Chemicals and DrugsAnalytical, Diagnostic and Therapeutic Techniques and EquipmentPhenomena and ProcessesDisciplines and OccupationsAnthropology, Education, Sociology and Social PhenomenaTechnology, Industry, AgricultureInformation ScienceHealth Care
Tissue ScaffoldsBiodegradable PlasticsTissue EngineeringBiocompatible MaterialsPorosityPolyurethanesPolyestersMaterials TestingBiomedical ResearchBiomedical EngineeringNatural Language ProcessingBiomedical TechnologyNanofibersInformation Storage and RetrievalVocabulary, ControlledAbstracting and Indexing as TopicMEDLINEBiomedical EnhancementData MiningPubMedTerminology as TopicPeriodicals as TopicPolymersPolyglycolic AcidUnified Medical Language SystemAbsorbable ImplantsDecanoatesMicroscopy, Electron, ScanningSemanticsMedical InformaticsDatabase Management SystemsNanostructuresSilkMedical Subject HeadingsBiomimetic MaterialsBone RegenerationDurapatiteBiological OntologiesArtificial IntelligenceGuided Tissue RegenerationChitosanNational Library of Medicine (U.S.)Abbreviations as TopicBone SubstitutesHydrogelsComputational BiologyNanocompositesSoftwareBiological Science DisciplinesAlgorithmsImplants, ExperimentalElastomersNanotechnology
Department of Biomedical EngineeringBiodegradableRegenerationOrgansVivoVarious biomedical applicationsMesenchymal stemBiocompatibilityBioactiveRegenerative medicineTubularDerived from dental tissuesCellularPhysiologicalStructuralCharacterizationProgenitor cellsPolymersStemPolymerDegradationImplantsVascular graftHuman tissues20182000StructuresAbstractExtracellular MatrixGraftBiochemicalPeriodontal ligamentSoft tissueSuccessfullyBioprintingInvestigated and characterizedGrapheneBiocompatibleMechanicsClinicalCrucial2021BioinksCellBioengineeringFieldExploreSciencesBiomaterials scienceImplantVitroPropertiesTherapeutic
Department of Biomedical Engineering4
Biodegradable9
  • Biodegradable polymers such as polycaprolactone have attracted particular attention due to their applicability to tissue engineering and optical neural interfacing. (edu.au)
  • The capacity to tailor the surface morphology of biodegradable PCL fibers and their non-cytotoxicity make the proposed approach an attractive platform for biomedical applications and tissue engineering. (edu.au)
  • The development of biodegradable implants demands an appreciation of the cellular and tissue responses that are associated with their implantation and in vivo degradation, because they determine the biocompatibility [ 15 ]. (biomedcentral.com)
  • Gopinath Mani is an Assistant Professor of Biomedical Engineering at the University of South Dakota, focusing on surface modification and characterization of biomaterials, nanomaterials and nanomedicine, biodegradable metals and drug delivery systems. (kennys.ie)
  • This includes the development of biodegradable scaffolds for tissue regeneration and the exploration of 3D printing techniques to create patient-specific implants. (gadgetsarabia.com)
  • Here he also utilizes mesenchymal stem cells or their products incorporated in a biodegradable scaffold that undergoes substantial in vivo remodeling to develop a native-like blood vessel. (pitt.edu)
  • This work was truly novel in the field of Class II biodegradable hybrids for biomedical applications and resulted in a patent application which was licenced to RepRegen Ltd (UK) and 6 high impact publications. (birmingham.ac.uk)
  • Novel biodegradable polymers are tested as scaffold material and 3D-printed in fine lattice structures by 3 D bioprinting or electrospinning-writing which are coated with native proteins and seeded with endothelial cells. (uni-hannover.de)
  • The aim of the present study was designed to analyze the effects of different sterilization techniques, i.e. ethylene oxide (ETO), gamma radiation (GR) and hydrogen peroxide- based plasma (H2O2) in biodegradable PLA scaffolds, and to determine the best sterilization technique to render a sterile product with minimal degradation and deformation, and good tissue response. (bvsalud.org)
Regeneration13
  • Tissue engineering is a multidisciplinary field that applies the principles of engineering and life-sciences for regeneration of damaged tissues. (wjgnet.com)
  • Autologous platelets as a source of proteins for healing and tissue regeneration. (springer.com)
  • Cunha C, Panseri S, Antonini S. Emerging nanotechnology approaches in tissue engineering for peripheral nerve regeneration. (springer.com)
  • In specific, his research group is involved in the development of novel hybrid bioinks for 3D bioprinting, bioactive glass and hybrid scaffolds for hard and soft tissue regeneration and their characterisation using advanced techniques available at Harwell Campus. (birmingham.ac.uk)
