Abstract:
Nanotechnology is an approach where nanoscale materials are biomedically used for the prevention of various diseases and infections. Their smaller size and larger surface area make them appropriate for various applications. Nanomaterials have immense potential for being used intrinsically or as nanocarriers to accelerate the process of wound healing and prevent any further bacterial contamination. In recent decades, research on nano-based therapies has reduced the incidence of acute and chronic infections which may lead to life-threatening situations if left untreated. Nanomaterials exist in various forms and structures such as nanospheres, nanocolloids, nanoemulsions, nanocapsules, and nanocarriers, which can be fabricated using different technologies such as electrospinning and further could be potentially used as antimicrobial agents. In this chapter, we have demonstrated the advantages of using nanoparticles combined with traditional methodologies. Besides, we have elucidated the innovative strategies which use nanomaterials as either organic or inorganic nanoparticles. Further in-depth analytical reviews and future clinical experiments are necessarily required because existing wound healing therapies are not sufficient to provide excellent outcomes.