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2019 Journal Article On the analysis of rapidly sampled fMRI dataChen, Jingyuan E., Polimeni, Jonathan R., Bollmann, Saskia and Glover, Gary H. (2019). On the analysis of rapidly sampled fMRI data. NeuroImage, 188, 807-820. doi: 10.1016/j.neuroimage.2019.02.008 |
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2017 Journal Article Serial correlations in single-subject fMRI with sub-second TRBollmann, Saskia, Puckett, Alexander M., Cunnington, Ross and Barth, Markus (2017). Serial correlations in single-subject fMRI with sub-second TR. NeuroImage, 166, 152-166. doi: 10.1016/j.neuroimage.2017.10.043 |
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2017 Journal Article Analysis and correction of field fluctuations in fMRI data using field monitoringBollmann, Saskia, Kasper, Lars, Vannesjo, S. Johanna, Diaconescu, Andreea O., Dietrich, Benjamin E., Gross, Simon, Stephan, Klaas E. and Pruessmann, Klaas P. (2017). Analysis and correction of field fluctuations in fMRI data using field monitoring. Neuroimage, 154, 92-105. doi: 10.1016/j.neuroimage.2017.01.014 |
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2025 Journal Article An fMRI dataset for appetite neural correlates in people living with Motor Neuron DiseaseChang, Jeryn, Lv, JingLei, Guo, Christine C., Lucia, Diana, Bollmann, Saskia, Garner, Kelly, McCombe, Pamela A., Henderson, Robert D., Shaw, Thomas B., Steyn, Frederik J. and Ngo, Shyuan T. (2025). An fMRI dataset for appetite neural correlates in people living with Motor Neuron Disease. Scientific Data, 12 (1) 466, 466. doi: 10.1038/s41597-025-04828-w |
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2025 Journal Article Appetite loss in patients with motor neuron disease: impact on weight loss and neural correlates of visual food cuesChang, Jeryn, Shaw, Thomas B., McCombe, Pamela A., Henderson, Robert D., Lucia, Diana, Guo, Christine C., Lv, Jinglei, Garner, Kelly, Bollmann, Saskia, Ngo, Shyuan T. and Steyn, Frederik J. (2025). Appetite loss in patients with motor neuron disease: impact on weight loss and neural correlates of visual food cues. Brain Communications, 7 (2) fcaf111, 1-14. doi: 10.1093/braincomms/fcaf111 |
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2024 Journal Article VesselBoost: a Python toolbox for small blood vessel segmentation in human magnetic resonance angiography dataXu, Marshall, Ribeiro, Fernanda L., Barth, Markus, Bernier, Michaël, Bollmann, Steffen, Chatterjee, Soumick, Cognolato, Francesco, Gulban, Omer F., Itkyal, Vaibhavi, Liu, Siyu, Mattern, Hendrik, Polimeni, Jonathan R., Shaw, Thomas B., Speck, Oliver and Bollmann, Saskia (2024). VesselBoost: a Python toolbox for small blood vessel segmentation in human magnetic resonance angiography data. Aperture Neuro, 4, 1-13. doi: 10.52294/001c.123217 |
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2024 Journal Article Three-dimensional EPI with shot-selective CAIPIRIHANA for rapid high-resolution quantitative susceptibility mapping at 3 TTourell, Monique, Jin, Jin, Bachrata, Beata, Stewart, Ashley, Ropele, Stefan, Enzinger, Christian, Bollmann, Saskia, Bollmann, Steffen, Robinson, Simon Daniel, O'Brien, Kieran and Barth, Markus (2024). Three-dimensional EPI with shot-selective CAIPIRIHANA for rapid high-resolution quantitative susceptibility mapping at 3 T. Magnetic Resonance in Medicine, 92 (3), 997-1010. doi: 10.1002/mrm.30101 |
