Controlled Drug Release Articles & Analysis
13 articles found
Linker Optimization: The linker serves a crucial function in maintaining stability, controlling drug release, and ensuring effective delivery of the cytotoxic drug. ...
They are widely used in the pharmaceutical and biotechnology industries for drug delivery, controlled release systems, and other applications due to their unique properties and versatility. ...
The field of pharmaceuticals has seen rapid advancements in drug delivery technologies in recent years, one of which is long-lasting controlled-release microspheres technology. ...
In SN38-BSA bioconjugate, a type of bioconjugate called a protein-drug conjugate is created. Here, the drug (SN38) is directly linked to BSA. ...
Transdermal drug delivery formulations include creams, applicators, skeleton-type patches, membrane-controlled patches, microemulsions, liposomes, etc., which can produce local or systemic effects. ...
Polymer nanoparticles can also be engineered to release drugs in a controlled manner, increasing their efficacy and reducing potential side effects. ...
EVA also offers good flexibility, biocompatibility, and controlled drug release, making it a preferred choice in transdermal patches. Polypropylene Polypropylene is another excipient commonly employed in transdermal drug delivery systems due to its excellent barrier properties. It acts as a protective layer by preventing ...
Microencapsulation technology has revolutionized drug delivery systems, allowing for the protection and controlled release of therapeutic agents. ...
Polylactic acid and its copolymers can be made into specific pharmaceutical dosage forms based on the nature of the drug, the release requirements, and the route of administration. For example, the release rate of the drug can be adjusted by selecting lactic acid copolymers with different molecular weights and different ...
For example, in an extracorporeal circulation device, enzymes are used to remove blood waste to prevent thrombosis and enzyme-controlled drug release systems in the body. In addition, enzymes, as clinical in vitro detection reagents, can quickly, sensitively and accurately determine certain metabolites in the body, and will also be an important ...
For example, in extracorporeal circulation devices, enzymes are used to remove blood waste, prevent thrombosis, and enzyme-controlled drug release systems in the body. In addition, enzymes, as clinical in vitro detection reagents, can quickly, sensitively and accurately determine certain metabolites in the body, which will also be an important ...
Considerable investment into cancer research has led to the development of remarkable new therapies, which have greatly improved therapeutic outcome for the countless individuals diagnosed with cancer. Until recently, almost all therapies that were granted clinical approval were small molecules. However, biotechnological advances in the last several decades have made it possible to develop ...
The chemical structure of the hydrogels was confirmed by means of attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR). In all cases, drug dissolution analysis showed that the active agent was released at a slower rate with hydrogels that contained acrylic acid.Keywords: drug dissolution, hydrogels, wound healing, ...