Bioelectronic Implants and Their Role in Modern Medicine

Humanity turned to medicines millions of years ago, when medicinal plants were used for healing. In the century before last, a significant contribution to medicine was made by various fields of science; in particular, here one can name a device that has long been used to deliver medicine to the body - a syringe. Today, the use of injections of drugs of biological origin is a common practice for the treatment of chronic diseases, but the injection procedure itself is often associated with painful perceptions, and the field of injection is limited. Modern advanced therapies are genetic, electronic and cellular therapies that can meet the needs of caregivers, as well as the patients themselves. It is well known that digital processes in healthcare are currently undergoing intensive development, and in this context, innovative bioelectronic devices are being used to implement new strategies for personalized injection therapy. This paper examines aspects of the development of innovative methods of drug delivery to the patient's body, such as optogenetic therapy, optogenetic methods, and genetic therapy. For these purposes, bioelectronic implants are used today, in which electronics and optogenetics interact with the help of light, transmitting a certain induction signal to each other. By controlling the synthetic optogenetic pathway in the cell, drugs can be delivered to a particular organ within a clearly limited space or time. Present technology is revolutionary in medicine, as it can replace a traditional syringe, increasing the accuracy of dosage and time of drug administration, while reducing the involvement of the human factor to a minimum. The technology under consideration also acts as minimally invasive, which minimizes the patient's discomfort when taking medications.