Towards native-state imaging in biological context in the electron microscope

Weston, Anne; Armer, Hannah; Collinson, Lucy M.

doi:10.1007/s12154-009-0033-7

Cited by 34 publications

(38 citation statements)

References 104 publications

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“…This fixation and staining made simultaneous functional imaging of the liver difficult in our system [23,29]. In addition, in the processes of fixation, postfixation with OsO 4 , and dehydration, the shrinkage and the collapse of morphological structure in the specimen can be induced [33]. However, we could not detect any artifacts in the overall structure of liver tissue when our results were compared with histological images.…”

Section: Discussionmentioning

confidence: 99%

Three-Dimensional Imaging of Hepatic Sinusoids in Mice Using Synchrotron Radiation Micro-Computed Tomography

et al. 2013

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Hepatic sinusoid, the smallest vessel in the liver, plays important roles in hepatic microcirculation. Although the structure of the hepatic sinusoids affects diverse functions of the liver, little is known about morphological alterations in the sinusoids under pathological conditions. In this study, we show that the structure of hepatic sinusoids can be identified three-dimensionally in normal and carbon tetrachloride-injured mouse liver, using the absorption mode of synchrotron radiation micro-computed tomography. We observed that the hepatic sinusoidal structure on tomographic slice images was similar to that on histological images of normal and acutely injured mice. Moreover, centrilobular necrosis and structural alterations of the sinusoids in the necrotic region were detectable on tomographic slice and volume-rendered images of the acutely injured mice. Furthermore, quantitative analyses on 3D volume-rendered images of the injured sinusoid revealed decrease in the volume of the sinusoid and connectivity of the sinusoidal network. Our results suggest that the use of synchrotron radiation micro-computed tomography may improve our understanding of the pathogenesis of hepatic diseases by detecting the hepatic sinusoids and their alterations in three-dimensional structures of the damaged liver.

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Section: Discussionmentioning

confidence: 99%

Three-Dimensional Imaging of Hepatic Sinusoids in Mice Using Synchrotron Radiation Micro-Computed Tomography

et al. 2013

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“…This is a quick freezing technic to vitrify the cells water content (Dubochet, ) that immobilizes the sample chemical composition without changing the cell morphology. Other freezing techniques are used in connection with the volume of the sample (Hurbain & Sachse, ; McDonald, ; Mielanczyk et al, ; Vanhecke, Graber, & Studer, ; Weston et al, ). Then the sample is dehydrated at low temperature and embedded in a resin at room temperature (Bell & Safiejko‐Mroczka, ; Lešer et al, ; Weston et al, ).…”

Section: Introductionmentioning

confidence: 99%

Intracellular uranium distribution: Comparison of cryogenic fixation versus chemical fixation methods for SIMS analysis

Suhard

Tessier

Manens

et al. 2018

Microscopy Res & Technique

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Localization of uranium within cells is mandatory for the comprehension of its cellular mechanism of toxicity. Secondary Ion Mass Spectrometry (SIMS) has recently shown its interest to detect and localize uranium at very low levels within the cells. This technique requires a specific sample preparation similar to the one used for Transmission Electronic Microscopy, achieved by implementing different chemical treatments to preserve as much as possible the living configuration uranium distribution into the observed sample. This study aims to compare the bioaccumulation sites of uranium within liver or kidney cells after chemical fixation and cryomethods preparations of the samples: SIMS analysis of theses samples show the localization of uranium soluble forms in the cell cytoplasm and nucleus with a more homogenous distribution when using cryopreparation probably due to the diffusible portion of uranium inside the cytoplasm.

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“…As a relatively novel approach to cross-sectioning of biological structures, including epicuticular waxes (Kim, 2013) and stomata (Kim et al, 2012), FIB-FESEM made possible the in situ site-specific cutting of nonembedded teliospores. In FIB-FESEM, a Ga ion beam, which is inherently destructive, is employed to mill or sputter away the specimen material (Weston et al, 2010). The electron-dense region of the cytoplasm indicated the presence of lipid droplets, which was confirmed using transmission electron microscopy.…”

Section: Discussionmentioning

confidence: 94%

Three-dimensional surface reconstruction and in situ site-specific cutting of the teliospores of Puccinia miscanthi causing leaf rust of the biomass plant Miscanthus sinensis

Kim

2015

Micron

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Towards native-state imaging in biological context in the electron microscope

Cited by 34 publications

References 104 publications

Three-Dimensional Imaging of Hepatic Sinusoids in Mice Using Synchrotron Radiation Micro-Computed Tomography

Three-Dimensional Imaging of Hepatic Sinusoids in Mice Using Synchrotron Radiation Micro-Computed Tomography

Intracellular uranium distribution: Comparison of cryogenic fixation versus chemical fixation methods for SIMS analysis

Three-dimensional surface reconstruction and in situ site-specific cutting of the teliospores of Puccinia miscanthi causing leaf rust of the biomass plant Miscanthus sinensis

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