Polymeric scaffolds in tissue engineering application: a review
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TLDR
An overview of the different types of scaffolds with their material properties is discussed and the fabrication technologies for tissue engineering scaffolds, including the basic and conventional techniques to the more recent ones, are tabulated.Abstract:
Current strategies of regenerative medicine are focused on the restoration of pathologically altered tissue architectures by transplantation of cells in combination with supportive scaffolds and biomolecules. In recent years, considerable interest has been given to biologically active scaffolds which are based on similar analogs of the extracellular matrix that have induced synthesis of tissues and organs. To restore function or regenerate tissue, a scaffold is necessary that will act as a temporary matrix for cell proliferation and extracellular matrix deposition, with subsequent ingrowth until the tissues are totally restored or regenerated. Scaffolds have been used for tissue engineering such as bone, cartilage, ligament, skin, vascular tissues, neural tissues, and skeletal muscle and as vehicle for the controlled delivery of drugs, proteins, and DNA. Various technologies come together to construct porous scaffolds to regenerate the tissues/organs and also for controlled and targeted release of bioactive agents in tissue engineering applications. In this paper, an overview of the different types of scaffolds with their material properties is discussed. The fabrication technologies for tissue engineering scaffolds, including the basic and conventional techniques to the more recent ones, are tabulated.read more
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Polyelectrolyte multi-layers assembly of SiCHA nanopowders and collagen type I on aminolysed PLA films to enhance cell-material interactions.
Yanny Marliana Baba Ismail,Yanny Marliana Baba Ismail,Ana Marina Ferreira,Oana Bretcanu,Kenneth Dalgarno,Alicia J. El Haj +5 more
TL;DR: In vitro human mesenchymal stem cells cultured on the coated PLA films confirmed that the coating materials greatly improved cell attachment and survival compared to unmodified PLA films, and this newly developed coating materials assembly could contribute to the improvement of the bioactivity of polymeric materials and structures aimed to bone tissue engineering applications.
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Fabrication of PLGA Based Tissue Engineering Scaffolds via Photocuring and Salt Leaching Techniques
TL;DR: It can be concluded that the scaffolds provided an effective physical support that allows cell adhesion and proliferation in porous scaffolds.
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In vitro static and dynamic cell culture study of novel bone scaffolds based on 3D-printed PLA and cell-laden alginate hydrogel
Reza Noroozi,Mohammad Amin Shamekhi,Reza Mahmoudi,Ali Zolfagharian,Fatemeh Asgari,Ali Mousavizadeh,Mahdi Bodaghi,Amin Hadi,Nooshin Haghighipour +8 more
TL;DR: It was shown that the composite scaffold could create more viability and cell proliferation in both dynamic and static cultures and that scaffolds in dynamic cell culture have a better biological response than in static culture.
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Natural Compounds for Skin Tissue Engineering by Electrospinning of Nylon-Beta Vulgaris.
Parviz Ranjbarvan,Matin Mahmoudifard,Mousa Kehtari,Ali Babaie,Shokoh Hamedi,Samaneh Mirzaei,Masoud Soleimani,Simzar Hosseinzadeh +7 more
TL;DR: It was found that compared with nylon nanofibrous scaffold, composite sample containing B. vulgaris extract has lower contact angle indicating a higher hydrophilic surface, which tries to introduce a new type of natural-based scaffolds for dermal tissue engineering that exhibits an elastic behavior similar to native skin tissue.
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Design and characterization of microcapsules-integrated collagen matrixes as multifunctional three-dimensional scaffolds for soft tissue engineering.
Loretta L. del Mercato,Laura Gioia Passione,Daniela Izzo,Rosaria Rinaldi,Alessandro Sannino,Francesca Gervaso +5 more
TL;DR: In vitro diffusional tests proved that the collagen scaffolds could stably retain the microcapsules over long incubation time in Tris-HCl buffer at 37°C without undergoing morphological changes, thus confirming their suitability for tissue engineering applications.
References
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