Resolution improvement in emission optical projection tomography (original) (raw)

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Microscopic Optical Projection Tomography In Vivo Cover Page

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Three-dimensional imaging of single isolated cell nuclei using optical projection tomography Cover Page

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Optical Sectioning Deep Inside Live Embryos by Selective Plane Illumination Microscopy Cover Page

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Normalized Born ratio for fluorescence optical projection tomography Cover Page

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Versatile confocal/optical coherence tomography system for embryonic developmental imaging Cover Page

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Imaging of molecular probe activity with Born-normalized fluorescence optical projection tomography Cover Page

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Design and Implementation of a Custom Built Optical Projection Tomography System Cover Page

OptiJ: Open-source optical projection tomography of large organ samples

The three-dimensional imaging of mesoscopic samples with Optical Projection Tomography (OPT) has become a powerful tool for biomedical phenotyping studies. OPT uses visible light to visualize the 3D morphology of large transparent samples. To enable a wider application of OPT, we present OptiJ, a low-cost, fully open-source OPT system capable of imaging large transparent specimens up to 13 mm tall and 8 mm deep with 50 μm resolution. OptiJ is based on off-the-shelf, easy-to-assemble optical components and an ImageJ plugin library for OPT data reconstruction. The software includes novel correction routines for uneven illumination and sample jitter in addition to CPU/GPU accelerated reconstruction for large datasets. We demonstrate the use of OptiJ to image and reconstruct cleared lung lobes from adult mice. We provide a detailed set of instructions to set up and use the OptiJ framework. Our hardware and software design are modular and easy to implement, allowing for further open micr...

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OptiJ: Open-source optical projection tomography of large organ samples Cover Page

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Incorporation of an experimentally determined MTF for spatial frequency filtering and deconvolution during optical projection tomography reconstruction Cover Page

Image processing assisted algorithms for optical projection tomography

IEEE transactions on medical imaging, 2012

Since it was first presented in 2002, optical projection tomography (OPT) has emerged as a powerful tool for the study of biomedical specimen on the mm to cm scale. In this paper, we present computational tools to further improve OPT image acquisition and tomographic reconstruction. More specifically, these methods provide: semi-automatic and precise positioning of a sample at the axis of rotation and a fast and robust algorithm for determination of postalignment values throughout the specimen as compared to existing methods. These tools are easily integrated for use with current commercial OPT scanners and should also be possible to implement in "home made" or experimental setups for OPT imaging. They generally contribute to increase acquisition speed and quality of OPT data and thereby significantly simplify and improve a number of three-dimensional and quantitative OPT based assessments.

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Image processing assisted algorithms for optical projection tomography Cover Page