  • he produced the first, bioactive, Class II hybrids for bone regeneration using natural polymers, the first electrospinning of cotton-wool-like fibrous materials from sol-gel solutions and the first 3D printed organic/inorganic hybrid scaffolds directly from sol-gel solutions. (birmingham.ac.uk)
  • an on-demand near-patient manufacturing of patient-specific organs and tissue constructs that mimic the hierarchical multi-composite structures of individual tissues and contains the right cues for regeneration. (birmingham.ac.uk)
  • Dr. McFetridge's primary research objective is to engineer viable 'living' tissue and organs for the repair and regeneration of diseased tissues. (ufl.edu)
  • The combination of inductive scaffold materials with stem cells might optimize the approaches for bone regeneration. (bvsalud.org)
  • The development of new biomaterials for tissue engineering provides a scientific basis for the creation of scaffolds that could provide appropriate regeneration and tissue repair 14 . (bvsalud.org)
  • The high regeneration potential has aroused a great interest in the scientific community 3 , due to its many clinical applications in cell therapy or tissue engineering. (bvsalud.org)
  • The tissues that used to be discarded may now serve as a basis for scientific research and clinical use in tissue regeneration and treatment of many diseases 23 . (bvsalud.org)
  • In recent years, tissue engineering has evolved considerably, due to the problems in the biomedical area concerning tissue regeneration therapies. (bvsalud.org)
  • Moreover, sterilization strategies of scaffold are a crucial step for its application in tissue regeneration, however, the sterilization process have to maintain the structural and biochemical properties of the scaffold. (bvsalud.org)
Organs9
  • Plants are extraordinarily good at cultivating new tissues and organs, and there are thousands of different plant species readily available. (zmescience.com)
  • The field of tissue engineering is constantly evolving as it aims to develop bioengineered and functional tissues and organs for repair or replacement. (mdpi.com)
  • Due to their large surface area and ability to interact with proteins and peptides, graphene oxides offer valuable physiochemical and biological features for biomedical applications and have been successfully employed for optimizing scaffold architectures for a wide range of organs, from the skin to cardiac tissue. (mdpi.com)
  • The loss from and water content modification in of the cells (cellular water loss) with age is a serious problem for several organs and it can alter the functional behavior of biomedical apparati. (articlesfactory.com)
  • Biomaterials Science and Tissue Engineering - The application of materials engineering and cell biology principles to achieve improved repair of injured and damaged body tissues and organs. (sheffield.ac.uk)
  • They can be engineered to mimic the properties of native tissues and organs, enabling their integration with the human body seamlessly. (gadgetsarabia.com)
  • The research in Dr. Vorp's lab focuses on the biomechanics, "mechanopathobiology," regenerative medicine, and tissue engineering of tubular tissues and organs, predominantly the vasculature. (pitt.edu)
  • Tissue engineering is the science that combines the principles of biology and engineering techniques in order to obtain biological substitutes for regenerating, replacing, modifying, repairing or restoring the function of organs and tissues. (bvsalud.org)
  • This results clinically in interstitial edema in distant organs and soft tissues, with an initial decrease in cardiac output and the metabolic rate. (medscape.com)
Vivo11
  • My research program combines a fundamental in-vitro research approach, examining the time varying response of the lumbar spine tissues, with in-vivo human research, examining biological responses to cumulative loading exposure from both pain generating and tissue altering/injuring perspectives. (uwaterloo.ca)
  • In this in vivo examination, porous cylindrical hydroxyapatite scaffolds with a hollow center were immersed in 100 m g/ml laminin solution and air-dried. (scirp.org)
  • From the in vivo examination, laminin coating of the scaffolds induced hard tissue in the pores with the cells. (scirp.org)
  • It is concluded that laminin is useful for bone formation, as in an in vitro culture study using bone marrow cells, in hydroxyapatite scaffolds in vivo . (scirp.org)
  • Yoshikawa, M. , Kakigi, H. , Yabuuchi, T. and Hayashi, H. (2014) Effects of laminin on hard tissue formation by bone marrow cells in vivo and in vitro . (scirp.org)
  • The aim of the present study was to compare the soft tissue biocompatibility of MgCa0.8 and commonly used surgical steel in vivo . (biomedcentral.com)
