Nanotechnology has played a critical role in all surgical disciplines, with the manufacture of surgical implants and tissue engineering technologies. They improved imaging technology, drug delivery methods, and scaffold fabrication with improved material-cell interaction, all of which are critical in wound healing surgery. Optical tweezers (single-beam gradient force trap) are a powerful instrument that uses laser beams that are highly focused.
Drug distribution and metabolism can be visualised by monitoring their movement. Skin Wound healing is a continuous and overlapping process that is highly coordinated and spatiotemporally regulated. The mechanisms of hemostasis, inflammation, proliferation, and remodelling are all ongoing. Nanomaterials used in wound healing must have intrinsic wound-healing characteristics, as well as the ability to establish an optimum healing microenvironment and act as delivery vehicles for therapeutic drugs.
Market Analysis: The global Nano surgery market is expected to reach $6.84 billion in 2025, with a compound annual growth rate (CAGR) of 14.79 percent from 2020 to 2025. The use of micro- and nanorobots in urological surgical operations, an emphasis on the development of low-cost robotic surgical systems, and rising MedTech research and development expenditures are just a few of the biggest trends.
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