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One of the main characteristics of our nanobot that allows it to move and support itself are its legs that, despite being somewhat thin, allow it to make the necessary movement to transport itself through the skeletal structure containing bones, cartilage, tendons and ligaments. a microscopic way, in addition to allowing movement; They are also the structures in charge of controlling the particles or cellular microorganisms that you wish to manipulate. Another important structure would be its small "tails" at the top of its structure, similar to the flagella of a biological cell; It would be thought that it would help the nanobot move through the body so that it completes its cellular journey.
Once it reached the place of the fissure or fracture, it would be expected that the nanobot would show a small duct under its structure, a tube through which the organic polymer would come out to be applied to the affected area, simultaneously, using another small arm loaded with Electrical energy would also come out from under the structure, the polymer would be electroactivated through discharges granted in order to harden it and finally fix the affected area, whether due to fissure or fracture, uniting the bone in a more effective and faster way by doing so at the cellular level.