  • Meanwhile, progenitor cells and tissue-specific cells have also been intensively investigated in vivo as well as ex vivo. (uu.nl)
  • She has dedicated her decades-long career to developing an ex vivo tissue engineering technique which offers a safer, more precise way of cultivating skeletal, heart, lung, and vascular tissue for either transplantation, disease modelling, or drug testing. (prweb.com)
  • Vunjak-Novakovic's pioneering technique involves creating living biological grafts by growing a new piece of tissue ex vivo from a patient's own cells, entirely eliminating these problems. (prweb.com)
  • Improved recellularization of ex vivo vascular scaffolds using directed transport gradients," Biotechnology and Bioengineering . (ufl.edu)
  • In conclusion, the results show that among sterilization techniques used in the preset study, the best results were observed with H2O2 sterilization, since it did not significantly modify the surface structure of the PLA fibers and their in vivo response did not cause an unfavorable tissue reaction. (bvsalud.org)
Various biomedical applications3
  • These are extensively used for various biomedical applications, such as tissue engineering, cancer therapy, drug delivery, wound healing, preparation of scaffolds & bone cement, and enzyme immobilization. (researchandmarkets.com)
  • Advanced strategies to create multifunctional multiscale biomaterials will enable the development of novel bioink formulations amenable to biofabrication while the biofabrication process-drive research will focus on printing technology towards the creation of precision structured biomaterials that opens up possibilities to program specific and multiple tissue-based functionalities towards various biomedical applications. (stevens.edu)
  • BP has received immense scientific attention due to its inherent physio-chemical, electronic, and optical properties, which make it useful for various biomedical applications. (databasefootball.com)
Mesenchymal stem5
  • Huang, G.T., Gronthos, S. and Shi, S. (2009) Mesenchymal stem cells derived from dental tissues vs. those from other sources: Their biology and role in regenerative medicine. (scirp.org)
  • However, recent studies show that human mesenchymal stem cells isolated from adipose tissue of patients (hASCs, cooperation with the Department of Plastic Surgery of the MHH) have approaches for differentiation in an endothelial direction and positively influence the differentiation of immature endothelial cells into capillaries. (uni-hannover.de)
  • Porous scaffolds prepared by porogen leaching are co-cultured with mesenchymal stem cells and endothelial cells (so called HUVECS= human umbilical venous endothelial cells) and capillary structures are grown. (uni-hannover.de)
  • Mesenchymal Stem Cells (MSCs) can be isolated from several body tissues, including dental tissues. (bvsalud.org)
  • The ability to restore cells and tissue function without the need of immunosuppressive drugs and without the concern for tissue compatibility makes Mesenchymal Stem Cells (MSCs, usual acronym) a strong promise for the future. (bvsalud.org)
Biocompatibility4
  • Its biocompatibility makes it safe for use in biomedical applications such as drug delivery systems, implant devices, and scaffolds for tissue engineering. (riken.jp)
  • Mark Appleford is an Assistant Professor of Biomedical Engineering at the University of Texas, San Antonio, focusing on tissue-biomaterial interactions, cellular engineering, reconstructive tissue engineering, and biocompatibility. (kennys.ie)
  • Currently, work has been focused on the synthesis and physicochemical characterization of poly lactic acid scaffolds, a synthetic polyester that has been extensively study for its excellent biocompatibility and biodegradability. (bvsalud.org)
  • Recombinant elastin-based proteins (ELPs) are used in applications that include therapeutics, drug delivery, and tissue engineering due to their biocompatibility and unique ability to undergo simple coacervation. (bvsalud.org)
Bioactive2
  • Concerning bioactive factors and drugs, they have been combined with scaffolds and/or living cells, and even released in a spatiotemporally controlled manner. (uu.nl)
  • Here, he was one of the first to use X-ray microtomography (µCT) to non-destructively quantify the macroporous architecture, permeability and mechanical properties of bioactive glass scaffolds (BGS) (Fig. 1a). (birmingham.ac.uk)
Regenerative medicine5
  • Plants are really special materials as they have a very high surface area to volume ratio, and their pore structure is uniquely well-designed for fluid transport," says William Murphy, professor of biomedical engineering and co-director of the UW-Madison Stem Cell and Regenerative Medicine Center, who coordinated the team's efforts. (zmescience.com)
