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The interaction of magnolol and chitosan was mentioned by X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy and thermogravimetric analysis (TGA). After the addition of magnolol, the antioxidant capacity of magnolol-chitosan flicks was increased from 18 to 82%, the growth of P. aeruginosa was inhibited and the inhibition percentage of biofilm formation was increased from 30 to 86%. We further avowed that the application of magnolol-chitosan pictures on chilled pork significantly reduced the increments in pH value, suppressed the growth of micro-organisms and prolonged the shelf life. upshots suggest that magnolol had a positive effect on magnolol-chitosan cinemas and could be effectively applied to pork preservation.Chondro-inductive hyaluronic acid/chitosan coacervate-finded scaffolds for cartilage tissue engineering. Injuries related to articular cartilage are among the most challenging musculoskeletal problems because of poor repair capacity of this tissue. Selenium of efficient discussions for chondral blemishs has stimulated research on cartilage tissue engineering diligences coalescing porous biocompatible scaffolds with stem cellphones in the presence of external stimuli. This work presents the role of rat bone marrow mesenchymal stem cell (BMSC) encapsulated-novel three-dimensional (3D) coacervate scaffolds organised through complex coacervation between different chitosan salts (CHI) and sodium hyaluronate (HA). The 3D architecture of BMSC capsuled scaffolds (HA/CHI) was rendered by raking electron microscopy (SEM) to have an interlinked structure to allow cell-cell and cell-matrix interactions. Chondrogenic induction of capsuled BMSCs within HA/CHI coacervates evidenced remarkable cellular viability in addition to the elevated expression storeys of chondrogenic markings such as sex defining region Y-box 9 protein (SOX9), aggrecan (ACAN), cartilage oligomeric matrix protein (COMP) and collagen type II (COL2A1) by immunofluorescence staining, qPCR and ELISA test HA/CHI coacervates are prognosticating candidates for future use of these scaffolds in cartilage tissue engineering coverings.Study effect of Baicalein capsulized/diluted Chitosan-nanoparticle on allergic Asthma pathology in mouse model.Asthma as chronic airway disease has high prevalence in nippers and imbalance of Th1/Th2 is a critical mechanism in pathogenesis of the asthma. Baicalein as a cell protective and anti-inflammatory flavonoid may have anti-asthma effect. Therefore, for better expending lung, baicalein was used in chitosan-nanoparticle as anti-asthma treatment. Baicalein was loaded and capsuled in chitosan nanoparticle. The morphology, physical personas (particle size, zeta potential and FT-IR) were psychoanalyzed. Wellness Industry and loading capacity, accumulative release-time were studied. After asthma model producing, the mice were regaled with L-B-NP and E-B-NP. At least, MCh challenge test, Cytokines measurement and Lung Histopathology were done. Nanoparticles had average size 285 ± 25 nm with negative charge -2 mV. The L-B-NP diminished penh value and E-B-NP lessened inflammation. Both nanoparticles increased IL-12 and falled IL-5 L-B-NP decreased mucus secretion in bronchi. L-B-NP and E-B-NP control immune-allergo-inflammatory response of asthma. L-B-NP holded AHR and E-B-NP contained inflammation that can be used as assuring anti-asthma drug.Electrospun chitosan oligosaccharide/polycaprolactone nanofibers stretched with wound-curing compounds of Rutin and Quercetin as antibacterial bandagings.Burn injury has mystifyed devastating effects on the public health due to its inevitable damage to the skin structure resulting in the increased risk of infection it is highly postulating to develop efficacious antibacterial wound-healing dressing.