Development of branched polyphenolic poly(beta amino esters) to facilitate post ‐synthesis processing

AbstractGiven their versatility and formability, polymers have proven to be a viable platform facilitating a controlled and tuned release for a variety of therapeutic agents. One growing area of polymer drug delivery is polymeric prodrugs, which covalently link active pharmaceutical ingredients to a polymeric form to enhance stability, delivery, and pharmacology. One such class of polymeric prodrugs, poly(beta amino esters) (P βAEs) can be synthesized into crosslinked, or “thermoset,” networks which greatly limits their processability. An antioxidant-PβAE polymer prodrug that is soluble in organic solutions would permit enhanced processability, increasing their utility and manufacturability. Curcumin PβAEs were syn thesized to be soluble in organic solvents while retaining the release and activity properties. To demonstrate the polymer processability, curcumin PβAEs were further synthesized into nanoparticles and thin films. Control over nanoparticle size and film thickness was established through variance of dope solution concentration and withdrawal speed, respectively. Layering of polymeric films was demonstrated through inkjet printing of thin films. Polymer function was characterized through curcumin release and antioxidant activity. The processing of the polymer had a drastic impact on the curcumi n release profiles indicating the polymer degradation was influenced by surface area and porosity of the final product. Previously, release was controlled primarily th...
Source: Journal of Biomedical Materials Research Part B: Applied Biomaterials - Category: Materials Science Authors: Tags: RESEARCH ARTICLE Source Type: research