  • This review critically focuses on opportunities to employ protein-graphene oxide structures either as nanocomposites or as biocomplexes and highlights the effects of carbonaceous nanostructures on protein conformation and structural stability for applications in tissue engineering and regenerative medicine. (mdpi.com)
  • Biomaterials play a crucial role in biomedical engineering, with applications in tissue engineering, regenerative medicine, and prosthetics. (gadgetsarabia.com)
  • Biomaterial applications: Biomaterials find applications in numerous fields such as tissue engineering, regenerative medicine, and prosthetics. (gadgetsarabia.com)
  • His research activity is focused on biomaterials for tissue engineering and regenerative medicine. (birmingham.ac.uk)
Tubular1
  • Moreover, animal experiments exhibited the implantability including that the pre-existing blood vessels of the host sprout towards the preformed vessels of the scaffold over time and the microvessels inside the implanted scaffold matured from empty tubular structures to functional blood-carrying microvessels in two weeks. (lu.se)
Derived from dental tissues2
  • Until now, several progenitor cells derived from dental tissues have been isolated and characterized ( table I ). (bvsalud.org)
  • Stem cells derived from dental tissues are isolated from specialized tissues and have a strong ability to give rise to other cell lines, but with a different potential of bone marrow stem cells 16 . (bvsalud.org)
Cellular4
  • Towards Cellular Sieving: Exploring the Limits of Scaffold Accessibility for Cell Type Specific Invasion Advanced Biosystems. (nottingham.ac.uk)
  • Plants form such good scaffolds because their cellular walls are rich in cellulose - probably the most abundant polymer on Earth, as plants use it to form a rough equivalent of our skeleton. (zmescience.com)
  • The thickness of the fibrous layer and the amount of tissue necrosis and cellular infiltrations gradually decreased in S316L. (biomedcentral.com)
  • Cell therapy is a therapy where cellular material is injected systemically or directly into the injured tissue, to promote local repair or to restore systemic health. (bvsalud.org)
Physiological1
  • All synthetic and natural materials to be used in biomedical applications that involve the contact with human body need to be investigated for their physical and chemical modification induced by the human physiological fluids contact and sorption. (articlesfactory.com)
Structural3
  • Structural scaffold used to reinforce and repair soft tissue. (dsm.com)
  • Ghasemi-Mobarakeh L, Prabhakaran MP, Tian L, Shamirzaei-Jeshvaghani E, Dehghani L, Ramakrishna S. Structural properties of scaffolds: Crucial parameters towards stem cells differentiation. (wjgnet.com)
  • Emphasis is placed on the fundamental aspects of the subject, particularly those concerning structural entities and their relationship to properties (mechanical, chemical, electrical, magnetic, optical, or biomedical), and work which advances the understanding of the use of materials in engineering, healthcare, and other applications. (frontiersin.org)
Characterization2
  • A RBNI- Lorry I. Lokey Center joint effort for facilitating advanced mechanical characterization and manipulation of tissue and tissue scaffolds, and bio-rheology. (technion.ac.il)
  • The expertise in this cluster includes experimental characterization of tissues, computational modeling of the constitutive behavior of biological materials and systems, and medical image analyses. (stevens.edu)
Progenitor cells1
  • In parallel, we isolate endothelial progenitor cells from peripheral blood (cooperation with the blood bank of the MHH) and optimize their extracorporeal expansion and development into a confluent cell layer on scaffold materials for endothelialization. (uni-hannover.de)
Polymers1
  • This succinct textbook gives students the perfect introduction to the world of biomaterials, linking the fundamental properties of metals, polymers, ceramics and natural biomaterials to the unique advantages and limitations surrounding their biomedical applications. (kennys.ie)
Stem12
  • Stem cells have attracted much interest in tissue engineering as a cell source due to their ability to proliferate in an undifferentiated state for prolonged time and capability of differentiating to different cell types after induction. (wjgnet.com)
  • University of Wisconsin-Madison researchers are investigating de-cellularized plant husks as potential 3D scaffolds which, when seeded with human stem cells, could lead to a new class of biomedical implants and tailored tissues. (zmescience.com)
