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#mrinrt — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #mrinrt, aggregated by home.social.

  1. Signal-Based Motion Management in Abdominal #MRI for #Radiotherapy Planning by Terumasa Takemaru, et al. (Siemens Healthineers)

    This article provides an overview of free-breathing MR signal-based motion navigation strategies.
    It explains how to use purely MR signal-based motion management techniques for liver MRI using 4D MRI, 2D prospective acquisition correction (PACE) with liver dome scout, and 1D PACE.

    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  2. Signal-Based Motion Management in Abdominal #MRI for #Radiotherapy Planning by Terumasa Takemaru, et al. (Siemens Healthineers)

    This article provides an overview of free-breathing MR signal-based motion navigation strategies.
    It explains how to use purely MR signal-based motion management techniques for liver MRI using 4D MRI, 2D prospective acquisition correction (PACE) with liver dome scout, and 1D PACE.

    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  3. Signal-Based Motion Management in Abdominal #MRI for #Radiotherapy Planning by Terumasa Takemaru, et al. (Siemens Healthineers)

    This article provides an overview of free-breathing MR signal-based motion navigation strategies.
    It explains how to use purely MR signal-based motion management techniques for liver MRI using 4D MRI, 2D prospective acquisition correction (PACE) with liver dome scout, and 1D PACE.

    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  4. Bringing Spectroscopic #MRI Closer to Clinical Adoption: Results Guiding Radiation Treatment of High-Grade Gliomas by Hyunsuk Shim, Ph.D.; et al. (Dept of Radiation Oncology, Winship Cancer Institute of Emory University, Atlanta, GA, USA).

    Learn more about the potential of this technique for personalizing brain tumor treatment at the patient level. marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy #BrainTumorAwarenessMonth #MRSpectroscopy

  5. Bringing Spectroscopic #MRI Closer to Clinical Adoption: Results Guiding Radiation Treatment of High-Grade Gliomas by Hyunsuk Shim, Ph.D.; et al. (Dept of Radiation Oncology, Winship Cancer Institute of Emory University, Atlanta, GA, USA).

    Learn more about the potential of this technique for personalizing brain tumor treatment at the patient level. marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy #BrainTumorAwarenessMonth #MRSpectroscopy

  6. Bringing Spectroscopic #MRI Closer to Clinical Adoption: Results Guiding Radiation Treatment of High-Grade Gliomas by Hyunsuk Shim, Ph.D.; et al. (Dept of Radiation Oncology, Winship Cancer Institute of Emory University, Atlanta, GA, USA).

    Learn more about the potential of this technique for personalizing brain tumor treatment at the patient level. marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy #BrainTumorAwarenessMonth #MRSpectroscopy

  7. Combining CT-Based Online Adaptive #Radiotherapy with Offline MR Guidance: The Modular Adaptive Radiotherapy System (MARS) by Dr. Fabian Weykamp, et al. (DKFZ, Heidelberg; University Hospital Heidelberg, Germany).

    Learn more about the concept of a modular adaptive radiotherapy system, where additional sophisticated imaging modalities (such as a 3T #MRI) are integrated to enhance the possibilities of oART at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  8. Combining CT-Based Online Adaptive #Radiotherapy with Offline MR Guidance: The Modular Adaptive Radiotherapy System (MARS) by Dr. Fabian Weykamp, et al. (DKFZ, Heidelberg; University Hospital Heidelberg, Germany).

    Learn more about the concept of a modular adaptive radiotherapy system, where additional sophisticated imaging modalities (such as a 3T #MRI) are integrated to enhance the possibilities of oART at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  9. Combining CT-Based Online Adaptive #Radiotherapy with Offline MR Guidance: The Modular Adaptive Radiotherapy System (MARS) by Dr. Fabian Weykamp, et al. (DKFZ, Heidelberg; University Hospital Heidelberg, Germany).

    Learn more about the concept of a modular adaptive radiotherapy system, where additional sophisticated imaging modalities (such as a 3T #MRI) are integrated to enhance the possibilities of oART at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  10. Combining CT-Based Online Adaptive #Radiotherapy with Offline MR Guidance: The Modular Adaptive Radiotherapy System (MARS) by Dr. Fabian Weykamp, et al. (DKFZ, Heidelberg; University Hospital Heidelberg, Germany).

    Learn more about the concept of a modular adaptive radiotherapy system, where additional sophisticated imaging modalities (such as a 3T #MRI) are integrated to enhance the possibilities of oART at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  11. Combining CT-Based Online Adaptive #Radiotherapy with Offline MR Guidance: The Modular Adaptive Radiotherapy System (MARS) by Dr. Fabian Weykamp, et al. (DKFZ, Heidelberg; University Hospital Heidelberg, Germany).

