2022
DOI: 10.1007/s13726-022-01059-3
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A cellular cardiac matrix-based porous microcarrier as a cell delivery system in myocardial tissue engineering application

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Cited by 3 publications
(1 citation statement)
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“…75 To address these limitations, exploiting suitable scaffolds is an effective strategy to shelter the stem cells and enhance their survival while controlling their fate. 77 Among different types of reported scaffolds, hydrogel-based biomaterials represent one of the most promising candidates for stem cell transplantation due to their capacity of retaining the cells in the infarcted site within a biomimetic microenvironment. 78 This section focuses on in-situ forming injectable dECM-based hydrogels as a minimally invasive treatment for the regeneration and repair of cardiac tissue.…”
Section: Decm In Regenerative Medicinementioning
confidence: 99%
“…75 To address these limitations, exploiting suitable scaffolds is an effective strategy to shelter the stem cells and enhance their survival while controlling their fate. 77 Among different types of reported scaffolds, hydrogel-based biomaterials represent one of the most promising candidates for stem cell transplantation due to their capacity of retaining the cells in the infarcted site within a biomimetic microenvironment. 78 This section focuses on in-situ forming injectable dECM-based hydrogels as a minimally invasive treatment for the regeneration and repair of cardiac tissue.…”
Section: Decm In Regenerative Medicinementioning
confidence: 99%