  • Joining this noblest of scientific traditions, UWM scientists have turned to de-celled husks of plants such as parsley, vanilla, or orchids to create 3D scaffolds which can be seeded with human stem cells and optimized for growth in lab cultures. (zmescience.com)
  • Even better, the team observed that stem cells seeded into the scaffolds tended to align to the scaffold's structure. (zmescience.com)
  • The scaffold is populated with stem cells from the patient's own abdominal fat and placed inside a bioreactor, which mimics the finely calibrated conditions within the human body, enabling the bone to grow. (prweb.com)
  • During her Master's thesis, she contributed to the development of a physical model for integrating optoelectronic scaffolds with optogenetics to investigate their effects on human stem cell-derived cardiomyocyte functionality. (uniklinik-freiburg.de)
  • As a result of being capable of differentiating into a variety of cell types, it can be presumed that stem cell therapy has an advantage when compared to other tissue repair methods. (bvsalud.org)
  • The aim of this paper is to provide a review about current and future materials for scaffolds to carry stem cells in tissue engineering in Dentistry, especially for bone tissue repair. (bvsalud.org)
  • Stem cells from dental tissues have a real potential in Advanced Therapies. (bvsalud.org)
  • For stem cells to be used in tissue engineering a scaffold is essential to provide the necessary support for the transport of nutrients, oxygen and the elimination of metabolic waste 30 , promoting a conducive environment for cell growth and differentiation. (bvsalud.org)
  • Stem cells are classified into two main: embryonic stem cells, which are found in the embryos and adult stem cells, found in adult tissues. (bvsalud.org)
  • Adult stem cells are found in differentiated tissues and are able to generate specialized cells in some types of tissues (Multipotent Stem Cells). (bvsalud.org)
Polymer4
  • There is a growing demand for polymer fiber scaffolds for biomedical applications and tissue engineering. (edu.au)
  • Among them, hydrogels and 3D polymer scaffolds with the ability to swell in aqueous media have been deeply investigated. (rsc.org)
  • First, researchers created a 3D scaffold system made from a network of polymer molecules that can hold large amounts of water, forming a type of material known as a hydrogel. (phys.org)
  • Here, he produced the first 3D printed organic/inorganic hybrid scaffolds directly from sol-gel solution without employing any polymer or coagulation agents (Fig. 1h,i). (birmingham.ac.uk)
Degradation1
  • Synchrotron microtomography reveals insights into the degradation kinetics of bio-degradable coronary magnesium scaffolds. (bvsalud.org)
Implants3
  • Models and experimental observations allow characterizing the deformation mechanisms down to the length scale of single cells, allowing for investigations on the mechanobiology of novel implants, scaffolds for tissue engineering and coating materials for biomedical devices. (empa.ch)
  • In MgCa0.8 implants cavities were detected within the fibrous tissue, which were surrounded by the same kind of cell type. (biomedcentral.com)
  • C. M. Agrawal is the Vice President for Research at the University of Texas at San Antonio, and the Peter Flawn Professor of Biomedical Engineering, specializing in orthopaedic and cardiovascular biomaterials and implants. (kennys.ie)
Vascular graft1
  • He is also designing a small diameter tissue engineered vascular graft to treat cardiovascular diseases. (pitt.edu)
Human tissues1
  • So it should be possible to use these plant husks to control the structure and alignment of developing human tissues, Murphy says, a critical achievement for muscle or nerve tissues - which don't work unless correctly aligned and patterned. (zmescience.com)
20181
20001
  • Singapore's much-heralded big push into biomedical sciences started for real in 2000, with S$3 billion allocated over five years in addition to the cost of Biopolis. (newscientist.com)
Structures3
  • The technology draws on the natural qualities of plant structures - strength, porosity, low weight, all coupled with large surface-to-volume ratios - to overcome several of the limitations current scaffolding methods , such as 3D printing or injection molding, face in creating efficient feedstock structures for biomedical applications. (zmescience.com)
  • Since there's a huge variety of plants - with unique cellulose structures - in nature, we can simply find one that suits our need and use that to tailor the tissues we want. (zmescience.com)
  • The OCT methods may be able to nondestructively measure specific structures that evolve as the tissues mature in real time as a measure of their readiness for implantation," said Simon. (phys.org)
Abstract1
