Towards Regenerative Audiology: Immune Modulation of Adipose-Derived Mesenchymal Cells Preconditioned with Citric Acid-Coated Antioxidant-Functionalized Magnetic Nanoparticles

Abstract: Introduction and Background: Based on stem cells, bioactive molecules and supportive structures, regenerative medicine (RM) is promising for its potential impact on field of hearing loss by offering innovative solutions for hair cell rescue. Nanotechnology has recently been regarded as a powerful tool for accelerating the efficiency of RM therapeutic solutions. Adipose-derived mesenchymal cells (ADSCs) have already been tested in clinical trials for their regenerative and immunomodulatory potential in various … Show more

“…12 Another recent design has looked into modification of patterns and porosity to obtain desirable elasticity matching that of the cardiac tissue. 25 Due to its tunable mechanical properties, the ability to be micromolded to various 3D patterns, and degradation into immunomodulatory monomers (i.e., citric acid 103 and itaconate 104 ), PICO has a great potential for 108 and staples 109−111 were used in surgical applications for holding tissues together, stopping body fluids and enabling healing mechanisms. These methods not only require an expert surgeon to apply them, but they also promote chronic inflammation, 112 involve a risk of infection, 113 and are hard to apply depending on the mechanics of the tissue of interest.…”

“…Another recent design has looked into modification of patterns and porosity to obtain desirable elasticity matching that of the cardiac tissue . Due to its tunable mechanical properties, the ability to be micromolded to various 3D patterns, and degradation into immunomodulatory monomers (i.e., citric acid and itaconate), PICO has a great potential for application in scaffolds for various soft tissues and in vivo implantation. PICO degradation releases itaconate (ITA), which has demonstrated capacity as a small molecule to regulate inflammation but has been limited in efficacy through oral delivery due to rapid removal from circulation .…”

Elastomeric Polyesters in Cardiovascular Tissue Engineering and Organs-on-a-Chip

“…12 Another recent design has looked into modification of patterns and porosity to obtain desirable elasticity matching that of the cardiac tissue. 25 Due to its tunable mechanical properties, the ability to be micromolded to various 3D patterns, and degradation into immunomodulatory monomers (i.e., citric acid 103 and itaconate 104 ), PICO has a great potential for 108 and staples 109−111 were used in surgical applications for holding tissues together, stopping body fluids and enabling healing mechanisms. These methods not only require an expert surgeon to apply them, but they also promote chronic inflammation, 112 involve a risk of infection, 113 and are hard to apply depending on the mechanics of the tissue of interest.…”

“…Another recent design has looked into modification of patterns and porosity to obtain desirable elasticity matching that of the cardiac tissue . Due to its tunable mechanical properties, the ability to be micromolded to various 3D patterns, and degradation into immunomodulatory monomers (i.e., citric acid and itaconate), PICO has a great potential for application in scaffolds for various soft tissues and in vivo implantation. PICO degradation releases itaconate (ITA), which has demonstrated capacity as a small molecule to regulate inflammation but has been limited in efficacy through oral delivery due to rapid removal from circulation .…”

Elastomeric Polyesters in Cardiovascular Tissue Engineering and Organs-on-a-Chip