Alle Typen
2019
Lehrmaterial
Hands-on anatomical and functional fMRI. Vorlesung: 9th IMPRS NeuroCom Summer School, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany, 16. Juni 2019 - 19. Juni 2019
2016
Lehrmaterial
Realtime fMRI. Vorlesung: Workshop at 6th IMPRS NeuroCom Summer School, Leipzig, Germany, 04. Juli 2016 - 06. Juli 2016
Lehrmaterial
ESMRMB lectures on MR: "Quantitative MRI for characterising brain tissue microstructure". Vorlesung: Lecture, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany, 06. Juni 2016 - 08. Juni 2016
2021
Hochschulschrift - Doktorarbeit
Phase transitions between asynchronous and synchronous neural dynamics: Theoretical insight into the mechanisms behind neural oscillations in Parkinson's disease. Dissertation, University of Leipzig (2021)
2017
Beitrag in Lexikon
fMRI methods. In: Encyclopedia of Spectroscopy and Spectrometry, 3rd ed. Aufl., S. 670 - 677 (Hg. Lindon, J. C.; Tranter, G. E.; Koppenaal, D. W.). Elsevier, Amsterdam (2017)
2024
Preprint
Connectivity at fine scale: Mapping structural connective fields by tractography of short association fibres in vivo. bioRxiv (2024)
Preprint
Characterisation of laminar and vascular spatiotemporal dynamics of CBV and BOLD signals using VASO and ME-GRE at 7T in humans. bioRxiv (2024)
2023
Preprint
Reliability of task-based fMRI in the dorsal horn of the human spinal cord. bioRxiv (2023)
Preprint
Neuroinfectiology of an atypical anthrax-causing pathogen in wild chimpanzees. bioRxiv (2023)
Preprint
Dynamic layer-specific processing in the prefrontal cortex during working memory. bioRxiv (2023)
Preprint
Decoding of columnar-level organization across cortical depth using BOLD- and CBV-fMRI at 7 T. bioRxiv (2023)
2022
Preprint
High resolution quantitative and functional MRI indicate lower myelination of thin and thick stripes in human secondary visual cortex. bioRxiv (2022)
2021
Preprint
Correction of FLASH-based MT saturation in human brain for residual bias of B1-inhomogeneity at 3T. arXiv (2021)
2018
Preprint
Combining deep learning and active contours opens the way to robust, automated analysis of brain cytoarchitectonics. bioRxiv (2018)