Search results for "lactone"

showing 10 items of 335 documents

Phenoxyamidine Zn and Al Complexes: Synthesis, Characterization, and Use in the Ring-Opening Polymerization of Lactide

2019

International audience; Herein we report the synthesis of new ditopic ligands, which consist of a phenoxy group and N,N,N'trisubstituted amidines linked by a methylene spacer (L1-L4). Their coordination chemistry has been studied/investigated with Zn(II) and Al(III). Alkane elimination route between the phenol-amidine proligands (L1H-L4H) and Et2Zn led to dinuclear complexes [(L1-L4)ZnEt]2 (1a-4a) in which the Zn centers are chelated by phenoxyamidine ligands and bridged through the oxygen atom of the phenoxy groups. Salt metathesis reaction between two equivalents of the sodium amidine phenate L1Na and ZnCl2 led to a bis-chelate chiral spiro-complex (L12Zn) 1a'. Analogous alkane eliminatio…

STRUCTURAL-CHARACTERIZATIONchemistry.chemical_elementCATALYSTSZinc010402 general chemistryLIGANDS SYNTHESIS01 natural sciencesRing-opening polymerizationCoordination complexCatalysisInorganic Chemistrychemistry.chemical_compoundZINCIMINE LIGANDSGroup (periodic table)Polymer chemistry[CHIM.COOR]Chemical Sciences/Coordination chemistryPhysical and Theoretical ChemistryMethyleneCYCLIC ESTERSALUMINUM COMPLEXESchemistry.chemical_classificationEPSILON-CAPROLACTONELactide010405 organic chemistryOrganic ChemistryGROUP-4 METAL-COMPLEXES[CHIM.CATA]Chemical Sciences/CatalysisImine ligands0104 chemical scienceschemistryINITIATORSGROUP-4 METAL-COMPLEXES; ALUMINUM COMPLEXES; EPSILON-CAPROLACTONE; LIGANDS SYNTHESIS; IMINE LIGANDS; STRUCTURAL-CHARACTERIZATION; CYCLIC ESTERS; ZINC; CATALYSTS; INITIATORS
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Cell cycle studies on the mode of action of yeast K28 killer toxin.

1996

The virally encoded K28 killer toxin of Saccharomyces cerevisiae kills sensitive cells by a receptor-mediated process. DNA synthesis is rapidly inhibited, cell viability is lost more slowly and cells eventually arrest, apparently in the S phase of the cell cycle with a medium-sized bud, a single nucleus in the mother cell and a pre-replicated (1n) DNA content. Cytoplasmic microtubules appear normal, and no spindle is detectable. Arrest of a sensitive haploid yeast strain by alpha-factor at START gave complete protection for at least 4 h against a toxin concentration that killed non-arrested cells at the rate of one log each 2.5 h. Cells released from alpha-factor arrest were killed by toxin…

Saccharomyces cerevisiae ProteinsCellSaccharomyces cerevisiaeSaccharomyces cerevisiaeBiologyMicrobiologyMicrotubulesS Phase4-ButyrolactonemedicineViability assayS phaseGeneticsDNA synthesisCell DeathCell CycleDNACell cycleMycotoxinsbiology.organism_classificationFlow CytometryKiller Factors YeastCell biologySpindle poisonmedicine.anatomical_structureCytoplasmFluorescent Antibody Technique Directmedicine.drugMicrobiology (Reading, England)
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Electrospun PHEA-PLA/PCL Scaffold for Vascular Regeneration: A Preliminary in Vivo Evaluation

2017

Abstract Background There is increasing interest in the development of vessel substitutes, and many studies are currently focusing on the development of biodegradable scaffolds capable of fostering vascular regeneration. We tested a new biocompatible and biodegradable material with mechanical properties similar to those of blood vessels. Methods The material used comprises a mixture of α,β-poly(N-2-hydroxyethyl)- d,l -aspartamide (PHEA) and polylactic acid (PLA), combined with polycaprolactone (PCL) by means of electrospinning technique. Low-molecular-weight heparin was also linked to the copolymer. A tubular PHEA-PLA/PCL sample was used to create an arteriovenous fistula in a pig model wit…

ScaffoldMaterials scienceBiocompatibilityPolymersSwinePolyesters0206 medical engineering02 engineering and technologySettore MED/22 - Chirurgia VascolareNeovascularizationchemistry.chemical_compoundPolylactic acidBlood vessel prosthesismedicineAnimalsTransplantationRegeneration (biology)Bioabsorbable scaffold Bioengineered vascular scaffold Experimental surgery021001 nanoscience & nanotechnology020601 biomedical engineeringBlood Vessel ProsthesisSettore MED/18 - Chirurgia GeneraleCoagulative necrosischemistrySettore CHIM/09 - Farmaceutico Tecnologico ApplicativoPolycaprolactoneSurgerymedicine.symptomPeptides0210 nano-technologyBiomedical engineeringTransplantation Proceedings
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Covalent RGD modification of the inner pore surface of polycaprolactone scaffolds

