What are the Uses Of PEG Derivatives & Polyethylene Glycols (PEGs)
Polyethylene glycols are polymers or hydrophilic oligomers generated from ethylene oxide, consisting of-( O-CH2-CH2)-repeating units. PEGs are produced in a wide range of molecular weights, referred to as "monodispersed" with the defined PEG molecular weight and chain size, or "polydispersed" polymers with the help of Gaussian distribution of molecular weights and chain lengths (Learn more the difference between monodispersed and polydispersed polymers). The ability to assign various reactive functional groups to the terminal sites of PEG polymers has extended their benefits. Homo and hetero bifunctional PEG derivatives are suitable as cross-linking agents or spacers within chemical organizations, where mono-functional PEGs protect bridging responses affecting the PEGylation of different compounds with bifunctional PEGs. The PEGylation method, covalent grafting of PEG derivative on molecules, enhances water biocompatibility and solubility, specifically used for drug development. PEGylated-based products require a enormous characterization with analytical and critical methods to endure regulatory compliance for the application of medicine. Bifunctional PEG derivatives are used continually in the PEGylation of proteins, peptides, small molecules such as mannose, folate, oligonucleotides, prodrugs, nanoparticles, cells, surfaces and particles of the disease. Multi-arm PEG derivatives operate in hydrogel formation for regulated therapy release in medical devices, regenerative medicine, and multiple applications involving wound healing and cell culture. Significant developments in research & development for innovative applications for PEGs were made by the scientific community in 2014.
Polyethylene Glycols Applications for the Targeted Diagnostics and Cancer Drug Delivery R&D efforts on innovative applications of PEG derivatives focus on drug delivery & targeted diagnostics through direct therapeutic PEGylation or PEG containing vehicles such as liposomes, micelles, nanoparticles and dendrimers. Significant parameters affecting