  • article{2985125c-4fa1-47e4-9792-4bb6d8b1d6c4, abstract = {{Generating functional and perfusable micro-vascular networks is an important goal for the fabrication of large and three-dimensional tissues. (lu.se)
Extracellular Matrix2
  • DSM portfolio of innovative biomedical materials and process manufacturing technologies: Biomedical Polyethylenes, Biomedical polyurethanes, Collagen Technology, Device Development, and Extracellular Matrix (ECM) Technology. (dsm.com)
  • Scaffolds play an important role in tissue engineering as a substrate that can mimic the native extracellular matrix and the properties of scaffolds have been shown to affect the cell behavior such as the cell attachment, proliferation and differentiation. (wjgnet.com)
Graft1
  • Before she developed her technique, tissue replacement either involved a painful graft from a patient's body or carried the risk of immune rejection in the case of grafts taken from a cadaver. (prweb.com)
Biochemical1
  • In vitro examinations showed the effectiveness of laminin for hard tissue formation from the results of biochemical and immunochemical analysis. (scirp.org)
Periodontal ligament1
  • Optimising collagen scaffold architecture for enhanced periodontal ligament fibroblast migration Journal of Materials Science: Materials in Medicine. (nottingham.ac.uk)
Soft tissue1
  • The most common indication(s) for antibiotic use in SCBU was infection prophylaxis (81.3%) and in paediatric wards: Pneumonia, Ear Nose Throat and Soft tissue infections accounted for (23.1%) each. (bvsalud.org)
Successfully1
  • But to evaluate how successfully the cells develop into tissue, researchers need a reliable method to monitor the cells as they move and multiply. (phys.org)
Bioprinting1
  • Commonly used clinical reparative techniques, tissue-engineered strategies, emerging 3D-bioprinting technologies, and the status of their clinical applications are discussed. (uu.nl)
Investigated and characterized1
  • All synthetic and natural hydrophilic materials used in biomedical application should be investigated and characterized for their interactions with aqueous environments. (articlesfactory.com)
Graphene1
  • Extensive and profound research in graphene has become a strong driver in the search for other 2 dimensional (2D) materials exhibiting a vast array of innovative properties including optical, electrical, sensing, biomedical, etc. (databasefootball.com)
Biocompatible1
  • Moreover, the histological response showed that the scaffolds are biocompatible and those sterilized by GR showed a more severe inflammatory response, accompanied with the presence of giant foreign body cells. (bvsalud.org)
Mechanics2
  • The study of biomechanics in the field of biomedical engineering involves analyzing the mechanics of biological systems to understand their structure and function. (gadgetsarabia.com)
  • Overall, biomechanics plays a vital role in advancing biomedical engineering by providing valuable insights into the mechanics behind biological systems and enabling the development of more effective medical devices and treatments. (gadgetsarabia.com)
Clinical2
  • Testing methods in biomedical engineering include biomedical simulations, clinical trials, and regulatory approval to ensure functionality, safety, and advancement in patient care. (gadgetsarabia.com)
  • MSCs have a clinical attractiveness because they are easy to expand, they have the ability to differentiate into various types of tissues 5 , and can be directed to become osteocytes, chondrocytes or adipocytes. (bvsalud.org)
Crucial3
  • Device design plays a crucial role in the field of biomedical engineering as it involves creating innovative and efficient medical devices that address specific healthcare needs. (gadgetsarabia.com)
  • Biomaterials play a crucial role in the field of biomedical engineering by providing materials that are compatible with biological systems. (gadgetsarabia.com)
  • El proceso de esterilización es un paso crucial en la aplicación de andamios en terapias de regeneración, sin embargo, la técnica de esterilización debe mantener las propiedades estructurales y bioquímicas del andamio. (bvsalud.org)
20213
  • The Biomedical Glasses (BGLASS) journal has been closed since the beginning of the 2021. (degruyter.com)
  • MUNICH , May 4, 2021 /PRNewswire-PRWeb/ -- The European Patent Office (EPO) announces that Serbian-American scientist Gordana Vunjak-Novakovic has been nominated as a finalist of the European Inventor Award 2021 for her innovative contribution to biomedical engineering. (prweb.com)
  • Over her lifetime, Gordana Vunjak-Novakovic has made a major contribution to tissue engineering, one of the most promising ways to prolong the human lifespan and improve quality of life," said EPO president António Campinos, announcing the 2021 EPO Award finalists. (prweb.com)
Bioinks2
