DNA Nanorobots In Cancer Therapy- A Review

Abstract

DNA nanotechnology facilitates the utilization of programmable nanorobots in-field applications of biomedicine. Designer nanorobots constructed from DNA offer a wide range of functionality in both biosensing and the delivery of pharmaceutical agents. The utilization of DNA nanobots has been identified as an increasingly safe and precise approach for the treatment of cancer. These nanobots are specifically engineered to locate and eradicate malignant cells. DNA nanotechnology serves as a tool for the creation of functional nanostructures. Nanostructures constructed from DNA possess a multitude of uses in the realm of synthetic biology. DNA nanobots represent a potential technique for the treatment of cancer. These nanobots possess the ability to selectively target and eliminate cancerous cells. DNA nanodevices have produced remarkable advancements in the realm of cell biology.  DNA can be employed in the construction of nanomechanical devices. Numerous DNA machines have been designed and subjected to experimental testing. Nanobots are currently under investigation as potential systems for the delivery of pharmaceutical agents. These nanobots exhibit great promise in the identification and management of various diseases. Developments in the are of nanorobotics have expanded the realm of medical robotics. Biomedical applications of nanorobots span across various domains such as diagnosis, sensing, microsurgery, the delivery of pharmaceutical agents and cells, and wound healing. This review will explore the construction and utilization of DNA nanodevices in cancer treatment