Search results for "Tissue engineering"

showing 10 items of 370 documents

Tubular scaffold for vascular tissue engineering application

2010

A critical obstacle in tissue engineering is the inability to maintain large masses of living cells upon transfer from the in vitro culture conditions into the host in vivo. Capillaries, and the vascular system, are required to supply essential nutrients, including oxygen, remove waste products and provide a biochemical communication “highway”. Another goal in this research field is the possibility to tune the biodegradability of the scaffold. After implantation, the scaffold has to be gradually replaced by cells and extra cellular matrix and it is crucial that this replacement takes place with an appropriate dynamics. A premature degradation, in fact, could lead to a collapse of the struct…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciScaffoldMaterials scienceVascular grafts Tissue enginering PLLAExtracellular matrixSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiTubular scaffoldTissue engineeringIn vivoHomogeneousVascular tissue engineeringGeneral Materials ScienceBiomedical engineeringInternational Journal of Material Forming
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PLLA scaffolds based on thermally induced phase separation: morphology, cell seeding and proliferation

2009

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiSettore BIO/10 - BiochimicaPLLA Thermally Induced phase separation scaffold tissue engineering
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PLLA biodegradable scaffolds for Vascular Tissue Engineering (VTE) applications via dip drawing and Diffusion Induced Phase Separation (DIPS)

2009

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiTissue engineering vascular grafts scaffold Diffusion Induced Phase Separation (DIPS)Settore BIO/10 - Biochimica
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Physical and biological properties of electrospun poly(d,l‐lactide)/nanoclay and poly(d,l‐lactide)/nanosilica nanofibrous scaffold for bone tissue en…

2021

Abstract Electrospun scaffolds exhibiting high physical performances with the ability to support cell attachment and proliferation are attracting more and more scientific interest for tissue engineering applications. The inclusion of inorganic nanoparticles such as nanosilica and nanoclay into electrospun biopolymeric matrices can meet these challenging requirements. The silica and clay incorporation into polymeric nanofibers has been reported to enhance and improve the mechanical properties as well as the osteogenic properties of the scaffolds. In this work, for the first time, the physical and biological properties of polylactic acid (PLA) electrospun mats filled with different concentrat…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaTissue EngineeringTissue ScaffoldsPolyesterstechnology industry and agricultureNanofibersSettore ING-IND/34 - Bioingegneria Industrialenanosilicapre‐osteoblastic cellsBone and BonesCell LineNanocompositesnanoclayMiceSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiOsteogenesispre-osteoblastic cellsAnimalspolylactic acidResearch ArticleselectrospinningResearch ArticleJournal of Biomedical Materials Research. Part a
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Poly lactic acid based scaffolds for vascular tissue engineering

2012

A critical obstacle encountered by tissue engineering is the inability to maintain large masses of living cells upon transfer from the in vitro culture conditions to host in vivo. Capillaries, and the vascular system, are required to supply essential nutrients, including oxygen, remove waste products and provide a biochemical communication "highway". The successful use of tissue-engineered constructs is currently limited to thin or avascular tissues, such as skin or cartilage, for which post-implantation neovascularisation from the host is sufficient to meet the demand for oxygen and nutrients. To succeed in the application of tissue engineering for bigger tissues, such as bone or muscle, t…

Settore ING-IND/24 - Principi Di Ingegneria Chimicalcsh:Computer engineering. Computer hardwareHistologyTissueOxygen supplyBiomechanicCell engineeringlcsh:TP155-156lcsh:TK7885-7895Lactic acidBiodegradabilityCardiovascular systemSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiSettore BIO/10 - BiochimicaTissue engineeringCell cultureCelllcsh:Chemical engineeringCytologyCell proliferationNutrient
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Polyactide Biodegradable Scaffolds for Tissue Engineering Applications: Phase Separation-Based Techniques

2011

One of the most reliable techniques for the preparation of biodegradable scaffolds suitable for tissue engineering applications (e.g. regeneration of wounded/damaged tissues) is based on liquid/liquid phase separation of ternary solvent/antisolvent/polymer solutions. In particular, two phase separation protocols are examined here: Thermally Induced Phase Separation (TIPS) and Diffusion Induces Phase Separation (DIPS). According to the former protocol, a thermodynamically stable polymeric ternary solution is brought below its metastability/instability point (spinodal/binodal curve) by quench in a cooling medium: under opportune conditions, a foam-like structure is formed by nucleation and 3-…

Settore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiTissue EngineeringSettore BIO/10 - BiochimicaPhase separation Scaffolds
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Blood Vessel Detection Algorithm for Tissue Engineering and Quantitative Histology.

2021

AbstractImmunohistochemistry for vascular network analysis plays a fundamental role in basic science, translational research and clinical practice. However, identifying vascularization in histological tissue images is time consuming and markedly depends on the operator’s experience. In this study, we present “blood vessel detection—BVD”, an automatic algorithm for quantitative analysis of blood vessels in immunohistochemical images. BVD is based on extraction and analysis of low-level image features and spatial filtering techniques, which do not require a training phase. BVD algorithm performance was comparatively evaluated on histological sections from three different in vivo experiments. …

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniNeovascularization PathologicTissue EngineeringBiomedical EngineeringImage Processing Computer-AssistedSettore ING-IND/34 - Bioingegneria IndustrialeHumansAngiogenesis Automated image analysis Biomaterials host response Blood vessel formation Blood vessel morphology Quantitative histology Quantitative immunohistochemistry VascularizationImmunohistochemistryAlgorithmsAnnals of biomedical engineering
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Decellularized Saphena: Biologic Scaffold for 3D Cellular Growth

2016

Settore MED/18 - Chirurgia GeneraleSettore BIO/13 - Biologia ApplicataSettore MED/22 - Chirurgia VascolareSettore MED/11 - Malattie Dell'Apparato CardiovascolareBioreactor Blood Vessels Cell Culture Models Regenerative Medicine Tissue Engineering
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A tissue-engineered artificial bile duct grown to resemble the native bile duct in a porcine model

Settore MED/18 - Chirurgia Generalescaffold tissue engineering bile-duct experimental surgery pig
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Biogenic Inorganic Polysilicates (Biosilica): Formation and Biomedical Applications

2013

The siliceous sponges, the demosponges and hexactinellid glass sponges, are unique in their ability to form biosilica structures with complex architectures through an enzyme-catalyzed mechanism. The biosilica skeleton of these sponges with its hierarchically structure and exceptional opto-mechanical properties has turned out to be an excellent model for the design of biomimetic nanomaterials with novel property combinations. In addition, biosilica shows morphogenetic activity that offers novel applications in the field of bone tissue engineering and repair. In recent years, much progress has been achieved towards the understanding of the principal enzymes, the silicateins that form the spon…

Siliceous spongeSpongeSponge spiculePolycondensation reactionbiologyHexactinellidNanobiotechnologyNanomedicineNanotechnologybiology.organism_classificationBone tissue engineering
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