Laistler | MedUni Vienna

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Wir entwickeln Hardware, um die Magnetresonanz schneller und besser zu machen.

Hochfrequenzspulen sind unsere Leidenschaft.

Unser Fokus liegt auf Design, Simulation und Konstruktion von nicht standardmäßigen Spulen, um das Optimum. Dabei erforschen wir insbesondere flexible & tragbare, multi-modale und Multi-Kern-Spulen.

Unsere Entwicklung endet nicht bei der Hardware - wir betreiben translationale Forschung, um unsere Spulen in die klinische Anwendung zu bringen.

Wir betreiben ein voll ausgestattetes Hochfrequenzlabor direkt neben dem 7 T (Tesla) und zwei 3 T MR-Scannern. Für elektromagnetische 3D-Simulationen verwenden wir spezielle Workstations mit leistungsstarken GPUs, um HF-Spulen zu optimieren und deren Sicherheit zu bewerten.

Unser Team ist ständig auf der Suche nach neuen Mitgliedern. Kontaktieren Sie Elmar Laistler, wenn Sie interessiert sind!

Team

Zentrum für Medizinische Physik und Biomedizinische Technik

Elmar Laistler

Gruppenleiter

Assoc. Prof. Dipl.-Ing. Dr. techn.
ORCID: 0000-0002-8344-8307
elmar.laistler@meduniwien.ac.at

Laura Lintner (PhD student)
Lena Nohava (Postdoc)
Aleksandar Rončević (PhD student)
Onisim Soanca (RF engineer)
Niraj Yadav (PhD student)

Forschungsthemen

Hardware >> Hochfrequenzspulen

Body >> Brust

Translationale Forschung mit der BraCoil
Erleichterung der Ultraschall-geführten Biopsie mithilfe von Brust-MRT in Rückenlage
Panoramadarstellung von Brustbildern
Evaluierung des Patientinnenkomforts

Neuro >> Neuromodulation

Transkranielle Magnetstimulation (TMS)
Concurrent TMS-fMRI
Transkranieller Ultraschall (TUS)
CITRUS: Ultraschall-Stimulation mit MR Kontrolle

Stoffwechsel >> X-Kern Spektroskopie

Messmethoden und Software >> Simulationen

Elektromagnetische Simulationen
Leistungsbilanz in der Simulation von Sendearrays

Projekte

Christian Doppler Labor für Patient:innen zentrierte Brustbildgebung (2024 - 2031)
CITRUS - Closed-Loop Individualized Image-guided Transcranial Ultrasonic Stimulation (2022 - current),
Horizon Europe
MRITwins – Twinning of Magnetic Resonance Imaging Research Institutes (2022 – current)
Horizon Europe
FlexShim (2019-2022)
OeNB (Oesterreichische Nationalbank), Jubiläumsfonds
BRACOIL - Smart bra-shaped MRI breast coil (2017-2022)
FWF (Austrian Science Fund), Joint Project with ANR (France)
pULSE - parallel transmit Ultra-fast Local SAR Estimation (2015-2019)
FWF (Austrian Science Fund), Stand-Alone Projects
FLEXAR7 - Multi-purpose FLEXible coil ARray for high resolution 7T MRI (2013-2018)
FWF (Austrian Science Fund), Joint Project with ANR (France)

Ausgewählte Publikationen

Obermann M, Nohava L, Frass-Kriegl R, Soanca O, Ginefri J-C, Felblinger J, Clauser P, Baltzer P, Laistler E.Panoramic magnetic resonance imaging of the breast with a wearable coil vest. Invest Radiol 2023; 58(11):799–810.
Nohava L, Czerny R, Roat S, Obermann M, Kuehne A, Frass-Kriegl R, Felblinger J, Ginefri J-C, Laistler E. Flexible multi-turn multi-gap coaxial RF coils: design concept and implementation for Magnetic Resonance Imaging at 3 and 7 Tesla. IEEE TMI 2021; 40(4):1267-1278.
Nohava L, Obermann M, Frass-Kriegl R, Soanca O, Laistler E. A modular system of flexible receive-only coil arrays for 3 T Magnetic Resonance Imaging. Z Med Phys 2023;
Frass-Kriegl R, Navarro de Lara LI, Pichler M, Sieg J, Moser E, Windischberger C, Laistler E, 2018. Flexible 23-channel coil array for high-resolution magnetic resonance imaging at 3 Tesla. PLOS ONE, 13(11), p.e0206963.
Navarro de Lara LI, Windischberger C, Kuehne A, Woletz M, Sieg J, Bestmann S, Weiskopf N, Strasser B, Moser E, Laistler E, 2014. A novel coil array for combined TMS/fMRI experiments at 3 T. Magnetic Resonance in Medicine, 74(5), pp.1492-1501.

