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Artículos de revistas sobre el tema "Whole brain imaging"

Autor: Grafiati
Publicado: 10 de marzo de 2023
Última modificación: 11 de marzo de 2023

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1

Jiang Tao, 江涛, 龚辉 Gong Hui, 骆清铭 Luo Qingming y 袁菁 Yuan Jing. "全脑显微光学成像". Chinese Journal of Lasers 50, n.º 3 (2023): 0307101. http://dx.doi.org/10.3788/cjl221247.

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2

Strack, Rita. "Whole-brain imaging with ExLLSM". Nature Methods 16, n.º 3 (27 de febrero de 2019): 217. http://dx.doi.org/10.1038/s41592-019-0336-8.

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3

Taranda, Julian y Sevin Turcan. "3D Whole-Brain Imaging Approaches to Study Brain Tumors". Cancers 13, n.º 8 (15 de abril de 2021): 1897. http://dx.doi.org/10.3390/cancers13081897.

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Although our understanding of the two-dimensional state of brain tumors has greatly expanded, relatively little is known about their spatial structures. The interactions between tumor cells and the tumor microenvironment (TME) occur in a three-dimensional (3D) space. This volumetric distribution is important for elucidating tumor biology and predicting and monitoring response to therapy. While static 2D imaging modalities have been critical to our understanding of these tumors, studies using 3D imaging modalities are needed to understand how malignant cells co-opt the host brain. Here we summarize the preclinical utility of in vivo imaging using two-photon microscopy in brain tumors and present ex vivo approaches (light-sheet fluorescence microscopy and serial two-photon tomography) and highlight their current and potential utility in neuro-oncology using data from solid tumors or pathological brain as examples.
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4

Huang, Raymond Y. y Alexander Lin. "Whole-Brain MR Spectroscopy Imaging of Brain Tumor Metabolites". Radiology 294, n.º 3 (marzo de 2020): 598–99. http://dx.doi.org/10.1148/radiol.2020192607.

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5

Cherry, Simon R. "Functional whole-brain imaging in behaving rodents". Nature Methods 8, n.º 4 (30 de marzo de 2011): 301–3. http://dx.doi.org/10.1038/nmeth0411-301.

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6

Vogt, Nina. "Unbiased, whole-brain imaging of neural circuits". Nature Methods 16, n.º 2 (30 de enero de 2019): 142. http://dx.doi.org/10.1038/s41592-019-0313-2.

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7

Vogt, Nina. "Chromatic multiphoton imaging of the whole brain". Nature Methods 16, n.º 6 (30 de mayo de 2019): 459. http://dx.doi.org/10.1038/s41592-019-0444-5.

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8

Sempeles, Susan. "Whole-Brain Mapping Enhanced by Automated Imaging". Journal of Clinical Engineering 37, n.º 2 (2012): 36–37. http://dx.doi.org/10.1097/jce.0b013e31824d8e8d.

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9

Offner, Thomas, Daniela Daume, Lukas Weiss, Thomas Hassenklöver y Ivan Manzini. "Whole-Brain Calcium Imaging in Larval Xenopus". Cold Spring Harbor Protocols 2020, n.º 12 (9 de octubre de 2020): pdb.prot106815. http://dx.doi.org/10.1101/pdb.prot106815.

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10

Hall, Håkan, Yasmin Hurd, Stefan Pauli, Christer Halldin y Göran Sedvall. "Human brain imaging post-mortem - whole hemisphere technologies". International Review of Psychiatry 13, n.º 1 (1 de febrero de 2001): 12–17. http://dx.doi.org/10.1080/09540260020024141.

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11

Hall, Håkan, Yasmin Hurd, Stefan Pauli, Christer Halldin y Göran Sedvall. "Human brain imaging post-mortem - whole hemisphere technologies". International Review of Psychiatry 13, n.º 1 (enero de 2001): 12–17. http://dx.doi.org/10.1080/09540260124940.

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12

Offner, Thomas, Daniela Daume, Lukas Weiss, Thomas Hassenklöver y Ivan Manzini. "Erratum: Whole-Brain Calcium Imaging in Larval Xenopus". Cold Spring Harbor Protocols 2020, n.º 11 (noviembre de 2020): pdb.err107425. http://dx.doi.org/10.1101/pdb.err107425.

