Integrating AI with Biosensors and Voltammetry for Neurotransmitter Detection and Quantification: A Systematic Review
Ibrahim Moubarak Nchouwat Ndumgouo, Mohammad Zahir Uddin Chowdhury, Silvana Andreescu, Stephanie Schuckers

TL;DR
This paper reviews how AI can improve biosensors for detecting neurotransmitters in complex fluids, aiding in diagnosing neurodegenerative diseases.
Contribution
The paper systematically evaluates AI methods for overcoming biosensor limitations in neurotransmitter detection.
Findings
AI-based approaches effectively deconvolute complex neurotransmitter signals in biosensors.
Machine learning and deep learning enhance real-time neurotransmitter estimation accuracy.
AI integration shows promise for applications like closed-loop deep brain stimulation.
Abstract
Background: The accurate and timely diagnosis of neurodegenerative disorders such as Parkinson’s disease, Alzheimer’s disease, and major depressive disorder critically depends on real-time monitoring and precise interpretation of authentic neurotransmitter (NT) signal dynamics in complex biological fluids (CBFs), including cerebrospinal fluid. These NT dynamics are governed by both the type and concentration of NTs present in the CBFs. However, current biosensors face significant limitations in sensitivity and selectivity, thereby hindering reliable estimation (detection and quantification) of NTs. Though nanomaterials and bioenzymes have been utilized to modify sensor interfaces for enhanced performance, issues like signal convolution, electrode fouling, and inter-NT crosstalk persist. Objectives: This review aims to evaluate and synthesize current research on the use of artificial…
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Taxonomy
TopicsNeurological disorders and treatments · Neuroscience and Neural Engineering · EEG and Brain-Computer Interfaces
