Investigation on the effect of alginate carboxymethylcellulose composition on the mechanical property of the scaffold for cultured meat application
Cultured meat is a developing technology to meet the increasing meat consumption of the growing population. In addition to reliving the strain on the food industry, it also provides a cleaner alternative to food production. However, for the cultured meat to be appealing to the wider consumers, or...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2024
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| Online Access: | https://hdl.handle.net/10356/175389 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Cultured meat is a developing technology to meet the increasing meat consumption of the
growing population. In addition to reliving the strain on the food industry, it also provides a
cleaner alternative to food production. However, for the cultured meat to be appealing to the
wider consumers, organized structured meat with sufficient fat content should be developed.
To achieve this, a well characterized scaffold with suitable modulus is necessary. For the
present study, a clean and edible hydrogel scaffold was synthesized using Alginate and
Carboxymethylcellulose (CMC), two widely available plant-based materials and are
crosslinked using calcium chloride. To regulate the mechanical property of the substrate, the
CMC concentration was varied and its effect on the gel’s rheology, porosity and swelling
behaviour was evaluated. Rheological study of the synthesized hydrogel did not exhibit a
significant increase in the storage modulus despite the increase in CMC concentration from
1% to 2% weight. The rheological results also indicated a plateau of the storage modulus
after 2 weeks of crosslinking for alginate composition without or less than 2% weight of
CMC. Inversely, the porosity and swelling ratio of the hydrogel was shown to significantly
increased with CMC concentration. The study also found the presence of CMC in alginate
scaffold improved the cells viability of C2C12 myoblast. Additionally, the addition of
adipogenesis factors did not adversely affect the proliferation of adipose-derived stem cells
(ADSCs) in alginate-CMC matrix and enhanced adipogenesis of ADSCs. These finding
suggests that the composition of alginate and CMC exhibited attractive qualities for
adipogenesis and further examination of ADSCs cell differentiation on the hydrogel substrate
are needed to ascertain the scaffold performance. |
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