2022
DOI: 10.3390/gels8060387
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Tuning Myogenesis by Controlling Gelatin Hydrogel Properties through Hydrogen Peroxide-Mediated Cross-Linking and Degradation

Abstract: Engineering skeletal muscle tissue in vitro is important to study the mechanism of myogenesis, which is crucial for regenerating muscle cells. The physicochemical properties of the cellular microenvironment are known to govern various cell behaviours. Yet, most studies utilised synthetic materials to model the extracellular matrix that suffers from cytotoxicity to the cells. We have previously reported that the physicochemical property of hydrogels obtained from horseradish peroxidase (HRP)-catalysed cross-lin… Show more

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Cited by 13 publications
(21 citation statements)
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“…Benefits of H 2 O 2 sterilization are similar to those of other chemical sterilants, including relatively low operating temperatures and better compatibility with heat sensitive polymers. , Compared to EtO gas, however, vaporized H 2 O 2 has less effective penetration of porous scaffolds ,,,, Furthermore, although deliberate H 2 O 2 incorporation the in polymeric scaffold may be leveraged for certain drug delivery or tissue engineering applications, the hydroxyl free radical generated during H 2 O 2 sterilization has the potential to oxidatively cross-link polymers, resulting in deleterious changes. ,, Studies characterizing the morphological and biochemical changes induced by H 2 O 2 sterilization in UHMWPE revealed changes similar to those induced by gamma irradiation, including embrittlement . H 2 O 2 sterilization has also been observed to induce mechanical and degradative property changes to degradable polymers such as PLA. ,, Lastly, it is of note that H 2 O 2 sterilization was found to be ineffective when paired with cellulose-based products due to the high tendency of cellulose to absorb H 2 O 2 , thereby reducing its effective concentration .…”
Section: Fda Established Sterilization Methodsmentioning
confidence: 99%
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“…Benefits of H 2 O 2 sterilization are similar to those of other chemical sterilants, including relatively low operating temperatures and better compatibility with heat sensitive polymers. , Compared to EtO gas, however, vaporized H 2 O 2 has less effective penetration of porous scaffolds ,,,, Furthermore, although deliberate H 2 O 2 incorporation the in polymeric scaffold may be leveraged for certain drug delivery or tissue engineering applications, the hydroxyl free radical generated during H 2 O 2 sterilization has the potential to oxidatively cross-link polymers, resulting in deleterious changes. ,, Studies characterizing the morphological and biochemical changes induced by H 2 O 2 sterilization in UHMWPE revealed changes similar to those induced by gamma irradiation, including embrittlement . H 2 O 2 sterilization has also been observed to induce mechanical and degradative property changes to degradable polymers such as PLA. ,, Lastly, it is of note that H 2 O 2 sterilization was found to be ineffective when paired with cellulose-based products due to the high tendency of cellulose to absorb H 2 O 2 , thereby reducing its effective concentration .…”
Section: Fda Established Sterilization Methodsmentioning
confidence: 99%
“…2,35,65 Benefits of H 2 O 2 sterilization are similar to those of other chemical sterilants, including relatively low operating temperatures and better compatibility with heat sensitive polymers. 2,34 Compared to EtO gas, however, vaporized H 2 O 2 has less effective penetration of porous scaffolds 2,34,35,65,66 Furthermore, although deliberate H 2 O 2 incorporation the in polymeric scaffold may be leveraged for certain drug delivery 67 or tissue engineering applications, 68 the hydroxyl free radical generated during H 2 O 2 sterilization has the potential to oxidatively cross-link polymers, resulting in deleterious changes. 35,68,69 Studies characterizing the morphological and biochemical changes induced by H 2 O 2 sterilization in UHMWPE revealed changes similar to those induced by gamma irradiation, including embrittlement.…”
Section: Class B Terminal Sterilizations 221 Hydrogen Peroxide Gas Pl...mentioning
confidence: 99%
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“…High-rate functionality of enzymes in physiological conditions and specific biocatalyst activity on certain substrates can reduce the side effects of applied substrates [ 184 ]. In general, the selection of enzymes for chemical cross-linking is based on the recognition of a specific substrate involved in the progression of a polymeric network [ 185 , 186 ]. Among different enzymes, tyrosinase is a copper-based enzyme that generates covalent linkages via the oxidation of phenolic groups of tyrosine following the production of quinones [ 187 , 188 ].…”
Section: Chemical and Non-chemical Cross-linking In Scaffold Synthesismentioning
confidence: 99%
“…This Special Issue focuses on the modification of hydrogels and their applications in biomedical engineering, aiming to provide a reference for scholars in related fields. Up until now, ten research articles and one review article have been collected, which mainly involve the application of hydrogels in biomedical fields such as phantoms [ 1 ], wound healing [ 2 , 3 ], skin [ 4 ], cartilage [ 5 , 6 ], muscle [ 7 ], and drug loading [ 8 , 9 , 10 ].…”
mentioning
confidence: 99%