2019
DOI: 10.3390/biom9110750
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Biomaterials for In Situ Tissue Regeneration: A Review

Abstract: This review focuses on a somewhat unexplored strand of regenerative medicine, that is in situ tissue engineering. In this approach manufactured scaffolds are implanted in the injured region for regeneration within the patient. The scaffold is designed to attract cells to the required volume of regeneration to subsequently proliferate, differentiate, and as a consequence develop tissue within the scaffold which in time will degrade leaving just the regenerated tissue. This review highlights the wealth of inform… Show more

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Cited by 171 publications
(146 citation statements)
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References 160 publications
(144 reference statements)
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“…Nevertheless, the specified features of biomaterials (e.g., pore size or mechanical strength) are closely associated with their future applications. For instance, biomaterials for skin TE may possess lower mechanical strength compared to scaffolds dedicated for bone TE [9][10][11]13,17,18,31,33,196,[199][200][201].…”
Section: Application Of Polymer Scaffolds Modified With Proteins and mentioning
confidence: 99%
“…Nevertheless, the specified features of biomaterials (e.g., pore size or mechanical strength) are closely associated with their future applications. For instance, biomaterials for skin TE may possess lower mechanical strength compared to scaffolds dedicated for bone TE [9][10][11]13,17,18,31,33,196,[199][200][201].…”
Section: Application Of Polymer Scaffolds Modified With Proteins and mentioning
confidence: 99%
“…For this reason, the development of vascular tissue engineering strategies has gained attention, harnessing the cells/humans' own regeneration capacity. In particular, in situ regeneration strategies are based on inducing the adhesion and proliferation of endothelial cells to generate a lining of healthy non-thrombogenic endothelium on the synthetic vessel graft surface (i.e., endothelialization) [14,15].…”
Section: Introductionmentioning
confidence: 99%
“…The advantages of synthetic biomaterials include tunable and reproducible properties, such as stiffness, degradation rate, swelling rate. Synthetic biomaterials such as poly(lactic-co-glycolic acid) (PLGA) and polyethylene glycol (PEG) are often used to fabricate 3D scaffolds [ 77 ]. In order to present biochemical cues close to those in the in vivo environment, composite biomaterials consisting of both synthetic and natural polymers with physical or chemical interactions have been developed.…”
Section: Biomaterials Systems Employed In Hepatic Differentiation Omentioning
confidence: 99%