Implant-related infections (IRIs) which led to a large amount of medical expenditure were
caused by bacteria and fungi that involve the implants in the operation or in ward. Traditional …

Recently, polymer based biomaterials are utilized in medical fields including surgical
sutures, drug delivery devices, tissue supports and implants for interior bone fixation …

Abstract Zinc Oxide (ZnO) nanoparticles are used in the field of nanomedicine. ZnO is non-
toxic and compatible with biological system. The major problem of wound is infections. The …

Wound healing is a common issue in our day to day life. Our immune system repairs the
damaged tissue by itself and its a time-consuming process. The GO/CuO nanocomposite …

Hydroxyapatite (HAP) is the main constituent of human bone and teeth. Hydroxyapatite
nanoparticles are used for the treatment of various bone infections. Nanohydroxyapatite is a …

Periodontal diseases are treated currently treated with antibiotics. Polymer based drug
delivery is less effective and the patient needs bone grafting in the infected areas as there …

Infections are the main cause for delayed wound healing. Graphene oxide (GO) and cerium
oxide nanoparticles are used for many biomedical applications because of their …

Bacteria-associated infection represents one of the major threats for orthopedic implants
failure during their life cycles. However, ordinary antimicrobial treatments usually failed to …

Infection and colony formation by microbes has been a negative consequence in wound
care. Graphene oxide (GO) has a large surface area and it is biocompatible. Zinc oxide …

The growth of harmful microorganisms is a severe threat to human life. Nowadays, it is
necessary to prepare antimicrobials materials with high biocompatibility properties. Hence …