Abschlussarbeiten

Obermann, Michael, Flexible Transmission Line Resonators Advancing Magnetic Resonance Imaging at 3 Tesla, PhD thesis, Medical University of Vienna, 2024.
Gruber, Bernhard, Pushing the Limits of Magnetic Resonance Imaging Instrumentation, PhD thesis, Medical University of Vienna, 2023.
Rapp, Bastian, Motion Detection in MRI Using Wireless Accelerometers and Beat Pilot Tone, Master thesis, TU Wien and and Medical University of Vienna, 2023.
Gomez Tamm, Ernesto, Development of a magnetic-resonance-compatible torso motion phantom, Master thesis, TU Wien and and Medical University of Vienna, 2023.
Czerny, Raphaela, Flexible coil arrays for magnetic resonance imaging – performance comparison of coaxial transmission line resonators and stranded wire elements, Master thesis, TU Wien and Medical University of Vienna, 2022.
Nohava, Lena, Concepts for Wearable Technology in MR: Lightweight Flexible Radio Frequency Coils and Optical Wireless Communication, PhD thesis, Université Paris-Saclay, 2020.
Czerny, Raphaela, Flexible radio frequency coils for Magnetic Resonance Imaging: loss comparison between multi-turn multi-gap coils and standard loop coils, Bachelor thesis, Vienna University of Technology, 2019.
Obermann, Michael, An ultra-flexible 3-channel receive-only coil array for 3T Magnetic Resonance Imaging made of coaxial transmission line resonators, Master thesis, Vienna University of Technology, 2018.
Hossein Nezhadian, Sajad, Réseau flexible de résonateurs à ligne de transmissions pour l'émission et la réception en IRM cardiaque à 7T, PhD thesis, Université Paris-Saclay/Paris-Sud, 2017.
Hosseini, Seyed Ehsan, An 8-channel receive-only radio frequency coil array for magnetic resonance microscopy at 7 Tesla, Master thesis, Vienna University of Technology, 2017.
Nohava, Lena, A parallel transmission pulse design framework for 7 T MRI with physical constraints and SAR minimization, Master thesis, University of Vienna, 2017.
Kühne, André, Parallel transmission in MRI - electromagnetic considerations and advances in signal chain hardware, PhD thesis, Otto-von-Guericke-Universität Magdeburg, 2016.
Navarro de Lara, Lucia Isabel, A receive-only phased array head coil for combined transcranial magnetic stimulation-functional magnetic resonance imaging experiments, PhD thesis, Medical University of Vienna, 2016.
Roat (Goluch), Sigrun, A design and development procedure for transceive radio frequency coils in ultra-high field magnetic resonance, PhD thesis, Medical University of Vienna, 2015.
Frass-Kriegl, Roberta, A flexible coil array for high resolution magnetic resonance imaging at 7 Tesla, PhD thesis, Medical University of Vienna, 2015.
Laistler, Elmar, Magnetic resonance micro-imaging of the human skin in vivo using miniature radio frequency coils, PhD thesis, Vienna University of Technology, 2010.
Laistler, Elmar, Correction of geometric distortions in EPI, Master thesis, Vienna University of Technology, 2005.

Alumni

Giacomo Barbone
Thomas Bogner
Laurids Brandl
Veronika Cap
David Cerveny
Raphaela Czerny
Barbara Dymerska
Thomas Fischer
Roberta Frass-Kriegl
Bernhard Gruber
Ehsan Hosseini
Sajad Hosseinnezhadian
André Kühne

Julia Kummer
Vivian Janicaud
Lucia Navarro de Lara
Michael Obermann
Camila Pereira-Sousa
Michael Pichler
Michael Raab
Bastian Rapp
Sigrun Roat
Jürgen Sieg
Ernesto Gomez Tamm
Martin Vit
Zuzanna Wojcik