BBT - Biomaterials, Biomecànica i Enginyeria de Teixits
El Grup de Biomaterials, Bioemecànica i Enginyeria de Teixits basa la seva recerca en el desenvolupament de biomaterials per a la regeneració i/o la reparació funcional de teixits i òrgans. Això comprèn el disseny de materials capaços de modular la resposta biològica del teixit receptor, donant lloc en alguns casos a la regeneració de teixits, i en altres a una perfecta integració del biomaterial, amb la recuperació funcional perduda.
El plantejament d'aquest objectiu és intrínsecament interdisciplinari, i exigeix d’una banda la caracterització dels materials a nivell físicoquímic i mecànic i, de l'altra, l'estudi de les seves interaccions amb les entitats biològiques a diferents nivells -proteïnes, cèl·lules i teixits-.
La recerca duta a terme pel grup BBT abasta tant aspectes fonamentals com d'altres més tecnològics, susceptibles de ser transferits a empreses del sector biomèdic.
El Grupo de Biomateriales, Biomecánica e Ingeniería de Tejidos basa su investigación en el desarrollo de biomateriales para la regeneración y / o la reparación funcional de tejidos y órganos. Esto comprende el diseño de materiales capaces de modular la respuesta biológica del tejido receptor, dando lugar en algunos casos a la regeneración de tejidos, y en otros a una perfecta integración del biomaterial, con la recuperación funcional perdida. El planteamiento de este objetivo es intrínsecamente interdisciplinario, y exige por un lado la caracterización de los materiales a nivel físico-químico y mecánico y, por otro, el estudio de sus interacciones con las entidades biológicas a diferentes niveles -proteínas, celulas y tejidos-.La investigación llevada a cabo por el grupo BBT abarca tanto aspectos fundamentales como otros más tecnológicos, susceptibles de ser transferidos a empresas del sector biomédico.
The Biomaterials, Biomechanics and Tissue Engineering Group carries out research into the development of biomaterials for the regeneration and/or functional repair of tissues and organs. There is a demand for the design of materials that are able to modulate the biological response of receiving tissues. In some cases this ability leads to the regeneration and neoformation of degraded tissue, and in others, the perfect integration of the biomaterial and the recovery of the lost function.
The Biomaterials, Biomechanics and Tissue Engineering Group carries out research into the development of biomaterials for the regeneration and/or functional repair of tissues and organs. There is a demand for the design of materials that are able to modulate the biological response of receiving tissues. In some cases this ability leads to the regeneration and neoformation of degraded tissue, and in others, the perfect integration of the biomaterial and the recovery of the lost function.
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Articles de revista [242]
Recent Submissions
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Vertical bone regeneration with synthetic biomimetic calcium phosphate onto the calvaria of rats
(2019-01-18)
Article
Restricted access - publisher's policy
Covenantee: Inserm / University of Minnesota School of DentistryBone regeneration is often required to provide adequate oral rehabilitation before dental implants. Vertical ridge augmentation is the most challenging of all situations, and often requires the use of autologous bone ... -
RGD mutation of the heparin binding II fragment of fibronectin for guiding mesenchymal stem cell behavior on titanium surfaces
(2019-01-04)
Article
Restricted access - publisher's policyInstalling bioactivity on metallic biomaterials by mimicking the extracellular matrix (ECM) is crucial for stimulating specific cellular responses to ultimately promote tissue regeneration. Fibronectin is an ECM protein ... -
The influence of physicochemical properties of biomimetic Hydroxyapatite on the in vitro behavior of endothelial progenitor cells and their interaction with mesenchymal stem cells
(2018-12-05)
Article
Restricted access - publisher's policyCalcium phosphate (CaP) substrates are successfully used as bone grafts due to their osteogenic properties. However, the influence of the physicochemical features of CaPs in angiogenesis is frequently neglected despite it ... -
White paper on the future of plasma science and technology in plastics and textiles
(2019-01-01)
Article
Open Access
Covenantee: Inštitut "Jožef Stefan"This white paper considers the future of plasma science and technology related to the manufacturing and modifications of plastics and textiles, summarizing existing efforts and the current state‐of‐art for major topics ... -
Funcionalización de superfícies anti-fouling sobre titanio para mejora de sus propiedades
(2018-09-01)
Article
Open Access -
Surface functionalization of biomaterials for bone tissue regeneration and repair
(2018)
Part of book or chapter of book
Restricted access - publisher's policyBiomaterials have evolved from mere bioinert substrates, required only to passively support cell adhesion and growth, to bioactive cell-instructive surfaces with the capacity to tune cell behavior and dictate cell ... -
Influence of process parameters in the generation of reactive oxygen and nitrogen species in cell culture media by atmospheric pressure plasma jet
(2017)
Conference lecture
Open Access -
Plasma jet selectivity on bone cancer cells and liquid-mediated effects
(2017)
Conference report
Open Access -
Liquid-mediated effects of cold plasma on bone cancer
(University of Antwerp, 2017)
Conference report
Open Access -
PEG hydrogel containing calcium-releasing particles and mesenchymal stromal cells promote vessel maturation
(2018-02)
Article
Restricted access - publisher's policyThe use of human mesenchymal stromal cells (hMSC) for treating diseased tissues with poor vascularization has received significant attention, but low cell survival has hampered its translation to the clinic. Bioglasses and ... -
Plasma polymer coatings for modulation of drug release from bioceramics
(2017)
Conference report
Open Access -
Biomimetic versus sintered calcium phosphates: The in vitro behavior of osteoblasts and mesenchymal stem cells
(2017-12-01)
Article
Open Access© Copyright 2017, Mary Ann Liebert, Inc.The fabrication of calcium phosphates using biomimetic routes, namely, precipitation processes at body temperature, results in distinct features compared to conventional sintered ...
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