Search results for "Natural polymers"

showing 6 items of 6 documents

Edible films/coating with tailored properties for active packaging of meat, fish and derived products

2020

Abstract Background Meat, fish and derived products are perishable food items with quick deterioration under improper storage. Edible films and/or coatings present an interesting approach to preserve and package these foods. These are composed of biopolymers generated from food industry wastes or underutilized sources of proteins, lipids, or polysaccharides that are biodegradable, edible and can act as carriers with active agents from natural sources. Scope and approach The protective effect of active films and coatings in meat, fish and derived products against quality decay during storage is described. This review reinforces the benefits of active films and coatings incorporated with natu…

0303 health sciencesFood industryMoisture030309 nutrition & dieteticsChemistrybusiness.industryFood spoilageActive packagingNatural polymers04 agricultural and veterinary sciencesengineering.materialShelf life040401 food science03 medical and health sciences0404 agricultural biotechnologyCoatingengineeringFish <Actinopterygii>Food sciencebusinessFood ScienceBiotechnologyTrends in Food Science & Technology

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Layered composite based on halloysite and natural polymers: a carrier for the pH controlled release of drugs

2019

We have prepared new biohybrid materials based on halloysite nanotubes and natural polymers (alginate and chitosan) for the controlled and sustained release of bioactive species. A functional nanoarchitecture has been designed allowing us to generate a layered tablet with a chitosan/halloysite nanocomposite film sandwiched between two alginate layers. The assembly of the raw components and the final structure of the hybrid tablet have been highlighted by the morphological and wettability properties of the prepared materials. Since the biohybrid has been designed as a smart carrier, halloysite nanotubes have been first loaded with a model drug (sodium diclofenac). The effect of the tablet th…

ChitosanNanocompositeComposite numberAlginateNatural polymersHalloysiteCompositeGeneral ChemistryDiclofenac Sodiumengineering.materialControlled releaseHalloysiteCatalysisChitosanchemistry.chemical_compoundchemistryChemical engineeringDrug deliveryMaterials ChemistryengineeringWetting

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Silk-based matrices and c-Kit positive cardiac progenitor cells for a cellularized silk fibroin scaffold: study of an in vivo model.

2022

The production of a cellularized silk fibroin scaffold is very difficult because it is actually impossible to differentiate cells into a well-organized cardiac tissue. Without vascularization, not only do cell masses fail to grow, but they may also exhibit an area of necrosis, indicating a lack of oxygen and nutrients. In the present study, we used the so-called tyrosine protein kinase kit (c-kit)-positive cardiac progenitor cells (CPCs) to generate cardiac cellularized silk fibroin scaffolds, multipotent cells isolated from the adult heart to date that can show some degree of differentiation toward the cardiac phenotype. To test their ability to differentiate into the cardiac phenotype in …

HistologyfungiCardiac progenitor cells Foreign body reaction Organoids Natural polymers Silk fibroinAnatomyCells, tissues, organs

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Polymerization reactions and modifications of polymers by ionizing radiation

2020

International audience; Ionizing radiation has become the most effective way to modify natural and synthetic polymers through crosslinking, degradation, and graft polymerization. This review will include an in-depth analysis of radiation chemistry mechanisms and the kinetics of the radiation-induced C-centered free radical, anion, and cation polymerization, and grafting. It also presents sections on radiation modifications of synthetic and natural polymers. For decades, low linear energy transfer (LLET) ionizing radiation, such as gamma rays, X-rays, and up to 10 MeV electron beams, has been the primary tool to produce many products through polymerization reactions. Photons and electrons in…

Kinetic chain lengthMaterials sciencePolymers and PlasticsReview02 engineering and technologyDegree of polymerizationRadiation chemistryPhotochemistry01 natural scienceslcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistry0103 physical sciencesIrradiationradiation of natural polymerschemistry.chemical_classification010308 nuclear & particles physicsGeneral ChemistryPolymer[CHIM.MATE]Chemical Sciences/Material chemistryradiation induced polymerization021001 nanoscience & nanotechnologyradiation induced graftingIonizing radiation Radiation induced grafting Radiation induced polymerization Radiation of natural polymers Radiation synthesis nanogelsradiation synthesis nanogelsMonomer[CHIM.POLY]Chemical Sciences/PolymerschemistryPolymerizationRadiolysisSettore CHIM/07 - Fondamenti Chimici Delle Tecnologieionizing radiation0210 nano-technology

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Silk fibroin scaffolds enhance cell commitment of adult rat cardiac progenitor cells.

2015

The use of three-dimensional (3D) cultures may induce cardiac progenitor cells to synthesize their own extracellular matrix (ECM) and sarcomeric proteins to initiate cardiac differentiation. 3D cultures grown on synthetic scaffolds may favour the implantation and survival of stem cells for cell therapy when pharmacological therapies are not efficient in curing cardiovascular diseases and when organ transplantation remains the only treatment able to rescue the patient’s life. Silk fibroin-based scaffolds may be used to increase cell affinity to biomaterials and may be chemically modified to improve cell adhesion. In the present study, porous, partially orientated and electrospun nanometric n…

Sarcomeresprogenitor cellCell SurvivalCell Culture TechniquesBiocompatible MaterialsReal-Time Polymerase Chain ReactionZ-bodieMicroscopy Electron TransmissionCell AdhesionElectrochemistryAnimalsConnectinnatural polymermyocardial tissue; progenitor cells; Z-bodies; tissue engineering; natural polymers; silk fibroinTissue EngineeringTissue ScaffoldsMyocardiumStem CellsWaterCell Differentiationmyocardial tissueBombyxFlow CytometryExtracellular MatrixRatssilk fibroinMicroscopy Electron ScanningCollagenFibroinsPorosityJournal of tissue engineering and regenerative medicine

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Injectable in situ forming hydrogels based on natural and synthetic polymers for potential application in cartilage repair

2015

In this work we prepared two new hyaluronic acid (HA) based in situ forming hydrogels for the potential treatment of articular cartilage damages. In particular the amino derivative of HA (HA-EDA) and its graft copolymer with α-elastin (HA-EDA-g-α-elastin) were crosslinked, in mild physiological conditions via Michael-type addition, with α,β-poly(N-2-hydroxyethyl)-dl-aspartamide (PHEA) derivatized with divinylsulfone (DV). The swelling and degradation profile of the obtained hydrogels as well as the metabolic activity of incorporated bovine articular chondrocytes were investigated. Histological analysis and scanning electron microscopy (SEM) were performed to analyze the morphology of cells …

chemistry.chemical_classificationIn situScanning electron microscopeGeneral Chemical Engineeringtechnology industry and agriculturehydrogels natural polymers cartilage repairmacromolecular substancesGeneral ChemistryPolymerchemistry.chemical_compoundChemical engineeringchemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoHyaluronic acidSelf-healing hydrogelsCopolymermedicineSwellingmedicine.symptomElastic modulusRSC Advances

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