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  • Authors: Pietrini, Pietro;
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  • Authors: Matthew S. Fox; Marcus J. Couch; Mitchell S. Albert;

    The use of laser-polarized xenon-129 (129Xe) as a novel contrast agent for magnetic resonance imaging (MRI) is quite useful for imaging the lungs and other organs such as the brain. From the earliest days of HP 129Xe MRI, the original interest of one of the co-inventors (Dr Mitchell Albert) was to use 129Xe to better understand the brain and directly image the effect of anaesthesia on brain function. Since xenon is a known anaesthetic and 129Xe is a spin 1/2 nucleus it was a logical choice to study the effects of anaesthesia on the brain using MRI. In this chapter, we will briefly review some historical advancements for functional brain imaging, such as functional magnetic resonance imaging (fMRI) and the use of 129Xe for animal and human brain imaging. The practical considerations for imaging the human brain using magnetic resonance will also be discussed. Considerations include: hyperpolarized gases, physical and chemical properties of xenon, routes and methods of delivery, physiological effects and patient safety. Finally, some basic ground-work and recent literature in the development of brain imaging using HP 129Xe in animals and humans will be discussed.

    https://doi.org/10.1...arrow_drop_down
    https://doi.org/10.1039/978178...
    Part of book or chapter of book . 2015 . Peer-reviewed
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      https://doi.org/10.1039/978178...
      Part of book or chapter of book . 2015 . Peer-reviewed
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    Authors: Tomaiuolo, Francesco; Raffa, Giovanni; Morelli, Adolfo; Rizzo, Vincenzo; +2 Authors

    AbstractSurgical resection of brain tumours aims at the maximal safe resection of the pathological tissue with minimal functional impairment. To achieve this objective, reliable anatomical landmarks are indispensable to navigate into the brain. The neuronavigation system can provide information to target the location of the patient's lesion, but after the craniotomy, a brain shift and relaxation mismatch with it often occur. By contrast, sulci/gyri are topological cerebral landmarks in individual patients and do shift with the brain parenchyma during lesion removal, but remain independent from brain shift in relation to the sulci/gyri. Here, we present a case report of a novel strategy based on anatomical landmarks to guide intraoperative brain tumour resection, without using a standard neuronavigation system. A preoperative brain mapping of the peri‐tumoural sulci by the MRI and surface reconstruction was followed by confirmation of the anatomical landmarks for the motor cortex using navigated transcranial magnetic stimulation. The resulting location was used as a seed for diffusion tensor imaging tractography to reconstruct the corticospinal tracts. These selected cortical landmarks (sulci/gyri) delimited the margins of the two lesions and the specific location under which the corticospinal tract courses, thus facilitating monitoring of the peri‐tumoural region during brain resection. In this case, 96% of the brain tumour from the pericentral somatomotor region was successfully removed without chronic post‐operative motor impairments. This approach is based on cortical anatomy that is fixed during surgery and does not suffer from the brain shift that could misplace the lesion according to the neuronavigation system.

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    European Journal of Neuroscience
    Article . 2022 . Peer-reviewed
    License: CC BY NC
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      European Journal of Neuroscience
      Article . 2022 . Peer-reviewed
      License: CC BY NC
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    Authors: DUSI, Nicola; BELLANI, Marcella; MARINELLI, Veronica; PERLINI, Cinzia; +3 Authors
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    Authors: Tognin S; RAMBALDELLI, Gianluca; BELLANI, Marcella; PERLINI, Cinzia; +4 Authors
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  • Authors: PIETRINI, PIETRO;
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    Authors: GALLIANI, Ivan; Fabrizio Rasi;
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  • Authors: G, Schuierer; P, Reimer; T, Allkemper; P E, Peters;

    Fast spin-echo sequences, which are based on the RARE sequence, accelerate MRI significantly. The basic principle of fast- or turbo-spin-echo sequences (FSE, TSE), as well as of the gradient-and-spin-echo sequences (GRASE, TGSE), is the sampling of multiple independently phase-encoded echos after each excitation. The basic principles of these sequences and the potentials and limitations of their clinical application are discussed. Their main advantage is a significant reduction of the time for data acquisition, which allows either a reduction of imaging time or high-resolution images even with T2-weighting. The fast sequences provide all possibilities of contrast variation and of preparation pulses such as fat saturation or water suppression. Despite some restrictions, of which reduced susceptibility is clinically relevant, they can replace conventional spin-echo sequences in brain imaging.

