Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens. uDISCO, an organic-solvent-based method, stands out from the enormous array of available optical clearing methods by achieving whole-brain imaging with high transparency, size reduction and fluorescence preservation. In this study, we aimed to modify the uDISCO protocol to achieve better fluorescence preservation and to thereby further improve its optical imaging quality. First, we determined the optimal pH value for optimized uDISCO, termed “a-uDISCO” (alkaline pH-based uDISCO). Then, we compared fluorescence preservation between a-uDISCO and uDISCO. In addition, we validated the clearing performance of the optimized method according to se...
Tissue clearing allows microscopy of large specimens as whole mouse brains or embryos. However, lipo...
Optical clearing methods can facilitate deep optical imaging in biological tissue by reducing light ...
Recent advances in thick tissue clearing are enabling high resolution, volumetric fluorescence imagi...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
The development of tissue clearing technologies allows 3D imaging of whole tissues and organs, espec...
Fast Free-of-Acrylamide Clearing Tissue (FACT) is a new sodium dodecyl sulfate (SDS)-based clearing ...
Recent advances in optical clearing techniques have dramatically improved deep tissue imaging by red...
Tissue clearing allows microscopy of large specimens as whole mouse brains or embryos. However, lipo...
Optical clearing methods can facilitate deep optical imaging in biological tissue by reducing light ...
Recent advances in thick tissue clearing are enabling high resolution, volumetric fluorescence imagi...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
Tissue optical clearing techniques provide alternative approaches for imaging large-volume specimens...
The development of tissue clearing technologies allows 3D imaging of whole tissues and organs, espec...
Fast Free-of-Acrylamide Clearing Tissue (FACT) is a new sodium dodecyl sulfate (SDS)-based clearing ...
Recent advances in optical clearing techniques have dramatically improved deep tissue imaging by red...
Tissue clearing allows microscopy of large specimens as whole mouse brains or embryos. However, lipo...
Optical clearing methods can facilitate deep optical imaging in biological tissue by reducing light ...
Recent advances in thick tissue clearing are enabling high resolution, volumetric fluorescence imagi...