Detail

Keywords

Magnetic Resonance Spectroscopy; Motion; Ultrahigh field MRI

Research group(s)

• Body MR and Motion Compensation
  Members:
  Lorenz Kiss
  Martin Meyerspeer
  Albrecht Ingo Schmid
  Stefan Wampl
• High Field Magnetic Resonance Imaging and Spectroscopy
  Research Area: musculoskeletal MR; neuroimaging; metabolic MR imaging and spectroscopy
  Members:
  Viola Bader
  Wolfgang Bogner
  Tim Max Emmenegger
  Sabina Frese
  Gilbert Hangel
  Lukas Hingerl
  Sara Huskić
  Veronika Janacova
  Vladimir Juras
  Philipp Lazen
  Stanislav Motyka
  Eva Niess
  Fabian Niess
  Aaron Paul Osburg
  Anna Petrova
  Ivan Petrović
  Rebeka Rumbak
  Haniye Shayeste
  Diana Sitarcikova
  Bernhard Strasser
  Alireza Vasfi
  Stefan Wampl
  Paul Weiser
  Patrick Will
  Anna Zöchner
• Juchem Group
  Head: Christoph Juchem
  Members:
  Christoph Juchem
  Diana Rotaru
  Stefan Wampl
  Isabelle Zinghini
• MR Physics
  Head: Christoph Juchem
  Research Area: The Division of MR Physics is pursuing basic methodological and translational/clinical research in the areas of magnetic resonance (MR) imaging and spectroscopy.
  Members:
  Andreas Georg Berg
  Veronika Cap
  Roberta Frass-Kriegl
  Jean-Lynce Gnanago
  Sarah Grosshagauer
  Minyan Huang
  Christoph Juchem
  Lorenz Kiss
  Elmar Laistler
  David Linhardt
  Laura Lintner
  Martin Meyerspeer
  Siddharth Mittal
  Lena Nohava
  Bastian Rapp
  Kostiantyn Repnin
  Vasco Rafael Rocha dos Santos
  Aleksandar Roncevic
  Albrecht Ingo Schmid
  Martin Tik
  Stefan Wampl
  Christian Windischberger
  Michael Woletz
  Niraj Yadav
  Isabelle Zinghini

Research interests

My research focuses on the development of novel magnetic resonance imaging and spectroscopy methods, with an emphasis on MR pulse sequence design, scanner integration, and real-time motion updates. Earlier work centered on cardiac phosphorus (^31P) magnetic resonance spectroscopy, including protocol optimization, comparative studies in healthy volunteers, pulse sequence refinement, and applications in cohorts with muscle disease and ME/CFS. More recently, my research has been expanding toward advanced shimming methods, with the goal of improving field homogeneity and enabling more robust MR acquisitions.

Selected publications

1. Wampl, S. et al. (2024) “A modular motion compensation pipeline for prospective respiratory motion correction of multi-nuclear MR spectroscopy,” Scientific Reports. Edited by , 14(1). Available at: https://doi.org/10.1038/s41598-024-61403-w.
2. Wampl, S. et al. (2021) “Investigating the effect of trigger delay on cardiac 31P MRS signals,” Scientific Reports. Edited by , 11(1). Available at: https://doi.org/10.1038/s41598-021-87063-8.
3. Wampl, S. et al. (2017) “Quantification accuracy of neuro-oncology PET data as a function of emission scan duration in PET/MR compared to PET/CT,” European Journal of Radiology. Edited by , 95, pp. 257–264. Available at: https://doi.org/10.1016/j.ejrad.2017.08.024.
4. Roat, S. et al. (2020) “A Flexible Array for Cardiac 31P MR Spectroscopy at 7 T,” Frontiers in Physics. Edited by , 8. Available at: https://doi.org/10.3389/fphy.2020.00092.
5. Körner, T. et al. (2024) “A modular torso phantom featuring a pneumatic stepper and flow for MR sequence development,” Frontiers in Physics. Edited by , 12. Available at: https://doi.org/10.3389/fphy.2024.1369574.