2020
DOI: 10.3389/fphar.2019.01534
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Scaffold-Based Gene Therapeutics for Osteochondral Tissue Engineering

Abstract: Significant progress in osteochondral tissue engineering has been made for biomaterials designed to deliver growth factors that promote tissue regeneration. However, due to diffusion characteristics of hydrogels, the accurate delivery of signaling molecules remains a challenge. In comparison to the direct delivery of growth factors, gene therapy can overcome these challenges by allowing the simultaneous delivery of growth factors and transcription factors, thereby enhancing the multifactorial processes of tiss… Show more

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Cited by 34 publications
(30 citation statements)
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“…Further, compared with recombinant growth factors that exhibit half-life in the range of minutes and a rapid inactivation in physiological conditions, gene therapy offers the possibility of directly transferring genes encoding for the therapeutic factor into the target cell population [20]. Therefore, by transfecting specific gene sequences into cells, overexpressing, or silencing the original gene, their biological functions can be regulated to achieve the desired effect [21].…”
Section: Requirements For Localized Gene Delivery In Tissue Regenerationmentioning
confidence: 99%
“…Further, compared with recombinant growth factors that exhibit half-life in the range of minutes and a rapid inactivation in physiological conditions, gene therapy offers the possibility of directly transferring genes encoding for the therapeutic factor into the target cell population [20]. Therefore, by transfecting specific gene sequences into cells, overexpressing, or silencing the original gene, their biological functions can be regulated to achieve the desired effect [21].…”
Section: Requirements For Localized Gene Delivery In Tissue Regenerationmentioning
confidence: 99%
“…A comprehensive review of recent advances in cartilage tissue engineering based on scaffolds combined with different genetically modified MSCs is found in our previous work (Yan et al, 2019). In this section, the focal point is the latest research progress in supramolecular hydrogels in cartilage tissue engineering applications.…”
Section: Supramolecular Hydrogels For Cartilage Tissue Engineeringmentioning
confidence: 99%
“…Because nucleic acids require effective cell uptake to pass through cell membrane and cytoplasm for efficient transfection and expression, vectors are required for effectively delivering gene of interest for cartilage regeneration [ 8 ]. As a bridge of exogenous target genes enter cells to induce cartilage regeneration in situ , the vectors in delivery system directly determine the success or failure of treatment.…”
Section: Polymeric Gene Delivery Vectors For Cartilage Repairmentioning
confidence: 99%
“…All these drawbacks led to the emergence of tissue engineered cartilage grafts, which have given many promising results and tremendous progress. However the generation of ideal biomimetic synthetic chondral and osteochondral replacements is still elusive, and in fact, many challenges remain [ 7 , 8 ]. For example, 1) the recombinant proteins used in tissue engineering are expensive and have a short half-life; 2) the unstable generation of chondrocyte phenotypes and the mechanical properties of engineered cartilage are hardly consistent with peripheral cartilage, which may vary greatly with age, weight, or tissue location; 3) it is difficult to achieve simultaneous differentiation into bone and cartilage, resulting in ineffective integration with surrounding normal tissue and subchondral bone.…”
Section: Introductionmentioning
confidence: 99%
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