Nanocomposite Biodegradable Polymers: Preparation and the Analysis of Heating, Degradation, and Drug Release
AIChE Annual Meeting
2007
2007 Annual Meeting
Education
Student Poster Session: Food, Pharmaceutical & Biotechnology
Monday, November 5, 2007 - 8:30am to 11:00am
Biodegradable polymers are extremely versatile materials that can be used in many applications, but current materials exhibit degradation profiles that are pre-programmed. Thus, there is limited or no ability to modulate the degradation once it is applied (e.g., implant, subcutaneous injection, etc.). In this research, nanocomposite biodegradable polymers have been designed and developed that exhibit degradation profiles that can be remotely controlled by an alternating magnetic field. In particular, poly(lactide-co-glycolide) films and biodegradable hydrogel films have been prepared that contain iron oxide nanoparticles as well as several model drugs. The magnetic nanoparticles allow heating of the films, which can therefore affect many of the other properties of the polymer (e.g., degradation rate). Thus, the degradation driven drug release can be controlled by altering the degradation rate through remotely heating the nanoparticles.
PLGA films with and without nanoparticles (and drugs) were successfully prepared. The heating due to the particles was then studied, degradation rates of the films were analyzed, and finally several drug release studies were conducted using UV-Vis analysis. In addition biodegradable hydrogel nanocomposite films containing iron oxide nanoparticles were synthesized, and their heating properties and temperature dependent degradation were studied. As with the PLGA, different drug molecules were incorporated into these hydrogel systems, and the release was studied using the same methods as described above.