Drug Delivery Research Articles & Analysis
10 articles found
One notable application of chemical synthesis is in the development of lipid conjugates used in drug delivery systems. Researchers can design lipids with specific hydrophilicity and hydrophobicity, enhancing the bioavailability and targeting capability of therapeutic agents. ...
This property, known as bioactivity, makes it an ideal material for a wide range of medical applications, including bone repair, dental restoration, and even drug delivery. Composition and Properties Bioglass is primarily composed of silica (SiO2), sodium oxide (Na2O), calcium oxide (CaO), and phosphorus pentoxide (P2O5). ...
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This understanding has propelled research into therapeutic strategies aimed at enhancing repair mechanisms and developing stem cell therapies. ...
In the ever-evolving world of pharmaceutical development, the quest to innovate and improve the delivery of drug substances remains a top priority. Among the many formulation strategies, oral liquid formulations hold a special place, offering alternatives particularly appealing for specific populations and addressing unique formulation challenges. ...
Role of Liposomes in Drug Delivery The structure of liposomes, consisting of an aqueous core enclosed by a lipid bilayer, allows for the encapsulation of both hydrophilic and lipophilic drugs. ...
Dendrimers have attracted much attention in drug delivery, imaging, and materials science due to their unique structure, high monodispersity, and tunable properties. ...
Micelles and liposomes are both nanoscale carrier systems commonly used to improve drug delivery or cosmetic formulations. From their definitions, we can see that there are certain differences between the two. ...
These aren't fireflies, they're fluorescent liposomes, a cutting-edge tool in the world of drug delivery and biomedical research. What are liposomes? Liposomes are microscopic bubbles made from phospholipids, the same fatty molecules that make up cell membranes. ...
In 1998, Henry et al. of Georgia Institute of Technology in the United States applied microneedles to transdermal drug delivery research for the first time, making microneedle technology enter the formal drug delivery field and triggering an upsurge in the development of microneedle materials until finally ...
Because they exhibit many physical and chemical properties that traditional drug carriers do not have, it is a solution to traditional drug carriers in water solubility, targeting ability, biological toxicity and other issues, one of the most promising technologies, has attracted great attention of researchers in the field of medicine. ...