    Learn more about the concept of a modular adaptive radiotherapy system, where additional sophisticated imaging modalities (such as a 3T #MRI) are integrated to enhance the possibilities of oART at marketing.webassets.siemens-he

    #magnetomworld #MRinRT #RadiationTherapy

  12. Biologically Targeted Radiation Therapy (BiRT): From Concept to Clinical Translation by
    Annette Haworth, et al. (University of Sydney, Australia)

    Cancers are well known for biological heterogeneity.

    BiRT uses knowledge of spatially heterogenous biological characteristics of tumors and their predicted response to treatment to prescribe a heterogeneous dose through the tumor volume.
    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRI #MRinRT #RadiationTherapy

  13. Biologically Targeted Radiation Therapy (BiRT): From Concept to Clinical Translation by
    Annette Haworth, et al. (University of Sydney, Australia)

    Cancers are well known for biological heterogeneity.

    BiRT uses knowledge of spatially heterogenous biological characteristics of tumors and their predicted response to treatment to prescribe a heterogeneous dose through the tumor volume.
    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRI #MRinRT #RadiationTherapy

  14. Biologically Targeted Radiation Therapy (BiRT): From Concept to Clinical Translation by
    Annette Haworth, et al. (University of Sydney, Australia)

    Cancers are well known for biological heterogeneity.

    BiRT uses knowledge of spatially heterogenous biological characteristics of tumors and their predicted response to treatment to prescribe a heterogeneous dose through the tumor volume.
    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRI #MRinRT #RadiationTherapy

  15. Biologically Targeted Radiation Therapy (BiRT): From Concept to Clinical Translation by
    Annette Haworth, et al. (University of Sydney, Australia)

    Cancers are well known for biological heterogeneity.

    BiRT uses knowledge of spatially heterogenous biological characteristics of tumors and their predicted response to treatment to prescribe a heterogeneous dose through the tumor volume.
    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRI #MRinRT #RadiationTherapy

  16. Biologically Targeted Radiation Therapy (BiRT): From Concept to Clinical Translation by
    Annette Haworth, et al. (University of Sydney, Australia)

    Cancers are well known for biological heterogeneity.

    BiRT uses knowledge of spatially heterogenous biological characteristics of tumors and their predicted response to treatment to prescribe a heterogeneous dose through the tumor volume.
    Learn more at marketing.webassets.siemens-he

    #magnetomworld #MRI #MRinRT #RadiationTherapy

  17. Celebrate a decade of “MReadings: MR in RT” with our 10th Edition!
    Introduced by Stephanie Tanadini-Lang, PhD, and Matthias Guckenberger, MD (Department of Radiation Oncology, Universitaätsspital Zürich, Switzerland) with an editorial comment on “Next-Generation MRI-Guided Radiotherapy”.

    Download the jubilee edition at marketing.webassets.siemens-he

    #magnetomworld #ESTRO2024 #RadiationTherapy #MRinRT #MRI

  18. Bring-Your-Own-Phantom (BYOP): A Flexible Stand-Alone Distortion Analysis Prototype

    Niranjan Venugopal, PhD (CancerCare Manitoba; University of Manitoba, Winnipeg, Canada); Lumeng Cui, PhD (Siemens Healthineers); et al. developed a novel online software prototype which can provide automatic vivid visualization and quantitative evaluation of spatial distortion for both small and large grid-like phantoms.
    Learn more at marketing.webassets.siemens-he
    #magnetomworld #MRinRT #MedPhys #MRI #radiotherapy

  19. Bring-Your-Own-Phantom (BYOP): A Flexible Stand-Alone Distortion Analysis Prototype

    Niranjan Venugopal, PhD (CancerCare Manitoba; University of Manitoba, Winnipeg, Canada); Lumeng Cui, PhD (Siemens Healthineers); et al. developed a novel online software prototype which can provide automatic vivid visualization and quantitative evaluation of spatial distortion for both small and large grid-like phantoms.
    Learn more at marketing.webassets.siemens-he
    #magnetomworld #MRinRT #MedPhys #MRI #radiotherapy

  20. Mastodon #introduction

    Responsible for #magnetomworld, the #SiemensHealthineers MRI community.
    I am editor-in-chief of #MagnetomFlash and toot about articles on all aspects of MR imaging, MR protocols, patient education and MR technology.

    #NewHere looking forward to building a network and finding #connections

    If you are interested in #mri #MRinRT #cardiology #medphys #pediatrics #neurorad or #petmri please check out magnetomworld.siemens-healthin

  21. Mastodon #introduction

    Responsible for #magnetomworld, the #SiemensHealthineers MRI community.
    I am editor-in-chief of #MagnetomFlash and toot about articles on all aspects of MR imaging, MR protocols, patient education and MR technology.

    #NewHere looking forward to building a network and finding #connections

    If you are interested in #mri #MRinRT #cardiology #medphys #pediatrics #neurorad or #petmri please check out magnetomworld.siemens-healthin