Multicore-fiber microendoscopy for functional cellular in-organ imaging

Abstract

AbstractMicroendoscopy enables minimally invasive investigations of organs even within small cavities. Conventional microendoscopy is limited by probe size and often restricted to a single excitation wavelength. We developed and characterized a multichannel microendoscope as thin as 360 µm and recorded functional cellular signals in-situ using custom written software for image processing. The endoscope had an effective resolution of 4.64 µm and resolved subcellular structures of neurons. The system enabled analysis of in-situ calcium responses in murine tracheal brush cells and kidney podocytes. Additionally, ratiometric redox responses were recorded in whole, explanted organs and pancreatic islet culture. The flexibility and simplicity of our approach for imaging a variety of tissues and organs paves the way for in-vivo, longitudinal studies with cellular resolution.