J. Žemlička scite author profile

Using dedicated contrast agents high-quality X-ray imaging of soft tissue structures with isotropic micrometre resolution has become feasible. This technique is frequently titled as virtual histology as it allows production of slices of tissue without destroying the sample. The use of contrast agents is, however, often an irreversible time-consuming procedure and despite the non-destructive principle of X-ray imaging, the sample is usually no longer usable for other research methods. In this work we present the application of recently developed large-area photon counting detector for high resolution X-ray micro-radiography and micro-tomography of whole ex-vivo ethanol-preserved mouse organs. The photon counting detectors provide dark-current-free quantum-counting operation enabling acquisition of data with virtually unlimited contrast-to-noise ratio (CNR). Thanks to the very high CNR even ethanol-only preserved soft-tissue samples without addition of any contrast agent can be visualized in great detail. As ethanol preservation is one of the standard steps of tissue fixation for histology, the presented method can open a way for widespread use of micro-CT with all its advantages for routine 3D non-destructive soft-tissue visualisation.

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Patterns of growth in monitor lizards (Varanidae) as revealed by computed tomography of femoral growth plates

Frýdlová

Nutilová

Dudák

et al. 2016

Zoomorphology

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Ultra-stable implanted⁸³Rb/^83mKr electron sources for the energy scale monitoring in the KATRIN experiment

Zbořil¹,

Bauer²,

Beck³

et al. 2013

J. Inst.

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The KATRIN experiment aims at the direct model-independent determination of the average electron neutrino mass via the measurement of the endpoint region of the tritium beta decay spectrum. The electron spectrometer of the MAC-E filter type is used, requiring very high stability of the electric filtering potential. This work proves the feasibility of implanted 83 Rb/ 83m Kr calibration electron sources which will be utilised in the additional monitor spectrometer sharing the high voltage with the main spectrometer of KATRIN. The source employs conversion electrons of 83m Kr which is continuously generated by 83 Rb. The K-32 conversion line (kinetic energy of 17.8 keV, natural line width of 2.7 eV) is shown to fulfill the KATRIN requirement of the relative energy stability of ±1.6 ppm/month. The sources will serve as a standard tool for continuous monitoring of KATRIN's energy scale stability with sub-ppm precision. They may also be used in other applications where the precise conversion lines can be separated from the low energy spectrum caused by the electron inelastic scattering in the substrate.

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Ethanol fixation method for heart and lung imaging in micro-CT

et al. 2019

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J. Žemlička

High-contrast X-ray micro-radiography and micro-CT of ex-vivo soft tissue murine organs utilizing ethanol fixation and large area photon-counting detector

Patterns of growth in monitor lizards (Varanidae) as revealed by computed tomography of femoral growth plates

Ultra-stable implanted⁸³Rb/^83mKr electron sources for the energy scale monitoring in the KATRIN experiment

Ethanol fixation method for heart and lung imaging in micro-CT

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J. Žemlička

High-contrast X-ray micro-radiography and micro-CT of ex-vivo soft tissue murine organs utilizing ethanol fixation and large area photon-counting detector

Patterns of growth in monitor lizards (Varanidae) as revealed by computed tomography of femoral growth plates

Ultra-stable implanted83Rb/83mKr electron sources for the energy scale monitoring in the KATRIN experiment

Ethanol fixation method for heart and lung imaging in micro-CT

Contact Info

Product

Resources

About

Ultra-stable implanted⁸³Rb/^83mKr electron sources for the energy scale monitoring in the KATRIN experiment