In this article we learn the applications of nanorobots in medicine. Nanorobots can be used in various fields of application such as medicine and space technology. Today, these are used to treat cancer, brain aneurysms, eliminate kidney stones, eliminate defective DNA structures, and certain other treatments that require maximum support for other treatments. Plays an important role in the field of biomedical rescue.
Applications of Nanorobots In Medicine
Surgical nanorobots in medicine are introduced into the human body through the vascular system and other cavities. The surgical nanorobot acts as a semi-autonomous in situ surgeon in the human body, programmed, or directed by a human surgeon. This programmed surgical nanorobot performs a variety of functions, such as finding pathogens, and records and contacts the surveillance surgeon via coded ultrasound signals while nanomanipulation is synchronized by an on-board computer. Diagnose and correct the lesions.
Nanorobots in medicine are used to diagnose, test, and monitor microorganisms, tissues and cells in the bloodstream. These nanorobots can record recordings and permanently report certain vital signs such as temperature, pressure, immune system parameters in various parts of the human body.
Nanorobots can also be applied to the treatment of genetic diseases by combining the molecular structures of DNA and proteins in cells. Then, changes and irregularities in the DNA and protein sequence are corrected. Chromosome replacement therapy is very effective compared to cell repair. The assembled repair container is integrated into the human body and floats in the cell nucleus to maintain genetics.
As the super DNA spool expands into the lower pair of robot arms, it pulls the unwound strand for analysis. In contrast, the upper arm separates the protein from the chain. The information stored in a large database of microcomputers is compared to the molecular structure of DNA and proteins, located outside the nucleus and connected to cell repair vessels via communication links. The structural anomaly is corrected and the protein attached to the strand of deoxynucleic acid is reformed to its original form.
Current stages of medical technology and therapeutic tools are used to successfully treat cancer. An important aspect of successful treatment is to improve the effective delivery of drugs to reduce the side effects of chemotherapy.
Nanorobots with integrated chemical biosensors are used to detect tumor cells in the patient’s body during the early stages of cancer development. Nano sensors are also used to find the signal strength of E-cadherin.
Nano-dentistry is one of the most important applications as it helps in various processes related to dentistry. These nanorobots in medicine are useful for desensitization of teeth, oral anesthesia, irregular correction of teeth and improvement of durability of teeth, restoration of teeth, and improvement of the appearance of teeth.
Nanorobots in medicine can also be used as an auxiliary device to treat various chemical reactions in the affected organs. These robots also help monitor and control blood sugar in diabetic patients.