Coacervate Micoparticles Useful for the Sustained Release of Therapeutic Agents


Polymer matrix-based sustained-release formulations have gained significant interest in recent years for both parenteral and delivery of small molecules as well as proteins and other biological molecules.  Compared to conventional dosage forms, these delivery systems offer improved efficacy, reduced toxicity, convenience and improved patient compliance.  Colloidal carriers such as microparticles are considered a promising approach for targeting drugs to specific organs that could permit the sustained release at the target site and reduce potential side effects. 

Matrix-structured microparticles that are formed by coacervation are desirable since they permit therapeutic agents to become incorporated into the microparticles under mild conditions (e.g. delivery of nucleic acids). 

Researchers at the National Institute on Aging (NIA) have discovered novel microparticles that are formed using a coacervation process, methods of forming the microparticles (with enhanced efficiency for microparticle sustained release compositions), and methods of using the microparticles for the sustained release administration of therapeutic agents (coacervate microparticles can be standardized and employed for the delivery of a variety of therapeutic agents).



Potential Commercial Applications: Competitive Advantages:
  • Hematology and oncology opportunities to develop sustained release or extended release formulations of chemotherapeutic drugs 
  • Pain management
 
  • Enhanced efficacy of therapeutic agents
  • Reduced toxicity of therapeutic agents
  • Improved patient compliance


Development Stage:
Basic (Target Identification)

Inventors:

Phillip Heller (NIA)  ➽ more inventions...


Intellectual Property:

Collaboration Opportunity:

Licensing and research collaboration


Licensing Contact:
John Hewes, Ph.D.
Email: John.Hewes@nih.gov
Phone: 240-276-5515

OTT Reference No: E-116-2004
Updated: Jun 28, 2017