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13

Mattay, V. S., J. A. Frank, A. K. Santha, J. J. Pekar, J. H. Duyn, A. C. McLaughlin y D. R. Weinberger. "Whole-brain functional mapping with isotropic MR imaging." Radiology 201, n.º 2 (noviembre de 1996): 399–404. http://dx.doi.org/10.1148/radiology.201.2.8888231.

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14

Orrison, W. W., K. V. Snyder, L. N. Hopkins, C. J. Roach, E. N. Ringdahl, R. Nazir y E. H. Hanson. "Whole-brain dynamic CT angiography and perfusion imaging". Clinical Radiology 66, n.º 6 (junio de 2011): 566–74. http://dx.doi.org/10.1016/j.crad.2010.12.014.

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15

Macé, Émilie, Gabriel Montaldo, Stuart Trenholm, Cameron Cowan, Alexandra Brignall, Alan Urban y Botond Roska. "Whole-Brain Functional Ultrasound Imaging Reveals Brain Modules for Visuomotor Integration". Neuron 100, n.º 5 (diciembre de 2018): 1241–51. http://dx.doi.org/10.1016/j.neuron.2018.11.031.

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16

Susaki, Etsuo A., Kazuki Tainaka, Dimitri Perrin, Hiroko Yukinaga, Akihiro Kuno y Hiroki R. Ueda. "Advanced CUBIC protocols for whole-brain and whole-body clearing and imaging". Nature Protocols 10, n.º 11 (8 de octubre de 2015): 1709–27. http://dx.doi.org/10.1038/nprot.2015.085.

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17

HAYWORTH, KENNETH J. "ELECTRON IMAGING TECHNOLOGY FOR WHOLE BRAIN NEURAL CIRCUIT MAPPING". International Journal of Machine Consciousness 04, n.º 01 (junio de 2012): 87–108. http://dx.doi.org/10.1142/s1793843012400057.

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18

Nguyen, David, Paul J. Marchand, Arielle L. Planchette, Julia Nilsson, Miguel Sison, Jérôme Extermann, Antonio Lopez et al. "Optical projection tomography for rapid whole mouse brain imaging". Biomedical Optics Express 8, n.º 12 (15 de noviembre de 2017): 5637. http://dx.doi.org/10.1364/boe.8.005637.

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19

Levin, Bonnie E., Heather L. Katzen, Andrew Maudsley, Judith Post, Connie Myerson, Varan Govind, Fatta Nahab, Blake Scanlon y Aaron Mittel. "Whole-Brain Proton MR Spectroscopic Imaging in Parkinson's Disease". Journal of Neuroimaging 24, n.º 1 (10 de diciembre de 2012): 39–44. http://dx.doi.org/10.1111/j.1552-6569.2012.00733.x.

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20

Ezzeddine, Mustapha A., Michael H. Lev, Colin T. McDonald, Guy Rordorf, Jamary Oliveira-Filho, Fatma Gul Aksoy, Jeffrey Farkas et al. "CT Angiography With Whole Brain Perfused Blood Volume Imaging". Stroke 33, n.º 4 (abril de 2002): 959–66. http://dx.doi.org/10.1161/hs0402.105388.

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21

Scott, Ethan. "Whole-brain imaging of sensory processing in larval zebrafish". IBRO Reports 6 (septiembre de 2019): S47. http://dx.doi.org/10.1016/j.ibror.2019.07.144.

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22

Rades, Dirk, Susanne Kieckebusch, Tiina Haatanen, Radka Lohynska, Juergen Dunst y Steven E. Schild. "Surgical Resection Followed by Whole Brain Radiotherapy Versus Whole Brain Radiotherapy Alone for Single Brain Metastasis". International Journal of Radiation Oncology*Biology*Physics 70, n.º 5 (abril de 2008): 1319–24. http://dx.doi.org/10.1016/j.ijrobp.2007.08.009.

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23

Kocher, Martin, Mohammad Maarouf, Mark Bendel, Juergen Voges, Rolf-Peter Müller y Volker Sturm. "Linac Radiosurgery Versus Whole Brain Radiotherapy for Brain Metastases". Strahlentherapie und Onkologie 180, n.º 5 (mayo de 2004): 263–67. http://dx.doi.org/10.1007/s00066-004-1180-y.

