2018
DOI: 10.1557/adv.2018.104
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Drug Delivered Poly(ethylene glycol) Diacrylate (PEGDA) Hydrogels and Their Mechanical Characterization Tests for Tissue Engineering Applications

Abstract: Tissue Engineering has been studied to develop tissues as an alternative approach to the organ regeneration. Successful artificial tissue growth in regenerative medicine depends on the precise scaffold fabrication as well as the cell-cell and cell-scaffold interaction. Scaffolds are extracellular matrices that guide cells to grow in 3D to regenerate the tissues. Cell-seeded scaffolds must be implanted to the damaged tissues to do the tissue regeneration. Scaffolds’ mechanical properties and porosities are the … Show more

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Cited by 14 publications
(11 citation statements)
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“…The modulus is as expected, similar to those observed for conventional glassy polymers such as PS and P2VP. The addition of PEGDA, and water making an interpenetrating hydrogel having an effective modulus of a few MPa, into QP2VP domains greatly reduced the effective modulus (33), and thus, IHN BCP PCs with full-visible-range SC exhibited moduli an order of magnitude lower of 300 to 500 MPa, as shown in Fig. 2I.…”
Section: Resultsmentioning
confidence: 98%
“…The modulus is as expected, similar to those observed for conventional glassy polymers such as PS and P2VP. The addition of PEGDA, and water making an interpenetrating hydrogel having an effective modulus of a few MPa, into QP2VP domains greatly reduced the effective modulus (33), and thus, IHN BCP PCs with full-visible-range SC exhibited moduli an order of magnitude lower of 300 to 500 MPa, as shown in Fig. 2I.…”
Section: Resultsmentioning
confidence: 98%
“…Poly­(ethylene glycol) diacrylate (PEGDA) is a well-known hydrogel polymer that is frequently used in biomaterial applications. PEGDA hydrogels have limited immune response, low cytotoxicity, low levels of protein and cellular adhesion, and can be designed to have physical properties similar to tissue. They have been used as biomaterials for drug delivery, injectable therapeutics, , and regenerative medicine. Beyond the overall biocompatibility and important surface properties, PEGDA is also highly customizable, and bioactive molecules are easily incorporated into the hydrogel.…”
Section: Introductionmentioning
confidence: 99%
“…1 H DQ NMR experiments gave access to the dipolar residual constant D res , which was proportional to the slope of the I nDQ signal and was associated to an average local dynamic segmental orientation parameter. Most importantly, D res was proportionally and directly related to the cross-link density ν C (i.e., comprising both the chemical cross-links and physical entanglements) as described by Equation (2) [ 36 , 38 , 39 ]: where D stat is the static dipolar coupling constant and k a proportionality factor related to the networks Kuhn length (i.e., distance between two chemical or physical nodes). In this work, the values for k and D stat were not obtained as the numerical value of D res gave a good insight into the material’s cross-link density.…”
Section: Resultsmentioning
confidence: 99%
“…Samples were synthesized by photoirradiation in the presence of a photoinitiator, DMPA. PEGDA is a highly hydrophilic and biocompatible polymer [ 35 ] that has already been used to produce materials for biological applications, drug delivery [ 36 ], and tissue engineering [ 37 ]. The PHA x PEGDA 1−x networks obtained in this work were studied by FTIR, Raman spectroscopy, DSC, and TGA to assess the structures and properties of these materials.…”
Section: Introductionmentioning
confidence: 99%