Advanced implantable biomedical devices enabled by triboelectric nanogenerators
Implantable biomedical devices (IMDs) play essential roles in healthcare. Subject to the
limited battery life, IMDs cannot achieve long-term in situ monitoring, diagnosis, and …
limited battery life, IMDs cannot achieve long-term in situ monitoring, diagnosis, and …
Bioelectronic Implantable Devices for Physiological Signal Recording and Closed‐Loop Neuromodulation
Bioelectronic implantable devices are adept at facilitating continuous monitoring of health
and enabling the early detection of diseases, offering insights into the physiological …
and enabling the early detection of diseases, offering insights into the physiological …
A neural probe for concurrent real-time measurement of multiple neurochemicals with electrophysiology in multiple brain regions in vivo
U Chae, J Woo, Y Cho, JK Han… - Proceedings of the …, 2023 - National Acad Sciences
Real-time monitoring of various neurochemicals with high spatial resolution in multiple brain
regions in vivo can elucidate neural circuits related to various brain diseases. However …
regions in vivo can elucidate neural circuits related to various brain diseases. However …
Neural probe system for behavioral neuropharmacology by bi-directional wireless drug delivery and electrophysiology in socially interacting mice
Assessing the neurological and behavioral effects of drugs is important in developing
pharmacological treatments, as well as understanding the mechanisms associated with …
pharmacological treatments, as well as understanding the mechanisms associated with …
Electrical Stimulation of Human Mesenchymal Stem Cells on Conductive Substrates Promotes Neural Priming
Electrical stimulation (ES) within a conductive scaffold is potentially beneficial in
encouraging the differentiation of stem cells toward a neuronal phenotype. To improve stem …
encouraging the differentiation of stem cells toward a neuronal phenotype. To improve stem …
In Vivo Penetrating Microelectrodes for Brain Electrophysiology
In recent decades, microelectrodes have been widely used in neuroscience to understand
the mechanisms behind brain functions, as well as the relationship between neural activity …
the mechanisms behind brain functions, as well as the relationship between neural activity …
Design and fabrication of a flexible opto-electric biointerface for multimodal optical fluorescence and electrical recording
Optical fluorescence and electrical monitoring of cell activity are two powerful approaches to
study organ functions. Simultaneous recording of optical and electrical data types will …
study organ functions. Simultaneous recording of optical and electrical data types will …
ECoGScope: An Integrated Platform for Real-Time Electrophysiology and Fluorescence Imaging
In this study, we present ECoGScope, a versatile neural interface platform designed to
integrate multiple functions for advancing neural network research. ECoGScope combines …
integrate multiple functions for advancing neural network research. ECoGScope combines …
Development of wafer-scale multifunctional nanophotonic neural probes for brain activity mapping
Optical techniques, such as optogenetic stimulation and functional fluorescence imaging,
have been revolutionary for neuroscience by enabling neural circuit analysis with cell-type …
have been revolutionary for neuroscience by enabling neural circuit analysis with cell-type …
Unraveling the Neural Circuits: Techniques, Opportunities and Challenges in Epilepsy Research
W Xiao, P Li, F Kong, J Kong, A Pan, L Long… - Cellular and Molecular …, 2024 - Springer
Epilepsy, a prevalent neurological disorder characterized by high morbidity, frequent
recurrence, and potential drug resistance, profoundly affects millions of people globally …
recurrence, and potential drug resistance, profoundly affects millions of people globally …