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24

Fleckenstein**, Katharina, Holger Hof**, Frank Lohr, Frederik Wenz y Michael Wannenmacher. "Prognostic Factors for Brain Metastases after Whole Brain Radiotherapy". Strahlentherapie und Onkologie 180, n.º 5 (mayo de 2004): 268–73. http://dx.doi.org/10.1007/s00066-004-1234-1.

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25

Wittkamp, Gunnar, Boris Buerke, Rainer Dziewas, Hendrik Ditt, Peter Seidensticker, Walter Heindel y Stephan P. Kloska. "Whole Brain Perfused Blood Volume CT". Academic Radiology 17, n.º 4 (abril de 2010): 427–32. http://dx.doi.org/10.1016/j.acra.2009.11.005.

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26

Sze, Sheila, Muoi N. Tran y Matthew Follwell. "Volumetric Whole Brain Irradiation Evaluation". Journal of Medical Imaging and Radiation Sciences 47, n.º 1 (marzo de 2016): S22—S23. http://dx.doi.org/10.1016/j.jmir.2015.12.070.

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27

Lefebvre, Joël, Patrick Delafontaine-Martel y Frédéric Lesage. "A Review of Intrinsic Optical Imaging Serial Blockface Histology (ICI-SBH) for Whole Rodent Brain Imaging". Photonics 6, n.º 2 (11 de junio de 2019): 66. http://dx.doi.org/10.3390/photonics6020066.

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In recent years, multiple serial histology techniques were developed to enable whole rodent brain imaging in 3-D. The main driving forces behind the emergence of these imaging techniques were the genome-wide atlas of gene expression in the mouse brain, the pursuit of the mouse brain connectome, and the BigBrain project. These projects rely on the use of optical imaging to target neuronal structures with histological stains or fluorescent dyes that are either expressed by transgenic mice or injected at specific locations in the brain. Efforts to adapt the serial histology acquisition scheme to use intrinsic contrast imaging (ICI) were also put forward, thus leveraging the natural contrast of neuronal tissue. This review focuses on these efforts. First, the origin of optical contrast in brain tissue is discussed with emphasis on the various imaging modalities exploiting these contrast mechanisms. Serial blockface histology (SBH) systems using ICI modalities are then reported, followed by a review of some of their applications. These include validation studies and the creation of multimodal brain atlases at a micrometer resolution. The paper concludes with a perspective of future developments, calling for a consolidation of the SBH research and development efforts around the world. The goal would be to offer the neuroscience community a single standardized open-source SBH solution, including optical design, acquisition automation, reconstruction algorithms, and analysis pipelines.
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28

Chen, Han, Tianyi Huang, Yuexin Yang, Xiao Yao, Yan Huo, Yu Wang, Wenyu Zhao, Runan Ji, Hongjiang Yang y Zengcai V. Guo. "Sparse imaging and reconstruction tomography for high-speed high-resolution whole-brain imaging". Cell Reports Methods 1, n.º 6 (octubre de 2021): 100089. http://dx.doi.org/10.1016/j.crmeth.2021.100089.

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29

Kim, Min-Oh, Joonsung Lee, Sang-Young Zho y Dong-Hyun Kim. "Accelerated MR whole brain imaging with sheared voxel imaging using aliasing separation gradients". Medical Physics 40, n.º 6Part1 (8 de mayo de 2013): 062301. http://dx.doi.org/10.1118/1.4803501.

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30

Oskan, F., U. Ganswindt, S. B. Schwarz, F. Manapov, C. Belka y M. Niyazi. "Hippocampus sparing in whole-brain radiotherapy". Strahlentherapie und Onkologie 190, n.º 4 (9 de marzo de 2014): 337–41. http://dx.doi.org/10.1007/s00066-013-0518-8.

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31

Ode, K. L. y H. R. Ueda. "Seeing the forest and trees: whole-body and whole-brain imaging for circadian biology". Diabetes, Obesity and Metabolism 17 (septiembre de 2015): 47–54. http://dx.doi.org/10.1111/dom.12511.

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32

Brunner, Clément, Micheline Grillet, Alan Urban, Botond Roska, Gabriel Montaldo y Emilie Macé. "Whole-brain functional ultrasound imaging in awake head-fixed mice". Nature Protocols 16, n.º 7 (4 de junio de 2021): 3547–71. http://dx.doi.org/10.1038/s41596-021-00548-8.

