A review on mechanical considerations for chronically-implanted neural probes
A Lecomte, E Descamps… - Journal of neural …, 2018 - iopscience.iop.org
This review intends to present a comprehensive analysis of the mechanical considerations
for chronically-implanted neural probes. Failure of neural electrical recordings or stimulation …
for chronically-implanted neural probes. Failure of neural electrical recordings or stimulation …
[HTML][HTML] Flexible, penetrating brain probes enabled by advances in polymer microfabrication
A Weltman, J Yoo, E Meng - Micromachines, 2016 - mdpi.com
The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to
advance neuroscience and brain–machine interfaces. For decades, rigid materials such as …
advance neuroscience and brain–machine interfaces. For decades, rigid materials such as …
Micromachining of Parylene C for bioMEMS
Recent advances in the micromachining of poly (p‐xylylenes), commercially known as
Parylenes, have enabled the development of novel structures and devices for …
Parylenes, have enabled the development of novel structures and devices for …
Review of polymer MEMS micromachining
The development of polymer micromachining technologies that complement traditional
silicon approaches has enabled the broadening of microelectromechanical systems (MEMS) …
silicon approaches has enabled the broadening of microelectromechanical systems (MEMS) …
Materials for microfabricated implantable devices: a review
K Scholten, E Meng - Lab on a Chip, 2015 - pubs.rsc.org
The application of microfabrication to the development of biomedical implants has produced
a new generation of miniaturized technology for assisting treatment and research …
a new generation of miniaturized technology for assisting treatment and research …
Implantable neurotechnologies: a review of micro-and nanoelectrodes for neural recording
AC Patil, NV Thakor - Medical & biological engineering & computing, 2016 - Springer
Electrodes serve as the first critical interface to the biological organ system. In
neuroprosthetic applications, for example, electrodes interface to the tissue for either signal …
neuroprosthetic applications, for example, electrodes interface to the tissue for either signal …
[HTML][HTML] Mechanical and biological interactions of implants with the brain and their impact on implant design
D Prodanov, J Delbeke - Frontiers in neuroscience, 2016 - frontiersin.org
Neural prostheses have already a long history and yet the cochlear implant remains the only
success story about a longterm sensory function restoration. On the other hand, neural …
success story about a longterm sensory function restoration. On the other hand, neural …
Injectable biomedical devices for sensing and stimulating internal body organs
The rapid pace of progress in implantable electronics driven by novel technology has
created devices with unconventional designs and features to reduce invasiveness and …
created devices with unconventional designs and features to reduce invasiveness and …
Conducting polymers for neuronal microelectrode array recording and stimulation
Microelectrode arrays (MEAs) are of great interest for in vitro and in vivo electrophysiology
as they can record and stimulate neuronal populations, paving the path for novel treatment …
as they can record and stimulate neuronal populations, paving the path for novel treatment …
Multimaterial and multifunctional neural interfaces: from surface-type and implantable electrodes to fiber-based devices
Neural interfaces have enabled significant advancements in neuroscience and paved the
way for clinical applications in the diagnosis, treatment, and prevention of neurological …
way for clinical applications in the diagnosis, treatment, and prevention of neurological …