Polymeric modification and its implication in drug delivery: poly-ε-caprolactone (PCL) as a model polymer.

Biodegradable polymers provided the opportunity to explore beyond conventional drug delivery and turned out to be the focus of current drug delivery. In spite of availability of diverse class of polymers, several of these polymers lack important physicochemical and biological properties, limiting their widespread application in pharmaceutical drug delivery. However, most polymers in the form of blends, copolymers and functionally modified polymers have exhibited their applicability to overcome specific limitations and to produce novel and/or functionalized formulations for drug delivery as well as tissue engineering. This review aims to provide the need of polymeric modification, approaches adopted to modify and their scope. Special emphasis has been given to synthetic polyester PCL, as it is widely demonstrated in its modified form to overcome its problem of hydrophobicity and much slower degradation over the past decade. Past studies show a significantly higher utility of modified form of PCL in comparison to its native form. From the statistical analysis of these modifications and the formulations prepared, we present a basic understanding of the impact of selective modifications on the formulation design. In conclusion, we remark that a thorough understanding of the polymer and its modification has a huge potential to be the future trend for drug delivery and tissue engineering applications.