Niamh Brady scite author profile

The combination of optical tissue transparency with immunofluorescence allows the molecular characterization of biological tissues in 3D. However, adult human organs are particularly challenging to become transparent because of the autofluorescence contributions of aged tissues. To meet this challenge, we optimized SHORT (SWITCH—H2O2—antigen Retrieval—TDE), a procedure based on standard histological treatments in combination with a refined clearing procedure to clear and label portions of the human brain. 3D histological characterization with multiple molecules is performed on cleared samples with a combination of multi-colors and multi-rounds labeling. By performing fast 3D imaging of the samples with a custom-made inverted light-sheet fluorescence microscope (LSFM), we reveal fine details of intact human brain slabs at subcellular resolution. Overall, we proposed a scalable and versatile technology that in combination with LSFM allows mapping the cellular and molecular architecture of the human brain, paving the way to reconstruct the entire organ.

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Comparison of Different Tissue Clearing Methods for Three-Dimensional Reconstruction of Human Brain Cellular Anatomy Using Advanced Imaging Techniques

Scardigli

Pesce

Brady

et al. 2021

Front. Neuroanat.

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The combination of tissue clearing techniques with advanced optical microscopy facilitates the achievement of three-dimensional (3D) reconstruction of macroscopic specimens at high resolution. Whole mouse organs or even bodies have been analyzed, while the reconstruction of the human nervous system remains a challenge. Although several tissue protocols have been proposed, the high autofluorescence and variable post-mortem conditions of human specimens negatively affect the quality of the images in terms of achievable transparency and staining contrast. Moreover, homogeneous staining of high-density epitopes, such as neuronal nuclear antigen (NeuN), creates an additional challenge. Here, we evaluated different tissue transformation approaches to find the best solution to uniformly clear and label all neurons in the human cerebral cortex using anti-NeuN antibodies in combination with confocal and light-sheet fluorescence microscopy (LSFM). Finally, we performed mesoscopic high-resolution 3D reconstruction of the successfully clarified and stained samples with LSFM.

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High-resolution human brain 3D reconstruction with light-sheet fluorescence microscopy

Costantini

Scardigli

Ramazzotti

et al. 2023

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3D reconstruction of the human brain at high resolution is one of the most important challenges of neuroscience. We present a new clearing method named SHORT that in combination with an advanced doubleview light-sheet fluorescence microscope and an automated machine-learning based images analysis allow to perform volumetric study of the human brain. We applied our methodology to a Broca's area block of 4 x 4 x 2 cm3, demonstrating the possibility of obtaining a fast 3D reconstruction of the human brain at highresolution, paving the way to the possibility of finally mapping a comprehensive atlas of the human brain

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Niamh Brady

3D molecular phenotyping of cleared human brain tissues with light-sheet fluorescence microscopy

Comparison of Different Tissue Clearing Methods for Three-Dimensional Reconstruction of Human Brain Cellular Anatomy Using Advanced Imaging Techniques

High-resolution human brain 3D reconstruction with light-sheet fluorescence microscopy

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