Polymer blends and nanocomposites are widely explored for different biomedical applications such as biodegradable scaffolds, biosensors, implants and controlled drug release. Both, synthetic and semi-synthetic polymers are used in medical applications and have their inherent advantages and disadvantages. Synthetic polymers offer flexibility of varying monomer unit, molecular weight, branching and thus offer a diverse set of physico-mechanical properties, whereas natural polymers offer superior biocompatibility and biodegradation profile. Availability of polymer blending techniques adds another dimension to the property set that polymers can offer, and therefore polymer blending is often used to tailor biodegradability and physico-mechanical properties. Polymers, in general, have poor mechanical properties when compared to metals and ceramics, putting a load bearing limit on polymer-based medical implants. The addition of reinforcing/ functional filler is expected to overcome such disadvantages of polymers. Polymers composites are heterogeneous systems wherein polymers are compounded with micron or nano-size particles to render high strength, electrical conductivity or any other functional attribute. This chapter describes the technological aspects of polymer blends and nanocomposites with a specific reference to synthesis, characteristics and applications of multi-phasic polymer systems as implants, scaffolds, and controlled drug release matrices. A detailed account of synthetic and natural polymer nanocomposites along with a brief discussion on important nano-fillers used in medical applications and interface modification techniques is presented. Few examples of recently explored novel polymer blends and composites that displayed promising properties as implants, scaffolds, biosensors and control release matrices have also been discussed.
CITATION STYLE
Dubey, K. A., Chaudhari, C. V., Bhardwaj, Y. K., & Varshney, L. (2017). Polymers, blends and nanocomposites for implants, scaffolds and controlled drug release applications. In Advanced Structured Materials (Vol. 66, pp. 1–44). Springer Verlag. https://doi.org/10.1007/978-981-10-3328-5_1
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