306 documents found, page 1 of 31
Guiding stem cell tenogenesis by modulation of growth factor signaling and cell...
Teixeira, Simão P. B.; Pardo, Alberto; Bakht, Syeda M.; Gómez-Florit, Manuel; Reis, R. L.; Gomes, Manuela E.; Domingues, Rui Miguel AndradeTendon injuries and tendinopathies are increasingly prevalent health problems currently lacking effective treatments. Tissue engineering offers promising strategies to boost the low innate regenerative ability of tendons. Within this context, the simultaneous leveraging of both physical and biochemical cues by engineered scaffolding systems can be explored to promote a stronger tenogenic response from stem cell...
Combining magnetically-assisted and matrix-assisted 3D bioprinting for anisotro...
Bakht, Syeda M.; Pardo, Alberto; Reis, R. L.; Domingues, Rui Miguel Andrade; Gomes, Manuela E.A major obstacle in biofabrication is replicating the organization of the extracellular matrix and cellular patterns found in anisotropic tissues within bioengineered constructs. While magnetically-assisted 3D bioprinting techniques have the potential to create scaffolds that mimic natural biological structures, they currently lack the ability to accurately control the dispersion of magnetic substances within t...
3D biomimetic constructs steer stem cell commitment by synergistic modulation o...
Teixeira, Simão P. B.; Pardo, Alberto; Bakht, Syeda M.; Gómez-Florit, Manuel; Reis, R. L.; Gomes, Manuela E.; Domingues, Rui Miguel AndradeTendon diseases are prevalent health concerns for which current therapies present limited success, in part due to the intrinsically low regenerative ability of tendons. Therefore, tissue engineering presents a potential to improve this outcome. Here, we hypothesize that a concurrent control over both biophysical and biochemical stimuli will boost the tenogenic commitment of stem cells, thus promoting regenerati...
3D writing of multicellular tendon-on-CNC-chip models
Monteiro, Rosa da Conceição Freitas; Bakht, Syeda Mahwish; Gómez-Florit, M.; Reis, R. L.; Gomes, Manuela E.; Domingues, Rui Miguel AndradeRelevant in vitro models emulating tendinopathies are highly needed to study these diseases and develop better treatments. We have recently proposed a new strategy that allows the automated 3D writing of microphysiological systems (MPS) embedded into its own biomimetic fibrillar support platform based on the self-assembling of cellulose nanocrystals (CNCs). Here, we explored this CNC platform for writing humani...
Hierarchical design of fibrous tissue-mimetic scaffolds
Pardo, Alberto; Gómez-Florit, Manuel; Davidson, Matthew D; Öztürk-Öncel, M. Özgen; Domingues, Rui Miguel Andrade; Burdick, Jason A..; Gomes, Manuela E.Most tissues of the human body present hierarchical fibrillar extracellular matrices that have a strong influence over their physicochemical properties and biological behavior. Of great interest is the introduction of this fibrillar structure to hydrogels, particularly due to the water-rich composition, cytocompatibility and tunable properties of this class of biomaterials. Here, the main bottom-up fabrication ...
Human tendon-on-chip: unveiling the effect of core compartment-t cell spatiotem...
Bakht, Syeda M.; Pardo, Alberto; Gómez-Florit, Manuel; Caballero, David; Kundu, Subhas C; Reis, R. L.; Domingues, Rui Miguel Andrade; Gomes, Manuela E.The lack of representative in vitro models recapitulating human tendon (patho)physiology is among the major factors hindering consistent progress in the knowledge-based development of adequate therapies for tendinopathy.Here, an organotypic 3D tendon-on-chip model is designed that allows studying the spatiotemporal dynamics of its cellular and molecular mechanisms.Combining the synergistic effects of a bioactiv...
Writing 3D In vitro models of human tendon within a biomimetic fibrillar suppor...
Monteiro, Rosa F.; Bakht, Syeda Mahwish; Gómez-Florit, Manuel; Stievani, Fernanda C.; Alves, Ana L. G.; Reis, R. L.; Gomes, Manuela E.Tendinopathies are poorly understood diseases for which treatment remains challenging. Relevant in vitro models to study human tendon physiology and pathophysiology are therefore highly needed. Here we propose the automated 3D writing of tendon microphysiological systems (MPSs) embedded in a biomimetic fibrillar support platform based on cellulose nanocrystals (CNCs) self-assembly. Tendon decellularized extra...
Outlook in tissue-engineered magnetic systems and biomagnetic control
Gonçalves, A I; Gomes, Manuela E.The advancement of tissue engineering strategies has opened up new therapeutic avenues in the regeneration of many musculoskeletal tissues and cell niches. The burst of research in nanotechnology associated with tissue engineering brings inputs for the precise control of cells and cellular environments, that can play an important role in the development of these new therapies. Magnetic actuation, especially in ...
Biocompatible 3D-printed tendon/ligament scaffolds based on polylactic acid/gra...
Silva, Magda Sofia Gonçalves; Gomes, Susana; Correia, Cátia Sofia Palma; Peixoto, Daniela; Vinhas, Carla Adriana Araújo; Rodrigues, Márcia T.Three-dimensional (3D) printing technology has become a popular tool to produce complex structures. It has great potential in the regenerative medicine field to produce customizable and reproducible scaffolds with high control of dimensions and porosity. This study was focused on the investigation of new biocompatible and biodegradable 3D-printed scaffolds with suitable mechanical properties to assist tendon an...
A dive into the bath: embedded 3D bioprinting of freeform in vitro models
Öztuerk-Öncel, M. Ö.; Leal-Martínez, Baltazar Hiram; Monteiro, Rosa F.; Gomes, Manuela E.; Domingues, Rui Miguel AndradeDesigning functional, vascularized, human scale in vitro models with biomimetic architectures and multiple cell types is a highly promising strategy for both a better understanding of natural tissue/organ development stages to inspire regenerative medicine, and to test novel therapeutics on personalized microphysiological systems. Extrusion-based 3D bioprinting is an effective biofabrication technology to engin...