Issue 9, 2023

Engineering optical tools for remotely controlled brain stimulation and regeneration

Abstract

Neurological disorders are one of the world's leading medical and societal challenges due to the lack of efficacy of the first line treatment. Although pharmacological and non-pharmacological interventions have been employed with the aim of regulating neuronal activity and survival, they have failed to avoid symptom relapse and disease progression in the vast majority of patients. In the last 5 years, advanced drug delivery systems delivering bioactive molecules and neuromodulation strategies have been developed to promote tissue regeneration and remodel neuronal circuitry. However, both approaches still have limited spatial and temporal precision over the desired target regions. While external stimuli such as electromagnetic fields and ultrasound have been employed in the clinic for non-invasive neuromodulation, they do not have the capability of offering single-cell spatial resolution as light stimulation. Herein, we review the latest progress in this area of study and discuss the prospects of using light-responsive nanomaterials to achieve on-demand delivery of drugs and neuromodulation, with the aim of achieving brain stimulation and regeneration.

Graphical abstract: Engineering optical tools for remotely controlled brain stimulation and regeneration

Article information

Article type
Review Article
Submitted
14 Dec. 2022
Accepted
28 Febr. 2023
First published
18 Marts 2023
This article is Open Access
Creative Commons BY-NC license

Biomater. Sci., 2023,11, 3034-3050

Engineering optical tools for remotely controlled brain stimulation and regeneration

A. F. Rodrigues, C. Rebelo, T. Reis, S. Simões, L. Bernardino, J. Peça and L. Ferreira, Biomater. Sci., 2023, 11, 3034 DOI: 10.1039/D2BM02059A

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