2011

Scaffold production for tissue engineering was demonstrated by means of a hot compression molding technique and subsequent particulate leaching. The utilization of spherical salt particles as the pore-forming agent ensured complete interconnectivity of the porous structure. This method obviated the use of potentially toxic organic solvents. To overcome the inherent non-cell-adhesive properties of the hydrophobic polymer polycaprolactone (PCL) surface activation with a diamine was performed, followed by the covalent immobilization of the adhesion-promoting RGD-peptide. The wet-chemical approach was performed to guarantee modification throughout the entire scaffold structure. The treatment wa…

ScaffoldMaterials scienceHot TemperaturePolyestersBiomedical EngineeringBiophysicsCompression moldingBioengineeringInterconnectivityOsteocytes/dk/atira/pure/sustainabledevelopmentgoals/clean_water_and_sanitationBiomaterialschemistry.chemical_compoundTissue engineeringAcetyltransferasesBiomimetic MaterialsMaterials TestingCell AdhesionHumansComposite materialCell Proliferationchemistry.chemical_classificationMolecular StructureTissue EngineeringTissue ScaffoldsEndothelial CellsWaterPolymerFibroblastschemistryCovalent bondPolycaprolactoneSurface modificationSaltsSDG 6 - Clean Water and SanitationHydrophobic and Hydrophilic InteractionsPorosity
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Integration of PCL and PLA in a monolithic porous scaffold for interface tissue engineering.

2016

A novel bi-layered multiphasic scaffold (BLS) have been fabricated for the first time by combining melt mixing, compression molding and particulate leaching. One layer has been composed by polylactic acid (PLA) presenting pore size in the range of 90-110µm while the other layer has been made of polycaprolactone (PCL) with pores ranging from 5 to 40µm. The different chemo-physical properties of the two biopolymers combined with the tunable pore architecture permitted to realize monolithic functionally graded scaffolds engineered to be potentially used for interface tissues regenerations. BLS have been characterized from a morphological and a mechanical point of view. In particular, mechanica…

ScaffoldMaterials scienceParticulate leachingPolyestersBiomedical EngineeringCompression molding02 engineering and technology010402 general chemistry01 natural sciencesBiomaterialschemistry.chemical_compoundMicePolylactic acidTissue engineeringChemical gradientMelt mixingSettore BIO/10 - BiochimicaElastic ModulusAnimalsComposite materialPorosityElastic modulusCells CulturedOsteoblastsTissue EngineeringTissue ScaffoldsInterface tissue engineeringPore size gradientSettore ING-IND/34 - Bioingegneria IndustrialeFunctionally graded scaffoldFibroblasts021001 nanoscience & nanotechnologyCoculture Techniques0104 chemical sciencesPolyesterSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialichemistryMechanics of MaterialsPolycaprolactoneNIH 3T3 Cells0210 nano-technologyPorosityJournal of the mechanical behavior of biomedical materials
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Electrospun Polyhydroxyethyl-Aspartamide-Polylactic Acid Scaffold for Biliary Duct Repair: A Preliminary In Vivo Evaluation

2017

Abstract Tissue engineering has emerged as a new approach with the potential to overcome the limitations of traditional therapies. The objective of this study was to test whether our polymeric scaffold is able to resist the corrosive action of bile and to support a cell's infiltration and neoangiogenesis with the aim of using it as a biodegradable tissue substitute for serious bile duct injuries. In particular, a resorbable electrospun polyhydroxyethyl-aspartamide–polylactic acid (90 mol% PHEA, 10 mol% PLA)/polycaprolactone (50:50 w/w) plate scaffold was implanted into rabbit gallbladder to assess the in vivo effects of the lytic action of the bile on the scaffold structure and then as a tu…

ScaffoldMaterials sciencePolyesters03 medical and health scienceschemistry.chemical_compound0302 clinical medicineBioabsorbable scaffold Bioengineered biliary duct Experimental surgeryTissue engineeringPolylactic acidIn vivomedicineAnimalsTransplantationTissue EngineeringTissue ScaffoldsBile ductGallbladderBiliary Tract Surgical ProceduresSettore MED/18 - Chirurgia Generalemedicine.anatomical_structurechemistryBiliary tractSettore CHIM/09 - Farmaceutico Tecnologico Applicativo030220 oncology & carcinogenesisPolycaprolactone030211 gastroenterology & hepatologySurgeryBile DuctsRabbitsBiomedical engineering
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Heparin functionalized polyaspartamide/polyester scaffold for potential blood vessel regeneration

