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Abstract
Social and economic development has driven considerable scientific and engineering
efforts on the discovery, development and utilization of polymers. Polylactic acid
(PLA) is one of the most promising biopolymers as it can be produced from nontoxic
renewable feedstock. PLA has emerged as an important polymeric material for biomedical
applications on account of its properties such as biocompatibility, biodegradability,
mechanical strength and process ability. Lactic acid (LA) can be obtained by fermentation
of sugars derived from renewable resources such as corn and sugarcane. PLA is thus
an eco-friendly nontoxic polymer with features that permit use in the human body.
Although PLA has a wide spectrum of applications, there are certain limitations such
as slow degradation rate, hydrophobicity and low impact toughness associated with
its use. Blending PLA with other polymers offers convenient options to improve associated
properties or to generate novel PLA polymers/blends for target applications. A variety
of PLA blends have been explored for various biomedical applications such as drug
delivery, implants, sutures and tissue engineering. PLA and their copolymers are becoming
widely used in tissue engineering for function restoration of impaired tissues due
to their excellent biocompatibility and mechanical properties. The relationship between
PLA material properties, manufacturing processes and development of products with
desirable characteristics is described in this article. LA production, PLA synthesis
and their applications in the biomedical field are also discussed.