Litcius/Paper detail

Recent advances in nanomaterial-modified electrical platforms for the detection of dopamine in living cells

Yeon-Woo Cho, Joon-Ha Park, Kwangho Lee, Taek Lee, Zhengtang Luo, Tae‐Hyung Kim

2020Nano Convergence60 citationsDOIOpen Access PDF

Abstract

Dopamine is a key neurotransmitter that plays essential roles in the central nervous system, including motor control, motivation, arousal, and reward. Thus, abnormal levels of dopamine directly cause several neurological diseases, including depressive disorders, addiction, and Parkinson's disease (PD). To develop a new technology to treat such diseases and disorders, especially PD, which is currently incurable, dopamine release from living cells intended for transplantation or drug screening must be precisely monitored and assessed. Owing to the advantages of miniaturisation and rapid detection, numerous electrical techniques have been reported, mostly in combination with various nanomaterials possessing specific nanoscale geometries. This review highlights recent advances in electrical biosensors for dopamine detection, with a particular focus on the use of various nanomaterials (e.g., carbon-based materials, hybrid gold nanostructures, metal oxides, and conductive polymers) on electrode surfaces to improve both sensor performance and biocompatibility. We conclude that this review will accelerate the development of electrical biosensors intended for the precise detection of metabolite release from living cells, which will ultimately lead to advances in therapeutic materials and techniques to cure various neurodegenerative disorders.

Topics & Concepts

DopamineNanotechnologyNeuroscienceMedicineMaterials scienceBiologyElectrochemical sensors and biosensorsNeuroscience and Neural EngineeringElectrochemical Analysis and Applications