TY - JOUR
T1 - Translational considerations for the design of untethered nanomaterials in human neural stimulation
AU - Dominguez-Paredes, David
AU - Jahanshahi, Ali
AU - Kozielski, Kristen L.
N1 - Publisher Copyright:
© 2021
PY - 2021/9/1
Y1 - 2021/9/1
N2 - Neural stimulation is a powerful tool to study brain physiology and an effective treatment for many neurological disorders. Conventional interfaces use electrodes implanted in the brain. As these are often invasive and have limited spatial targeting, they carry a potential risk of side-effects. Smaller neural devices may overcome these obstacles, and as such, the field of nanoscale and remotely powered neural stimulation devices is growing. This review will report on current untethered, injectable nanomaterial technologies intended for neural stimulation, with a focus on material-tissue interface engineering. We will review nanomaterials capable of wireless neural stimulation, and discuss their stimulation mechanisms. Taking cues from more established nanomaterial fields (e.g., cancer theranostics, drug delivery), we will then discuss methods to modify material interfaces with passive and bioactive coatings. We will discuss methods of delivery to a desired brain region, particularly in the context of how delivery and localization are affected by surface modification. We will also consider each of these aspects of nanoscale neurostimulators with a focus on their prospects for translation to clinical use.
AB - Neural stimulation is a powerful tool to study brain physiology and an effective treatment for many neurological disorders. Conventional interfaces use electrodes implanted in the brain. As these are often invasive and have limited spatial targeting, they carry a potential risk of side-effects. Smaller neural devices may overcome these obstacles, and as such, the field of nanoscale and remotely powered neural stimulation devices is growing. This review will report on current untethered, injectable nanomaterial technologies intended for neural stimulation, with a focus on material-tissue interface engineering. We will review nanomaterials capable of wireless neural stimulation, and discuss their stimulation mechanisms. Taking cues from more established nanomaterial fields (e.g., cancer theranostics, drug delivery), we will then discuss methods to modify material interfaces with passive and bioactive coatings. We will discuss methods of delivery to a desired brain region, particularly in the context of how delivery and localization are affected by surface modification. We will also consider each of these aspects of nanoscale neurostimulators with a focus on their prospects for translation to clinical use.
KW - Clinical translation
KW - Nanomaterials
KW - Neural stimulation
KW - Surface modification
UR - http://www.scopus.com/inward/record.url?scp=85113396113&partnerID=8YFLogxK
U2 - 10.1016/j.brs.2021.08.001
DO - 10.1016/j.brs.2021.08.001
M3 - Review article
C2 - 34375694
AN - SCOPUS:85113396113
SN - 1935-861X
VL - 14
SP - 1285
EP - 1297
JO - Brain Stimulation
JF - Brain Stimulation
IS - 5
ER -