Nanoformulated phytochemicals in skin anti-aging research: an updated mini review.

Skin aging is characterized by progressive loss of functionality and regenerative potential of the skin, resulting in the appearance of wrinkles, irregular pigmentation, a decrease of elasticity, dryness, and rough texture. Damage to the skin caused by oxidative stress could substantially be slowed down by the use of phytochemicals that function as natural antioxidants. Although phytochemicals have immense potential as anti-aging medicines, their effectiveness as therapeutic agents is restricted by their poor solubility, biodistribution, stability, and hydrophilicity.

Current advances in the development of microRNA-integrated tissue engineering strategies: a cornerstone of regenerative medicine.

Regenerative medicine is an innovative scientific field focused on repairing, replacing, or regenerating damaged tissues and organs to restore their normal functions. A central aspect of this research arena relies on the use of tissue-engineered scaffolds, which serve as structural supports that mimic the extracellular matrix, providing an environment that orchestrates cell growth and tissue formation. Remarkably, the therapeutic efficacy of these scaffolds can be improved by harnessing the properties of other molecules or compounds that have crucial roles in healing and regeneration pathways, such as phytochemicals, enzymes, transcription factors, and non-coding RNAs (ncRNAs).

Mechanoluminescence, thermoluminescence, optically stimulated luminescence and photoluminescence in SrAlO:Eu micro- and nanophosphors: effect of particle size and annealing in different atmospheres.

SrAlO:Eu in microcrystalline form was prepared by a combustion method. The formation of the material in a single phase was confirmed by XRD analysis. The material was crushed and sieved to get particles with different particle size ranges.