Lipid Engineered Nanoparticle Therapy for Burn Wound Treatment

Abstract: Introduction: Skin is the largest organ of the human body protecting the underlying organs and tissues from any foreign attack. Any damage caused in the skin may sometimes result in serious consequences within the internal body tissues. Burn is one such issue that damage the layers of skin and thereby makingthe skin vulnerableand pronefor any foreign matter to enter and cause serious diseases. Methods: An online literature assessment was steered for the lipid nanoparticles, burn wound treatments, and differ… Show more

“…More findings have been approved that suggest that the incorporation of bioactive materials inside the lipid core enhances their permeation properties and protects the active entity from pH and enzymatic degradation [87]. Here is an example for illustration: thymosin β-4 (Tβ-4) is a macromolecular peptide medication that increases the rate of dermal healing, tissue repair, and skin regeneration; however, its usage is limited due to poor membrane permeability and unstable physicochemical characteristics.…”

A Narrative Review of the Potential Roles of Lipid-Based Vesicles (Vesiculosomes) in Burn Management

“…More findings have been approved that suggest that the incorporation of bioactive materials inside the lipid core enhances their permeation properties and protects the active entity from pH and enzymatic degradation [87]. Here is an example for illustration: thymosin β-4 (Tβ-4) is a macromolecular peptide medication that increases the rate of dermal healing, tissue repair, and skin regeneration; however, its usage is limited due to poor membrane permeability and unstable physicochemical characteristics.…”

A Narrative Review of the Potential Roles of Lipid-Based Vesicles (Vesiculosomes) in Burn Management

Stimuli-responsive chitosan-based nanocarriers for drug delivery in wound dressing applications: A review