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  • Authors: F, Fellner; N, Obletter; J, Trenkler; C, Fellner;
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  • Authors: In, Myung-Ho; Posnansky, Oleg; Speck, Oliver;

    To accurately correct diffusion-encoding direction-dependent eddy-current-induced geometric distortions in diffusion-weighted echo-planar imaging (DW-EPI) and to minimize the calibration time at 7 Tesla (T).A point spread function (PSF) mapping based eddy-current calibration method is newly presented to determine eddy-current-induced geometric distortions even including nonlinear eddy-current effects within the readout acquisition window. To evaluate the temporal stability of eddy-current maps, calibration was performed four times within 3 months. Furthermore, spatial variations of measured eddy-current maps versus their linear superposition were investigated to enable correction in DW-EPIs with arbitrary diffusion directions without direct calibration. For comparison, an image-based eddy-current correction method was additionally applied. Finally, this method was combined with a PSF-based susceptibility-induced distortion correction approach proposed previously to correct both susceptibility and eddy-current-induced distortions in DW-EPIs.Very fast eddy-current calibration in a three-dimensional volume is possible with the proposed method. The measured eddy-current maps are very stable over time and very similar maps can be obtained by linear superposition of principal-axes eddy-current maps. High resolution in vivo brain results demonstrate that the proposed method allows more efficient eddy-current correction than the image-based method.The combination of both PSF-based approaches allows distortion-free images, which permit reliable analysis in diffusion tensor imaging applications at 7T.

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  • Authors: Pietrini, Pietro;
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  • Authors: Matthew S. Fox; Marcus J. Couch; Mitchell S. Albert;

    The use of laser-polarized xenon-129 (129Xe) as a novel contrast agent for magnetic resonance imaging (MRI) is quite useful for imaging the lungs and other organs such as the brain. From the earliest days of HP 129Xe MRI, the original interest of one of the co-inventors (Dr Mitchell Albert) was to use 129Xe to better understand the brain and directly image the effect of anaesthesia on brain function. Since xenon is a known anaesthetic and 129Xe is a spin 1/2 nucleus it was a logical choice to study the effects of anaesthesia on the brain using MRI. In this chapter, we will briefly review some historical advancements for functional brain imaging, such as functional magnetic resonance imaging (fMRI) and the use of 129Xe for animal and human brain imaging. The practical considerations for imaging the human brain using magnetic resonance will also be discussed. Considerations include: hyperpolarized gases, physical and chemical properties of xenon, routes and methods of delivery, physiological effects and patient safety. Finally, some basic ground-work and recent literature in the development of brain imaging using HP 129Xe in animals and humans will be discussed.

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    https://doi.org/10.1039/978178...
    Part of book or chapter of book . 2015 . Peer-reviewed
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      https://doi.org/10.1039/978178...
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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Tomaiuolo, Francesco; Raffa, Giovanni; Morelli, Adolfo; Rizzo, Vincenzo; +2 Authors

    AbstractSurgical resection of brain tumours aims at the maximal safe resection of the pathological tissue with minimal functional impairment. To achieve this objective, reliable anatomical landmarks are indispensable to navigate into the brain. The neuronavigation system can provide information to target the location of the patient's lesion, but after the craniotomy, a brain shift and relaxation mismatch with it often occur. By contrast, sulci/gyri are topological cerebral landmarks in individual patients and do shift with the brain parenchyma during lesion removal, but remain independent from brain shift in relation to the sulci/gyri. Here, we present a case report of a novel strategy based on anatomical landmarks to guide intraoperative brain tumour resection, without using a standard neuronavigation system. A preoperative brain mapping of the peri‐tumoural sulci by the MRI and surface reconstruction was followed by confirmation of the anatomical landmarks for the motor cortex using navigated transcranial magnetic stimulation. The resulting location was used as a seed for diffusion tensor imaging tractography to reconstruct the corticospinal tracts. These selected cortical landmarks (sulci/gyri) delimited the margins of the two lesions and the specific location under which the corticospinal tract courses, thus facilitating monitoring of the peri‐tumoural region during brain resection. In this case, 96% of the brain tumour from the pericentral somatomotor region was successfully removed without chronic post‐operative motor impairments. This approach is based on cortical anatomy that is fixed during surgery and does not suffer from the brain shift that could misplace the lesion according to the neuronavigation system.

    image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/ European Journal of ...arrow_drop_down
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    European Journal of Neuroscience
    Article . 2022 . Peer-reviewed
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      European Journal of Neuroscience
      Article . 2022 . Peer-reviewed
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    Authors: DUSI, Nicola; BELLANI, Marcella; MARINELLI, Veronica; PERLINI, Cinzia; +3 Authors
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    Authors: Tognin S; RAMBALDELLI, Gianluca; BELLANI, Marcella; PERLINI, Cinzia; +4 Authors
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      image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/ IRIS - Università de...arrow_drop_down
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      This Research product is the result of merged Research products in OpenAIRE.

      You have already added works in your ORCID record related to the merged Research product.