Pharma Polymers

This paper reviews biodegradable synthetic polymers fo- cusing on their potential in tissue engineering applications. The major classes of polymers are briefly discussed with regard to synthesis, properties and biodegradability, and known degradation modes and products are indicated based on studies reported in the literature. A vast major- ity of biodegradable polymers studied belongs to the poly- ester family, which includes polyglycolides and polylactides.

Polymer scientists, working closely with those in the device and medical fields, have made tremendous advances over the past 30 years in the use of synthetic materials in the body. In this article we will focus on properties of biodegradable polymers which make them ideally suited for orthopedic applications where a permanent implant is not desired. The materials with the greatest history of use are the poly(lactides) and poly(glycolides), and these will be covered in specific detail.

PolyActive is a biodegradable polymeric drug delivery system. Its biodegradability, extensive safety record and linear release properties make PolyActive an excellent technology for the controlled release of proteins and lipophilic small molecules.
Products based on PolyActive can be used for both local and systemic administration, and have applications in pharmaceutics and medical technology.

During the resorbable-polymer-boom of the 1970s and 1980s, polycaprolactone (PCL) was used extensively in the biomaterials field and a number of drug-delivery devices. Its pop- ularity was soon superseded by faster resorbable polymers which had fewer perceived disadvantages associated with long-term degradation (up to 3–4 years) and intracellular resorption pathways; consequently, PCL was almost forgotten for most of two decades. Recently, a resurgence of interest has propelled PCL back into the biomaterials-arena.

Mouth dissolving films is a new drug delivery system for oral route. This delivery system consists of a very thin oral strip, which is simply placed on the patients tongue or any oral mucosal tissue, instantly wet by saliva, film rapidly hydrates and then disintegrates and/or dissolve to release the medication. In the formulation of oral film, the most important ingredient is polymer which helps in film formation. Mainly hydrophilic polymers are used in mouth dissolving films.