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33

Wolf, Sébastien, Willy Supatto, Georges Debrégeas, Pierre Mahou, Sergei G. Kruglik, Jean-Marc Sintes, Emmanuel Beaurepaire y Raphaël Candelier. "Whole-brain functional imaging with two-photon light-sheet microscopy". Nature Methods 12, n.º 5 (29 de abril de 2015): 379–80. http://dx.doi.org/10.1038/nmeth.3371.

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34

Thouvenin, Olivier y Claire Wyart. "Tracking microscopy enables whole-brain imaging in freely moving zebrafish". Nature Methods 14, n.º 11 (noviembre de 2017): 1041–42. http://dx.doi.org/10.1038/nmeth.4474.

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35

Rabut, Claire, Mafalda Correia, Victor Finel, Sophie Pezet, Mathieu Pernot, Thomas Deffieux y Mickael Tanter. "4D functional ultrasound imaging of whole-brain activity in rodents". Nature Methods 16, n.º 10 (23 de septiembre de 2019): 994–97. http://dx.doi.org/10.1038/s41592-019-0572-y.

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36

Lake, Evelyn M. R., Xinxin Ge, Xilin Shen, Peter Herman, Fahmeed Hyder, Jessica A. Cardin, Michael J. Higley et al. "Simultaneous cortex-wide fluorescence Ca2+ imaging and whole-brain fMRI". Nature Methods 17, n.º 12 (2 de noviembre de 2020): 1262–71. http://dx.doi.org/10.1038/s41592-020-00984-6.

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37

Manniesing, Rashindra, Marcel T. H. Oei, Bram van Ginneken y Mathias Prokop. "Quantitative Dose Dependency Analysis of Whole-Brain CT Perfusion Imaging". Radiology 278, n.º 1 (enero de 2016): 190–97. http://dx.doi.org/10.1148/radiol.2015142230.

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38

Ning, Kefu, Xiaoyu Zhang, Xuefei Gao, Tao Jiang, He Wang, Siqi Chen, Anan Li y Jing Yuan. "Deep-learning-based whole-brain imaging at single-neuron resolution". Biomedical Optics Express 11, n.º 7 (8 de junio de 2020): 3567. http://dx.doi.org/10.1364/boe.393081.

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39

Falkovskiy, Pavel, Daniel Brenner, Thorsten Feiweier, Stephan Kannengiesser, Bénédicte Maréchal, Tobias Kober, Alexis Roche et al. "Comparison of accelerated T1-weighted whole-brain structural-imaging protocols". NeuroImage 124 (enero de 2016): 157–67. http://dx.doi.org/10.1016/j.neuroimage.2015.08.026.

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40

Gauderon, P., M. Salluzzi, M. Lauzon, C. McCreary, M. Smith y R. Frayne. "SU-E-I-132: Whole-Brain DCE Quantitative Perfusion Imaging". Medical Physics 38, n.º 6Part6 (junio de 2011): 3426. http://dx.doi.org/10.1118/1.3611706.

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41

Makabe, Takeshi, Manami Nakamura y Ryo Moriyama. "Applicability of the 3D-VIBE Sequence to Whole Brain Imaging". Japanese Journal of Radiological Technology 65, n.º 7 (2009): 945–51. http://dx.doi.org/10.6009/jjrt.65.945.

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42

Scouten, A. y R. T. Constable. "Applications and limitations of whole-brain MAGIC VASO functional imaging". Magnetic Resonance in Medicine 58, n.º 2 (2007): 306–15. http://dx.doi.org/10.1002/mrm.21273.

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43

Mishra, Kanuj, Mariia Stankevych, Juan Pablo Fuenzalida-Werner, Simon Grassmann, Vipul Gujrati, Yuanhui Huang, Uwe Klemm, Veit R. Buchholz, Vasilis Ntziachristos y Andre C. Stiel. "Multiplexed whole-animal imaging with reversibly switchable optoacoustic proteins". Science Advances 6, n.º 24 (junio de 2020): eaaz6293. http://dx.doi.org/10.1126/sciadv.aaz6293.

