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Current efforts to treat myocardial infarction include the delivery of cells and matrix scaffolds.
Appropriate carrier scaffolds for delivery of cells and drugs play a crucial role in tissue engineering and regenerative medicine.
This aspect is important for the delivery of cells or biomolecules in bone tissue engineering.
Here we report the successful fabrication and characterization of a covalently-crosslinked 3D pure sericin hydrogel for delivery of cells and drugs.
Current cell-based clinical trials to restore cardiomyocyte (CM) health by local delivery of cells have shown only moderate benefit in improving cardiac pumping capacity.
Delivery of cells can be achieved using injectable matrices, soft scaffolds, membranes, solid load-bearing scaffolds or immunoprotective macroencapsulation.
These materials are used to facilitate the delivery of cells or drugs to diseased, damaged, or absent tissue.
Their success partially depends on accurate delivery of cells to target organs or migration to lymph nodes.
Click alginate hydrogels combine the numerous benefits of alginate hydrogels with powerful bioorthogonal click chemistry for use in tissue engineering applications involving the stable encapsulation or delivery of cells or bioactive molecules.
This approach to controlling the gelation behavior using only cells and cell-interactive polymers could be useful for delivery of cells and therapeutics in biomedical applications.
Hydrogels are attractive carriers for delivery of cells in tissue engineering as cell/polymer constructs can be injected into the body in a minimally invasive manner.
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CEO of Professional Science Editing for Scientists @ prosciediting.com