Add to ORKGA method for preparing biodegradable microspheres having a three-dimensional network in which biologically active macromolecular agents are physically entrapped therein. The microsphere is able to degrade and release the macromolecular agent at a controlled rate. The method involves emulsifying a vinyl derivative of a biodegradable hydrophilic polymer, a water-soluble monovinyl monomer and a biologically active macromolecule in water, and copolymerizing the biodegradable hydrophilic polymer and the water-soluble monovinyl monomer such that the biologically active macromolecule is entrapped therein
Polymers are becoming preferred materials in biomedical applications because of their vast diversity...
A novel method for in situ preparation of injectable biodegradable microspheres from the copolymer p...
Porous polymer microspheres are employed in biotherapeutics, tissue engineering, and regenerative me...
The initial objective of this work was to evaluate and introduce fabrication techniques based on W/0...
A drug delivery system for controlled release of a protein or polypeptide comprising a hydrophobic b...
Controlled release drug delivery systems comprised of spherical microporous polymeric network of int...
Multi-phase polymeric microspheres containing a molecular compound dispersed in a polymeric matrix a...
Drug delivery via biodegradable microparticles benefits from both the protection of the encapsulated...
Microsphere as a drug carrier is one of the method of delivering therapeutic agent to the target sit...
This work describes the fabrication of nanospheres from a range of novel polyhydroxyalkanoates suppl...
AbstractIn this work, biodegradable polymers have been successfully used to encapsulate proteins and...
In this project, antigen-containing microspheres were produced using a range of biodegradable polyme...
The recent progress in understanding the erosion of biodegradable polymers and the manufacturing of ...
Pharmaceutical peptides/proteins have proven to be potent molecules for the treatment of a great var...
Poly(lactide-co-glycolide), or PLGA, microspheres offer a widely-studied biodegradable option for co...
Polymers are becoming preferred materials in biomedical applications because of their vast diversity...
A novel method for in situ preparation of injectable biodegradable microspheres from the copolymer p...
Porous polymer microspheres are employed in biotherapeutics, tissue engineering, and regenerative me...
The initial objective of this work was to evaluate and introduce fabrication techniques based on W/0...
A drug delivery system for controlled release of a protein or polypeptide comprising a hydrophobic b...
Controlled release drug delivery systems comprised of spherical microporous polymeric network of int...
Multi-phase polymeric microspheres containing a molecular compound dispersed in a polymeric matrix a...
Drug delivery via biodegradable microparticles benefits from both the protection of the encapsulated...
Microsphere as a drug carrier is one of the method of delivering therapeutic agent to the target sit...
This work describes the fabrication of nanospheres from a range of novel polyhydroxyalkanoates suppl...
AbstractIn this work, biodegradable polymers have been successfully used to encapsulate proteins and...
In this project, antigen-containing microspheres were produced using a range of biodegradable polyme...
The recent progress in understanding the erosion of biodegradable polymers and the manufacturing of ...
Pharmaceutical peptides/proteins have proven to be potent molecules for the treatment of a great var...
Poly(lactide-co-glycolide), or PLGA, microspheres offer a widely-studied biodegradable option for co...
Polymers are becoming preferred materials in biomedical applications because of their vast diversity...
A novel method for in situ preparation of injectable biodegradable microspheres from the copolymer p...
Porous polymer microspheres are employed in biotherapeutics, tissue engineering, and regenerative me...