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2024 Journal Article Neurodesk: an accessible, flexible and portable data analysis environment for reproducible neuroimagingRenton, Angela I., Dao, Thuy T., Johnstone, Tom, Civier, Oren, Sullivan, Ryan P., White, David J., Lyons, Paris, Slade, Benjamin M., Abbott, David F., Amos, Toluwani J., Bollmann, Saskia, Botting, Andy, Campbell, Megan E. J., Chang, Jeryn, Close, Thomas G., Dörig, Monika, Eckstein, Korbinian, Egan, Gary F., Evas, Stefanie, Flandin, Guillaume, Garner, Kelly G., Garrido, Marta I., Ghosh, Satrajit S., Grignard, Martin, Halchenko, Yaroslav O., Hannan, Anthony J., Heinsfeld, Anibal S., Huber, Laurentius, Hughes, Matthew E. ... Bollmann, Steffen (2024). Neurodesk: an accessible, flexible and portable data analysis environment for reproducible neuroimaging. Nature Methods, 21 (2), 804-808. doi: 10.1038/s41592-023-02145-x |
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2023 Journal Article Improved dynamic distortion correction for fMRI using single‐echo EPI and a readout‐reversed first image (REFILL)Robinson, Simon Daniel, Bachrata, Beata, Eckstein, Korbinian, Bollmann, Saskia, Bollmann, Steffen, Dymerska, Barbara, Hodono, Shota, Cloos, Martijn, Tourell, Monique, Jin, Jin, O'Brien, Kieran, Reutens, David C., Trattnig, Siegfried, Enzinger, Christian and Barth, Markus (2023). Improved dynamic distortion correction for fMRI using single‐echo EPI and a readout‐reversed first image (REFILL). Human Brain Mapping, 44 (15), 5095-5112. doi: 10.1002/hbm.26440 |
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2023 Journal Article Scaling the mountains: what lies above 7 Tesla magnetic resonance?Schmidt, Rita, Keban, Elena, Bollmann, Saskia, Wiggins, Christopher J. and Niendorf, Thoralf (2023). Scaling the mountains: what lies above 7 Tesla magnetic resonance?. Magnetic Resonance Materials in Physics, Biology and Medicine, 36 (2), 151-157. doi: 10.1007/s10334-023-01087-x |
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2023 Journal Article Correction to: Scaling the mountains: what lies above 7 Tesla magnetic resonance? (Magnetic Resonance Materials in Physics, Biology and Medicine, (2023), 36, 2, (151-157), 10.1007/s10334-023-01087-x)Schmidt, Rita, Kleban, Elena, Bollmann, Saskia, Wiggins, Christopher J. and Niendorf, Thoralf (2023). Correction to: Scaling the mountains: what lies above 7 Tesla magnetic resonance? (Magnetic Resonance Materials in Physics, Biology and Medicine, (2023), 36, 2, (151-157), 10.1007/s10334-023-01087-x). Magnetic Resonance Materials in Physics, Biology and Medicine, 36 (5), 849-849. doi: 10.1007/s10334-023-01097-9 |
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2022 Journal Article Mesoscopic in vivo human T2* dataset acquired using quantitative MRI at 7 TeslaGulban, Omer Faruk, Bollmann, Saskia, Huber, Laurentius (Renzo), Wagstyl, Konrad, Goebel, Rainer, Poser, Benedikt A., Kay, Kendrick and Ivanov, Dimo (2022). Mesoscopic in vivo human T2* dataset acquired using quantitative MRI at 7 Tesla. NeuroImage, 264 119733, 1-15. doi: 10.1016/j.neuroimage.2022.119733 |
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2022 Journal Article Modelling the depth‐dependent VASO and BOLD responses in human primary visual cortexAkbari, Atena, Bollmann, Saskia, Ali, Tonima S. and Barth, Markus (2022). Modelling the depth‐dependent VASO and BOLD responses in human primary visual cortex. Human Brain Mapping, 44 (2), 710-726. doi: 10.1002/hbm.26094 |
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2022 Journal Article Imaging of the pial arterial vasculature of the human brain in vivo using high-resolution 7T time-of-flight angiographyBollmann, Saskia, Mattern, Hendrik, Bernier, Michaël, Robinson, Simon D., Park, Daniel J., Speck, Oliver and Polimeni, Jonathan R. (2022). Imaging of the pial arterial vasculature of the human brain in vivo using high-resolution 7T time-of-flight angiography. eLife, 11 e71186, 1-35. doi: 10.7554/elife.71186 |
