Abstract
Bioelectronic medicine is a way of treating in which the electrical communication networks of the body are altered to treat disease. Bioelectric circuitry in every cell creates a resting membrane potential as well as endogenous electric fields that regulate cell function and communication. The theory that cancer is caused by bioelectrical circuitry malfunctions in cells is now widely acknowledged. This opens up the possibility of using bioelectronic medicine to develop new cancer treatments by influencing the disease's bioelectrical properties. To meet societal and technical obstacles, today's individuals aspire to better their quality of life. So, in the midst of all of this, bioelectronic medicine has altered the way we practice medicine and has proven to dramatically enhance healthcare outcomes. This technique employs a variety of procedures, such as neuromodulation, to treat a specific disease, ailment, or damage. Interfacing electronics with nerves to specifically target the biological processes underlying diseases. In cancer, screening and early detection are crucial for the patient's therapy to be successful and for the patient's survival percentage to grow. For illness diagnosis, therapy, and follow-up, the development of analytical methods for non-invasive detection through the analysis of cancer biomarkers is crucial. Tumor biomarkers are substances or processes that indicate the existence of cancer in the body in clinical situations. These biomarkers can be detected using biosensors, which are popular alternatives to traditional approaches due to their speed, accuracy, and point-of-care applicability. Here we have discussed the consequences of current cancer treatments and bioelectronic medicine a combat for cancer diagnosis and treatment.
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More From: International Journal of Pharmaceutical Sciences and Nanotechnology(IJPSN)
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