Tethered and battery-powered devices that interface with neural tissues can restrict natural
motions and prevent social interactions in animal models, thereby limiting the utility of these …

Progress in implanted bioelectronic technology offers the opportunity to develop more
effective tools for personalized electronic medicine. While there are numerous clinical and …

Implantable neural interfacing devices have added significantly to neural engineering by
introducing the low-frequency oscillations of small populations of neurons known as local …

Implantable bioelectronics represent an emerging technology that can be integrated into the
human body for diagnostic and therapeutic functions. Power supply devices are an essential …

Implantable technologies are becoming more widespread for biomedical applications that
include physical identification, health diagnosis, monitoring, recording, and treatment of …

Deep brain stimulation (DBS) represents an important treatment modality for movement
disorders and other circuitopathies. Despite their miniaturization and increasing …

Pandemic like Coronavirus disease (COVID-19) shows that there is an urgent need for
changing our traditional healthcare monitoring system which produces a lot of waste and …

Bioelectronic implantable devices are adept at facilitating continuous monitoring of health
and enabling the early detection of diseases, offering insights into the physiological …

This paper reviews self-powered medical devices integrated with advanced energy
harvesting technologies. This article aims to explain the advantages of integrating self …

Implantable neural interface devices are an emerging technology for continuous brain
monitoring and brain-computer interface (BCI). Recording of electrical signals from neurons …