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2022 Journal Article Unsupervised physiological noise correction of functional magnetic resonance imaging data using phase and magnitude information (PREPAIR)Bancelin, David, Bachrata, Beata, Bollmann, Saskia, de Lima Cardoso, Pedro, Szomolanyi, Pavol, Trattnig, Siegfried and Robinson, Simon Daniel (2022). Unsupervised physiological noise correction of functional magnetic resonance imaging data using phase and magnitude information (PREPAIR). Human Brain Mapping, 44 (3), 1209-1226. doi: 10.1002/hbm.26152 |
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2021 Journal Article New acquisition techniques and their prospects for the achievable resolution of fMRIBollmann, Saskia and Barth, Markus (2021). New acquisition techniques and their prospects for the achievable resolution of fMRI. Progress in Neurobiology, 207 101936, 1-15. doi: 10.1016/j.pneurobio.2020.101936 |
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2021 Journal Article Centering inclusivity in the design of online conferences—An OHBM–Open Science perspectiveLevitis, Elizabeth, van Praag, Cassandra D Gould, Gau, Rémi, Heunis, Stephan, DuPre, Elizabeth, Kiar, Gregory, Bottenhorn, Katherine L, Glatard, Tristan, Nikolaidis, Aki, Whitaker, Kirstie Jane, Mancini, Matteo, Niso, Guiomar, Afyouni, Soroosh, Alonso-Ortiz, Eva, Appelhoff, Stefan, Arnatkeviciute, Aurina, Atay, Selim Melvin, Auer, Tibor, Baracchini, Giulia, Bayer, Johanna M M, Beauvais, Michael J S, Bijsterbosch, Janine D, Bilgin, Isil P, Bollmann, Saskia, Bollmann, Steffen, Botvinik-Nezer, Rotem, Bright, Molly G, Calhoun, Vince D, Chen, Xiao ... Maumet, Camille (2021). Centering inclusivity in the design of online conferences—An OHBM–Open Science perspective. GigaScience, 10 (8) giab051. doi: 10.1093/gigascience/giab051 |
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2021 Journal Article Brainhack: Developing a culture of open, inclusive, community-driven neuroscienceGau, Rémi, Noble, Stephanie, Heuer, Katja, Bottenhorn, Katherine L., Bilgin, Isil P., Yang, Yu-Fang, Huntenburg, Julia M., Bayer, Johanna M.M., Bethlehem, Richard A.I., Rhoads, Shawn A., Vogelbacher, Christoph, Borghesani, Valentina, Levitis, Elizabeth, Wang, Hao-Ting, Van Den Bossche, Sofie, Kobeleva, Xenia, Legarreta, Jon Haitz, Guay, Samuel, Atay, Selim Melvin, Varoquaux, Gael P., Huijser, Dorien C., Sandström, Malin S., Herholz, Peer, Nastase, Samuel A., Badhwar, AmanPreet, Dumas, Guillaume, Schwab, Simon, Moia, Stefano, Dayan, Michael ... Zuo, Xi-Nian (2021). Brainhack: Developing a culture of open, inclusive, community-driven neuroscience. Neuron, 109 (11), 1769-1775. doi: 10.1016/j.neuron.2021.04.001 |
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2021 Journal Article TAPAS: An Open-Source Software Package for Translational Neuromodeling and Computational PsychiatryFrässle, Stefan, Aponte, Eduardo A., Bollmann, Saskia, Brodersen, Kay H., Do, Cao T., Harrison, Olivia K., Harrison, Samuel J., Heinzle, Jakob, Iglesias, Sandra, Kasper, Lars, Lomakina, Ekaterina I., Mathys, Christoph, Müller-Schrader, Matthias, Pereira, Inês, Petzschner, Frederike H., Raman, Sudhir, Schöbi, Dario, Toussaint, Birte, Weber, Lilian A., Yao, Yu and Stephan, Klaas E. (2021). TAPAS: An Open-Source Software Package for Translational Neuromodeling and Computational Psychiatry. Frontiers in Psychiatry, 12 680811, 680811. doi: 10.3389/fpsyt.2021.680811 |
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2020 Journal Article Dissociable effects of tDCS polarity on latent decision processes are associated with individual differences in neurochemical concentrations and cortical morphologyFilmer, Hannah L., Ballard, Timothy, Ehrhardt, Shane E., Bollmann, Saskia, Shaw, Thomas B., Mattingley, Jason B. and Dux, Paul E. (2020). Dissociable effects of tDCS polarity on latent decision processes are associated with individual differences in neurochemical concentrations and cortical morphology. Neuropsychologia, 141 107433, 1-9. doi: 10.1016/j.neuropsychologia.2020.107433 |
