Real-Time Analysis of Neuronal Cell Cultures for CNS Drug Discovery.
Millicent T AkereKelsee K ZajacJames D BretzAnvitha R MadhavaramAustin C HortonIsaac T SchieferPublished in: Brain sciences (2024)
The ability to screen for agents that can promote the development and/or maintenance of neuronal networks creates opportunities for the discovery of novel agents for the treatment of central nervous system (CNS) disorders. Over the past 10 years, advances in robotics, artificial intelligence, and machine learning have paved the way for the improved implementation of live-cell imaging systems for drug discovery. These instruments have revolutionized our ability to quickly and accurately acquire large standardized datasets when studying complex cellular phenomena in real-time. This is particularly useful in the field of neuroscience because real-time analysis can allow efficient monitoring of the development, maturation, and conservation of neuronal networks by measuring neurite length. Unfortunately, due to the relative infancy of this type of analysis, standard practices for data acquisition and processing are lacking, and there is no standardized format for reporting the vast quantities of data generated by live-cell imaging systems. This paper reviews the current state of live-cell imaging instruments, with a focus on the most commonly used equipment (IncuCyte systems). We provide an in-depth analysis of the experimental conditions reported in publications utilizing these systems, particularly with regard to studying neurite outgrowth. This analysis sheds light on trends and patterns that will enhance the use of live-cell imaging instruments in CNS drug discovery.
Keyphrases
- drug discovery
- artificial intelligence
- machine learning
- high resolution
- big data
- primary care
- healthcare
- blood brain barrier
- emergency department
- electronic health record
- deep learning
- randomized controlled trial
- optical coherence tomography
- high throughput
- single cell
- systematic review
- photodynamic therapy
- mesenchymal stem cells
- cerebral ischemia
- fluorescence imaging
- mass spectrometry
- physical activity
- bone marrow
- subarachnoid hemorrhage