Computational cannula microscopy of neurons using neural networks.

Journal: Optics letters

Published Date: Apr 1, 2020

Abstract

Computational cannula microscopy is a minimally invasive imaging technique that can enable high-resolution imaging deep inside tissue. Here, we apply artificial neural networks to enable real-time, power-efficient image reconstructions that are more efficiently scalable to larger fields of view. Specifically, we demonstrate widefield fluorescence microscopy of cultured neurons and fluorescent beads with a field of view of 200 µm (diameter) and a resolution of less than 10 µm using a cannula of diameter of only 220 µm. In addition, we show that this approach can also be extended to macro-photography.

Authors

Ruipeng Guo
Zhimeng Pan
Andrew Taibi
Jason Shepherd
Rajesh Menon

Keywords

Animals Image Processing, Computer-Assisted Microscopy, Fluorescence Neural Networks, Computer Neurons Rats Rats, Sprague-Dawley Signal-To-Noise Ratio

External Resources

View on PubMed Access via DOI PubMed (32236081)

Computational cannula microscopy of neurons using neural networks.

Abstract

Authors

Keywords

External Resources

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