TY - JOUR
T1 - Clinical outcomes of peripheral nerve interfaces for rehabilitation in paralysis and amputation
T2 - a literature review
AU - Taghlabi, Khaled M.
AU - Cruz-Garza, Jesus G.
AU - Hassan, Taimur
AU - Potnis, Ojas
AU - Bhenderu, Lokeshwar S.
AU - Guerrero, Jaime R.
AU - Whitehead, Rachael E.
AU - Wu, Yu
AU - Luan, Lan
AU - Xie, Chong
AU - Robinson, Jacob T.
AU - Faraji, Amir H.
N1 - Publisher Copyright:
© 2024 The Author(s). Published by IOP Publishing Ltd
PY - 2024/2/1
Y1 - 2024/2/1
N2 - Peripheral nerve interfaces (PNIs) are electrical systems designed to integrate with peripheral nerves in patients, such as following central nervous system (CNS) injuries to augment or replace CNS control and restore function. We review the literature for clinical trials and studies containing clinical outcome measures to explore the utility of human applications of PNIs. We discuss the various types of electrodes currently used for PNI systems and their functionalities and limitations. We discuss important design characteristics of PNI systems, including biocompatibility, resolution and specificity, efficacy, and longevity, to highlight their importance in the current and future development of PNIs. The clinical outcomes of PNI systems are also discussed. Finally, we review relevant PNI clinical trials that were conducted, up to the present date, to restore the sensory and motor function of upper or lower limbs in amputees, spinal cord injury patients, or intact individuals and describe their significant findings. This review highlights the current progress in the field of PNIs and serves as a foundation for future development and application of PNI systems.
AB - Peripheral nerve interfaces (PNIs) are electrical systems designed to integrate with peripheral nerves in patients, such as following central nervous system (CNS) injuries to augment or replace CNS control and restore function. We review the literature for clinical trials and studies containing clinical outcome measures to explore the utility of human applications of PNIs. We discuss the various types of electrodes currently used for PNI systems and their functionalities and limitations. We discuss important design characteristics of PNI systems, including biocompatibility, resolution and specificity, efficacy, and longevity, to highlight their importance in the current and future development of PNIs. The clinical outcomes of PNI systems are also discussed. Finally, we review relevant PNI clinical trials that were conducted, up to the present date, to restore the sensory and motor function of upper or lower limbs in amputees, spinal cord injury patients, or intact individuals and describe their significant findings. This review highlights the current progress in the field of PNIs and serves as a foundation for future development and application of PNI systems.
KW - electrodes
KW - peripheral nerve injury
KW - peripheral nerve interface
KW - spinal cord injury
KW - Electrodes
KW - Peripheral Nerves
KW - Paralysis/surgery
KW - Humans
KW - Amputees
KW - Amputation, Surgical
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U2 - 10.1088/1741-2552/ad200f
DO - 10.1088/1741-2552/ad200f
M3 - Review article
C2 - 38237175
AN - SCOPUS:85183986747
SN - 1741-2560
VL - 21
JO - Journal of neural engineering
JF - Journal of neural engineering
IS - 1
M1 - 011001
ER -