2013

An interesting issue in tissue engineering is the development of a biodegradable vascular graft able to substitute a blood vessel and to allow its complete regeneration. Here, we report a new scaffold potentially useful as a synthetic vascular graft, produced through the electrospinning of α,β-poly(N-2-hydroxyethyl) (2-aminoethylcarbamate)-D,L-aspartamide-graft-polylactic acid (PHEA-EDA-g-PLA) in the presence of polycaprolactone (PCL). The scaffold degradation profile has been evaluated as well as the possibility to bind heparin to electrospun fibers, being it a known anticoagulant molecule able to bind growth factors. In vitro cell compatibility has been investigated using human vascular e…

ScaffoldMaterials scienceRegeneration (biology)Basic fibroblast growth factortechnology industry and agricultureMetals and AlloysBiomedical EngineeringHeparinBiomaterialsPolyesterchemistry.chemical_compoundmedicine.anatomical_structureTissue engineeringchemistryPolycaprolactoneCeramics and CompositesmedicineBiomedical engineeringBlood vesselmedicine.drugJournal of Biomedical Materials Research Part A
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Ring opening polymerization of ε-caprolactone initiated by titanium and vanadium complexes of ONO-type schiff base ligand

2021

AbstractA phenoxy-imine proligand with the additional OH donor group, 4,6-tBu2-2-(2-CH2(OH)-C6H4N = CH)C6H3OH (LH2), was synthesized and used to prepare group 4 and 5 complexes by reacting with Ti(OiPr)4 (LTi) and VO(OiPr)3 (LV). All new compounds were characterized by the FTIR, 1H and 13C NMR spectroscopy and LTi by the single-crystal X-ray diffraction analysis. The complexes were used as catalysts in the ring opening polymerization of ε-caprolactone. The influence of monomer/transition metal molar ratio, reaction time, polymerization temperature as well as complex type was investigated in detail. The complexes showed high (LTi) and moderate (LV) activity in ε-caprolactone polymerization a…

Schiff baseMaterials sciencePolymers and PlasticsRing-opening polymerizationOrganic ChemistryTridentate phenoxy-imine ligandVanadiumchemistry.chemical_elementVanadium complexRing-opening polymerizationCatalysischemistry.chemical_compoundMonomerchemistryTransition metalPolymerizationPolymer chemistryTitanium complexMaterials Chemistryε-caprolactoneCaprolactoneJournal of Polymer Research
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Topical canrenoic acid. Quantification of the antiandrogenic activity in the hamster flank organ

1991

: The topical antiandrogenic activity of potassium canrenoate (CAK), compared with that of spironolactone (SP), was assayed in vivo in female golden Syrian hamsters whose flank organs were stimulated by subcutaneous administration of testosterone propionate. Sebaceous glands and hair were measured by a computerized image analyzer. Pigmented spots, sebaceous gland areas, and the diameter of hairs of the treated flank organs were smaller in the groups that received CAK (1·6 mg/day) and SP (0·4 mg/day). The authors' results showed that CAK may act as a topical antiandrogen on the hamster flank organ when applied in concentrations four times greater than the minimal active dosage of SP. Potassi…

Sebaceous glandTestosterone propionatemedicine.medical_specialtymedicine.drug_classAdministration TopicalHamsterDermatologySpironolactoneAntiandrogenchemistry.chemical_compoundSebaceous GlandsIn vivoInternal medicineCricetinaeMedicineAnimalsTestosteroneMesocricetusbusiness.industryAndrogen AntagonistsEndocrinologymedicine.anatomical_structurechemistryPotassium canrenoateSpironolactoneFemaleCanrenoic Acidbusinessmedicine.drug
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Conductive polycaprolactone/gelatin/polyaniline nanofibres as functional scaffolds for cardiac tissue regeneration

2022

Abstract The endorsement of functional features such as biocompatibility, mechanical integrity, or electrical conductivity to tissue engineering (TE) scaffolds is essential to stimulate cell adhesion and proliferation. In this study, electrospun nanofibers based on polycaprolactone (PCL) and gelatin (Ge) (ratios 60/40, 50/50, and 40/60), and polyaniline (PAni) particles (0.25, 0.50, and 1.00%wt) were prepared. The time of dissolution in an acid solvent mixture before electrospinning allowed for obtaining nanofibers with controlled features. Changes in the molar mass (Mn from 90·103 to 15·103 g·mol−1), in the crystalline microstructure (Xc from 60 to 25%) and the surface morphology (diameter…

Semiconductors orgànicsMolar massfood.ingredientSolucions polimèriquesPolymers and PlasticsBiocompatibilityGeneral Chemical EngineeringGeneral ChemistryBiochemistryGelatinElectrospinningchemistry.chemical_compoundfoodchemistryTissue engineeringChemical engineeringNanofiberPolyanilinePolycaprolactoneMaterials ChemistryEnvironmental ChemistryEnginyeria biomèdica
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