Cookie Settings

We use cookies to optimize our website. These include cookies that are necessary for the operation of the site, as well as those that are only used for anonymous statistic. You can decide for yourself which categories you want to allow. Further information can be found in our data privacy protection .


These cookies are necessary to run the core functionalities of this website and cannot be disabled.

Name Webedition CMS
Purpose This cookie is required by the CMS (Content Management System) Webedition for the system to function correctly. Typically, this cookie is deleted when the browser is closed.
Name econda
Purpose Session cookie emos_jcsid for the web analysis software econda. This runs in the “anonymized measurement” mode. There is no personal reference. As soon as the user leaves the site, tracking is ended and all data in the browser are automatically deleted.

These cookies help us understand how visitors interact with our website by collecting and analyzing information anonymously. Depending on the tool, one or more cookies are set by the provider.

Name econda
Purpose Statistics
External media

Content from external media platforms is blocked by default. If cookies from external media are accepted, access to this content no longer requires manual consent.

Name YouTube
Purpose Show YouTube content
Name Twitter
Purpose activate Twitter Feeds

Publications and Proceedings


  • Dietrich KA, Klüter S, Dinkel F, Echner G, Brons S, Orzada S, Debus J, Ladd ME, & Platt T. An essentially radiation-transparent body coil integrated with a patient rotation system for MR-guided particle therapy. Medical Physics. 
  • Dietrich KA, Orzada S, Fiedler TM, Dinkel F, Echner G, Klüter S, Debus J, Ladd ME, & Platt T. A radiation-transparent, rotatable receive-only extremity RF coil for flexible MR-guided particle therapy at 0.25 T. Proc Intl Soc Mag Reson Med. 2024; 32.


  • Dietrich KA, Klüter S, Debus J, Ladd ME, & Platt T. Performance of a rotatable Tx/Rx body coil for MR-guided particle therapy. Proc Intl Soc Mag Reson Med. 2023; 31: 4385.


  • Dietrich KA, Klüter S, Debus J, Dinkel F, Echner G, Ladd ME, & Platt T. Construction of a Tx/Rx body coil on a rotatable patient capsule for MR-guided particle therapy. Proc Intl Soc Mag Reson Med. 2022; 30: 1094.


  • Friedrich F, Hörner‐Rieber J, Renkamp CK, Klüter S, Bachert P, Ladd ME, & Knowles BR. Stability of conventional and machine learning‐based tumor auto‐segmentation techniques using undersampled dynamic radial bSSFP acquisitions on a 0.35 T hybrid MR‐linac system. Medical Physics. 2021; 48(2): 587-596.
  • Otazo R, Lambin P, Pignol JP, Ladd ME, Schlemmer HP, Baumann M, & Hricak H. MRI-guided radiation therapy: an emerging paradigm in adaptive radiation oncology. Radiology. 2021; 298(2): 248-260.
  • Dietrich KA, Klüter S, Knowles BR, Debus J, Ladd ME, & Platt T. Comparison of birdcage resonator designs for clinical MR-guided radiotherapy. Proc Intl Soc Mag Reson. Med. 2021; 29: 4013.
  • Friedrich F, Hörner-Rieber J, Bachert P, Ladd ME, Knowles BR. Neural network based denoising of high temporal resolution cine images for tumor tracking in MR-guided radiotherapy. Proc Intl Soc Mag Reson. Med. 2021; 29: 4249.
  • Mayer F, Bachert P, Ladd ME, Knowles BR. Ultrafast Non-uniform Fast Fourier Transform for real-time radial acquisitions. Proc Intl Soc Mag Reson. Med. 2021; 29: 2623.


  • Fischer C, Friedrich F, Bachert P, Ladd ME, and Knowles BR. Diaphragm motion prediction with a LSTM network using MRI k-space data. Proc Intl Soc Mag Reson Med. 2020; 28: 0813.
  • Friedrich F, Spindeldreier CK, Hörner-Rieber J, Klüter S, Bachert P, Ladd ME, and Knowles BR. Comparison of tumor autosegmentation techniques from an undersampled dynamic radial bSSFP acquisition on a low-field MR-linac. Proc Intl Soc Mag Reson Med. 2020; 28: 1138. 


  • Knowles BR, Friedrich F, Fischer C, Paech D, & Ladd ME. Beyond T2 and 3T: New MRI techniques for clinicians. Clinical and Translational Radiation Oncology; 2019, 18: 87-97.
  • Regnery S, Knowles BR, Paech D, Behl N, Meissner JE, Windisch P, ... & Adeberg S. High-resolution FLAIR MRI at 7 Tesla for treatment planning in glioblastoma patients. Radiotherapy and Oncology. 2019: 130: 180-184.
  • Straub S, Knowles BR, Flassbeck S, Steiger R, Ladd ME, & Gizewski ER. Mapping the human brainstem: Brain nuclei and fiber tracts at 3 T and 7 T. NMR in Biomedicine. 2019; 32(9): e4118.
  • Lange T, Taghizadeh E, Knowles BR, Südkamp NP, Zaitsev M, Meine H, & Izadpanah K. Quantification of patellofemoral cartilage deformation and contact area changes in response to static loading via high‐resolution MRI with prospective motion correction. Journal of Magnetic Resonance Imaging. 2019; 50(5): 1561-1570.
  • Friedrich F, Mann P, Spindeldreier C, Bachert P, Ladd ME, Klüter S, Knowles BR. Motion-Adaptive Temporal Resolution for Radial Real-Time Imaging at a Low-Field MR-Linac. Proc Intl Soc Mag Reson Med. 2019; 27: 3831.



← back

to top
powered by webEdition CMS