  • Microstructured scaffolds and new bioinks are designed using 3D printing. (uni-hannover.de)
  • Microstructured two-component scaffolds are seeded using viscous bioinks. (uni-hannover.de)
Cell6
  • 2007). Other potential biomedical applications of CNT include bone scaffold, dental tissue support, and neuronal cell growth scaffold (Li, Fan et al. (cdc.gov)
  • For the cell culture into the scaffold, it is necessary to establish certain conditions, such as the type of supplementation of the culture medium. (springer.com)
  • Therefore, the aim of this research was to evaluate the platelet-rich plasma (PRP) as a supplement and scaffold for Vero cell culture, in a one case report study. (springer.com)
  • Therefore, in Vero cell cultures, the results suggest that SPRP and CPRP can be used as a supplement and scaffold, respectively. (springer.com)
  • These demanding challenges necessitate interdisciplinary perspectives and collaborative endeavors of our investigators in molecular biology, biochemistry, cell biology, tissue engineering, and tissue-on-a-chip. (stevens.edu)
  • Mechanistically, OLFM4 played protective functions on HR-induced cell inflammation and tissue damage by inhibiting the NF-kappa B signaling activation, thus it could be used as a therapeutic target. (bvsalud.org)
Bioengineering1
  • He was the Chair of the Bioengineering Division of the American Society of Mechanical Engineers (ASME), the first non-MD President of the International Society for Applied Cardiovascular Biology, and the Secretary of the Executive Committee of the Biomedical Engineering Society (BMES), for which he served on the Board of Directors for 10 years. (pitt.edu)
Field8
  • The use of hydrogel in the biomedical field was pioneered in 1960 by Drahoslav Lím and Otto Wichterle. (wikipedia.org)
  • The aim of the journal was to become the most authoritative publication in the field of glasses for biomedical applications. (degruyter.com)
  • BP exhibits strong light-matter interactions, high carrier mobility, and tunable band gap as well as anisotropic physical characteristics that have contributed to its tremendous applications in the field of photonics and biomedical technology. (databasefootball.com)
  • Biomedical engineering has emerged as a revolutionary field that transcends borders, pushing the boundaries of what is possible in healthcare. (gadgetsarabia.com)
  • In the burgeoning field of tissue engineering, live cells grow in artificial scaffolds to form biological tissue. (phys.org)
  • Replacing damaged or worn-out tissue has long been a goal of scientists working in the biomedical field. (prweb.com)
  • Tissue engineering is a rapidly growing sector in the field of future-oriented medicine and offers enormous potential in the development of bioartificial vascular prostheses, which are becoming increasingly important in a rapidly aging society. (uni-hannover.de)
  • Our designed filters are showing the potentials in the field of biomedical imaging and pattern identification. (bvsalud.org)
Explore1
  • This article aims to explore the exciting world of biomedical engineering, shedding light on key aspects such as device design, biomaterials, biomechanics, testing methods, career opportunities, and the latest innovations. (gadgetsarabia.com)
Sciences2
  • The Bachelor of Science in biomedical engineering integrates the design and problem-solving skills of engineering with medical and biological sciences to advance health care. (trine.edu)
  • Strathclyde Institute of Pharmacy and Biomedical Sciences. (strath.ac.uk)
Biomaterials science1
  • Her fellowship will focus on designing tissue-realistic models of fibrotic conditions in humans and animals, by combining biomaterials science with 3D tissue imaging. (nottingham.ac.uk)
Implant1
  • Histology revealed that a layer of fibrous tissue had formed between implant and overlying muscle in MgCa0.8 and S316L, which was demarcated by a layer of synoviocyte-like cells at its interface to the implant. (biomedcentral.com)
Vitro1
  • MSCs have great therapeutic potential in tissue engineering, they can be expanded in vitro, and combined with scaffolds they can be inserted into wounds to promote healing and tissue replacement. (bvsalud.org)
Properties2
  • biological and mechanical properties for several biomedical applications (Montheard et al. (articlesfactory.com)
  • As a next step, researchers are looking at applying the technique to study other properties, such as the structure of biofabricated tissue. (phys.org)
Therapeutic1
  • The use of cells and tissues as therapeutic agents have emerged over the past decades in order to offers new therapeutic alternatives to conventional approaches, giving an opportunity to treat pathologies that have not been cured yet. (mdpi.com)