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We introduce two photochromic proteins for cell-specific in vivo optoacoustic (OA) imaging with signal unmixing in the temporal domain. We show highly sensitive, multiplexed visualization of T lymphocytes, bacteria, and tumors in the mouse body and brain. We developed machine learning–based software for commercial imaging systems for temporal unmixed OA imaging, enabling its routine use in life sciences.
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44

Sneed, Penny K., Kathleen R. Lamborn, Julie M. Forstner, Michael W. McDermott, Susan Chang, Elaine Park, Philip H. Gutin, Theodore L. Phillips, William M. Wara y David A. Larson. "Radiosurgery for brain metastases: is whole brain radiotherapy necessary?" International Journal of Radiation Oncology*Biology*Physics 43, n.º 3 (febrero de 1999): 549–58. http://dx.doi.org/10.1016/s0360-3016(98)00447-7.

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45

Hashimoto, Hitoshi. "Unbiased whole-brain imaging to uncover molecular mechanisms and therapeutic targets for brain disorders". Proceedings for Annual Meeting of The Japanese Pharmacological Society 92 (2019): 1—SL01. http://dx.doi.org/10.1254/jpssuppl.92.0_1-sl01.

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46

Fujii, Osamu, Kayoko Tsujino, Toshinori Soejima, Eisaku Yoden, Yukako Ichimiya y Kazuro Sugimura. "White matter changes on magnetic resonance imaging following whole-brain radiotherapy for brain metastases". Radiation Medicine 24, n.º 5 (18 de julio de 2006): 345–50. http://dx.doi.org/10.1007/s11604-006-0039-9.

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47

Ding, X. Q., A. A. Maudsley, S. Sheriff, B. Schmitz y P. Bronzlik. "Neurometabolic changes in aging human brain observed with whole brain magnetic resonance spectroscopic imaging". New Biotechnology 44 (octubre de 2018): S13. http://dx.doi.org/10.1016/j.nbt.2018.05.165.

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48

Park, Jaeseok y Eung Yeop Kim. "Contrast-enhanced, three-dimensional, whole-brain, black-blood imaging: Application to small brain metastases". Magnetic Resonance in Medicine 63, n.º 3 (25 de febrero de 2010): 553–61. http://dx.doi.org/10.1002/mrm.22261.

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49

Sadikov, E., A. Bezjak, Q. L. Yi, W. Wells, L. Dawson y N. Laperriere. "48 Value of Whole Brain Re-Irradiation for Brain Metastases". Radiotherapy and Oncology 76 (septiembre de 2005): S15. http://dx.doi.org/10.1016/s0167-8140(05)80209-9.

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50

Kringelbach, Morten L., Josephine Cruzat, Joana Cabral, Gitte Moos Knudsen, Robin Carhart-Harris, Peter C. Whybrow, Nikos K. Logothetis y Gustavo Deco. "Dynamic coupling of whole-brain neuronal and neurotransmitter systems". Proceedings of the National Academy of Sciences 117, n.º 17 (13 de abril de 2020): 9566–76. http://dx.doi.org/10.1073/pnas.1921475117.

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Remarkable progress has come from whole-brain models linking anatomy and function. Paradoxically, it is not clear how a neuronal dynamical system running in the fixed human anatomical connectome can give rise to the rich changes in the functional repertoire associated with human brain function, which is impossible to explain through long-term plasticity. Neuromodulation evolved to allow for such flexibility by dynamically updating the effectivity of the fixed anatomical connectivity. Here, we introduce a theoretical framework modeling the dynamical mutual coupling between the neuronal and neurotransmitter systems. We demonstrate that this framework is crucial to advance our understanding of whole-brain dynamics by bidirectional coupling of the two systems through combining multimodal neuroimaging data (diffusion magnetic resonance imaging [dMRI], functional magnetic resonance imaging [fMRI], and positron electron tomography [PET]) to explain the functional effects of specific serotoninergic receptor (5-HT2AR) stimulation with psilocybin in healthy humans. This advance provides an understanding of why psilocybin is showing considerable promise as a therapeutic intervention for neuropsychiatric disorders including depression, anxiety, and addiction. Overall, these insights demonstrate that the whole-brain mutual coupling between the neuronal and the neurotransmission systems is essential for understanding the remarkable flexibility of human brain function despite having to rely on fixed anatomical connectivity.
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