 21.298, P < 0.001). This study identified hypoproteinemia (protein level < 34 g/L), a high nutritional risk (NRS 2002 score ≥ 3), a short duration of sleep (≤ 7 h/day), and a lower daily activity level as risk factors for LOS. Receiving enteral nutrition support is a protective factor for LOS. Significant improvements in nutritional status, diet, and physical activity have been observed among ovarian cancer patients during their chemotherapy cycles. Reduced nutritional risks, implementation of nutritional support, good physical activity, and adequate sleep were associated with a shorter LOS.

Uncovering the Potential ofO-Prenylated 3-aryl-benzopyran Derivatives as Osteogenic and Cancer Cell Growth Inhibitory Agents.

Naturally, O-prenylation of 3-aryl-benzopyrans enhances the biological activities of these compounds. In this study, substituted O-prenylated 3-aryl-benzopyrans (21a-c, 22a-c, 23a-c, 24a-c 25a-c, 27 and 28) were synthesized and evaluated for osteogenic and cancer cell growth inhibitory potentials using cell-based in-vitro models. Amongst the target compounds, 21a, 22b, 23c, and 24c showed good osteogenic activity at 1 pM concentration, whereas 26 and 27 showed osteogenic activity at 100pM and 10nM, respectively. Compounds 21a, 22b, and 23c showed good cancer cell growth inhibitory activity against breast cancer cells (MCF-7 and MBA-231). Amongst active compounds, 27 presented the best anticancer activity against MDAMB-231 cells with selectivity towards non-cancerous cells [IC50 3.76 µM with SI 13.3]. The in-silico study of compounds showed their structural complementarities with the LBD of estrogen receptors and compliance with dragability parameters.