Composite Alginate Dialdehyde-Gelatin (ADA-GEL) Hydrogel Containing Short Ribbon-Shaped Fillers for Skeletal Muscle Tissue Biofabrication.
Lys SprengerHsuan-Heng LuSteffen TrippmacherUlrich MansfeldPavel MilkinLeonid IonovGeorg PapastavrouAldo Roberto BoccacciniSahar SalehiPublished in: ACS applied materials & interfaces (2024)
Skeletal muscle tissue can be severely damaged by disease or trauma beyond its ability to self-repair, necessitating the further development of biofabrication and tissue-engineering tools for reconstructive processes. Hence, in this study, a composite bioink of oxidized alginate (ADA) and gelatin (GEL) including cell-laden ribbon-shaped fillers is used for enhancing cell alignment and the formation of an anisotropic structure. Different plasma treatments combined with protein coatings were evaluated for the improvement of cell adhesion to poly(lactic- co -glycolic acid) (PLGA) ribbon surfaces. Oxygen plasma activation of 30 W for 5 min showed high immobilization of fibronectin as a protein coating on the PLGA ribbon surface, which resulted in enhanced cell adhesion and differentiation of muscle cells. Furthermore, the effect of various concentrations of CaCl 2 solution, used for ionic cross-linking of ADA, on ADA-GEL physical and mechanical properties as well as encapsulated C2C12 cell viability and proliferation behavior was investigated. The pore area was measured via two approaches, cryofixation and lyophilization, which, in accordance with degradation tests and mechanical analysis, showed that 60 mM CaCl 2 concentration is the optimum range for cross-linking of the formulation of ADA 2.5%w/v-GEL 3.75%w/v. These cross-linked hydrogels showed a compression modulus of 11.5 kPa (similar to the native skeletal muscle tissue), a high viability of C2C12 muscle cells (>80%), and a high proliferation rate during 7 days of culture. Rheological characterization of the ADA-GEL composite hydrogel containing short fillers (100 μm long) showed its suitability as a bioink with shear-thinning and flow behavior compared to ADA-GEL.
Keyphrases
- hyaluronic acid
- skeletal muscle
- tissue engineering
- cell adhesion
- wound healing
- induced apoptosis
- drug delivery
- insulin resistance
- signaling pathway
- single cell
- cell cycle arrest
- cell therapy
- physical activity
- stem cells
- cell death
- pseudomonas aeruginosa
- mesenchymal stem cells
- endoplasmic reticulum stress
- type diabetes
- oxidative stress
- pi k akt
- biofilm formation
- staphylococcus aureus
- bone marrow
- magnetic nanoparticles