Litcius/Paper detail

Nonlinear sound-sheet microscopy: Imaging opaque organs at the capillary and cellular scale

Baptiste Heiles, Flora Nelissen, Rick Waasdorp, Dion Terwiel, Byung Min Park, Eleonora Muñoz-Ibarra, Agisilaos Matalliotakis, Tarannum Ara, Pierina Barturen-Larrea, Mengtong Duan, Mikhail G. Shapiro, Valeria Gazzola, David Maresca

2025Science18 citationsDOIOpen Access PDF

Abstract

Light-sheet fluorescence microscopy has revolutionized biology by visualizing dynamic cellular processes in three dimensions. However, light scattering in thick tissue and photobleaching of fluorescent reporters limit this method to studying thin or translucent specimens. In this study, we applied nondiffractive ultrasound beams in conjunction with a cross-amplitude modulation sequence and nonlinear acoustic reporters to enable fast and volumetric imaging of targeted biological functions. We reported volumetric imaging of tumor gene expression at the cubic centimeter scale using genetically encoded gas vesicles and localization microscopy of cerebral capillary networks using intravascular microbubble contrast agents. Nonlinear sound-sheet microscopy provides a ~64× acceleration in imaging speed, ~35× increase in imaged volume, and ~4× increase in classical imaging resolution compared with the state of the art in biomolecular ultrasound.

Topics & Concepts

PhotobleachingMicroscopyOpticsOpacityLight sheet fluorescence microscopyMaterials scienceMicroscopeNonlinear acousticsNonlinear systemFluorescencePhysicsScanning confocal electron microscopyQuantum mechanicsPhotoacoustic and Ultrasonic ImagingAdvanced Fluorescence Microscopy TechniquesUltrasound and Hyperthermia Applications