Expansion-assisted selective plane illumination microscopy for nanoscale imaging of centimeter-scale tissues.
Adam K GlaserJayaram ChandrashekarJoshua VasquezCameron ArshadiNaveen OuelletteXiaoyun JiangJudith BakaGabor KovacsMicah WoodardSharmishtaa SeshamaniKevin CaoNathan ClackAndrew RecknagelAnna GrimPooja BalaramEmily TurschakAlan LiddellJohn RohdeAyana HellevikKevin TakasakiLindsey A Erion BarnerMolly LogsdonChris ChronopoulosSaskia E J de VriesJonathan T TingSteve I PerlmutterBrian E KalmbachNikolai C DembrowR Clay ReidDavid FengKarel SvobodaPublished in: bioRxiv : the preprint server for biology (2023)
Recent advances in tissue processing, labeling, and fluorescence microscopy are providing unprecedented views of the structure of cells and tissues at sub-diffraction resolutions and near single molecule sensitivity, driving discoveries in diverse fields of biology, including neuroscience. Biological tissue is organized over scales of nanometers to centimeters. Harnessing molecular imaging across three-dimensional samples on this scale requires new types of microscopes with larger fields of view and working distance, as well as higher imaging throughput. We present a new expansion-assisted selective plane illumination microscope (ExA-SPIM) with diffraction-limited and aberration-free performance over a large field of view (85 mm 2 ) and working distance (35 mm). Combined with new tissue clearing and expansion methods, the microscope allows nanoscale imaging of centimeter-scale samples, including entire mouse brains, with diffraction-limited resolutions and high contrast without sectioning. We illustrate ExA-SPIM by reconstructing individual neurons across the mouse brain, imaging cortico-spinal neurons in the macaque motor cortex, and tracing axons in human white matter.