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Friday, 05 January 2007 14:30

Physical Resources

The current equipment of the center includes the following:

Philips Achieva 7.0T 7T scanner installed after generous donations from the John and Birthe Meyer Foundation and the Danish Research Councils
   
Siemens Verio 3.0T A wide-bore high-end scanner with multi-nuclear capabilities installed 2010.
   
Siemens Avanto 1.5T A classic multi-channel general purpose scanner installed 2010.
   
Siemens Trio 3.0T This scanner was installed in 2002 after a generous donation from the Simon Spies Foundation.
   
Philips Achieva 3.0T This scanner installed 2013 for research purposes got installed in connection with the 7T project.
   
Varian Inova 4.7T This highly flexible experimental scanner is used for animal and "in vitro" work. The system has undergone a number of upgrades and is up-to-date with parallel imaging capability.
   
Oxford HyperSense hyperpolarisation unit A generous donation from the Simon Spies Foundation (description in Danish). The department has a research agreement with GE Healthcare and does in vivo studies of metabolism using hyperpolarised 13C-labelled pyruvate, for example.
   
EEG, neuronavigation, TMS Excellent facilities for advanced neuroimaging studies.
   
Animal laboratory The department has good facilities and skillful staff.
   
Computer laboratory The analysis of MR images is very computer intensive and is performed using a cluster of fast computers.
   
 Hardware lab  RF and hardware workshop for coil building and more.
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The current equipment of the center includes the following:

Philips Achieva 7.0T 7T scanner installed after generous donations from the John and Birthe Meyer Foundation and the Danish Research Councils
   
Siemens Verio 3.0T A wide-bore high-end scanner with multi-nuclear capabilities installed 2010.
   
Siemens Avanto 1.5T A classic multi-channel general purpose scanner installed 2010.
   
Siemens Trio 3.0T This scanner was installed in 2002 after a generous donation from the Simon Spies Foundation.
   
Philips Achieva 3.0T This scanner installed 2013 for research purposes got installed in connection with the 7T project.
   
Varian Inova 4.7T This highly flexible experimental scanner is used for animal and "in vitro" work. The system has undergone a number of upgrades and is up-to-date with parallel imaging capability.
   
Oxford HyperSense hyperpolarisation unit A generous donation from the Simon Spies Foundation (description in Danish). The department has a research agreement with GE Healthcare and does in vivo studies of metabolism using hyperpolarised 13C-labelled pyruvate, for example.
   
EEG, neuronavigation, TMS Excellent facilities for advanced neuroimaging studies.
   
Animal laboratory The department has good facilities and skillful staff.
   
Computer laboratory The analysis of MR images is very computer intensive and is performed using a cluster of fast computers.
   
 Hardware lab  RF and hardware workshop for coil building and more.
Read 32794 times Last modified on Tuesday, 20 October 2020 11:31
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Lise Skjold Andersen

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Selected Publications

Lundell H, Lasič S. 2020. Diffusion Encoding with General Gradient Waveforms. Topgaard D, editor. In Advanced Diffusion Encoding Methods in MRI. 24 ed. Royal Society of Chemistry. pp. 12-67. (New Developments in NMR). https://doi.org/10.1039/9781788019910-00012

Lundell H, Najac C, Bulk M, Kan HE, Webb AG, Ronen I. 2021. Compartmental diffusion and microstructural properties of human brain gray and white matter studied with double diffusion encoding magnetic resonance spectroscopy of metabolites and water. NeuroImage. 234:1-14. https://doi.org/10.1016/j.neuroimage.2021.117981

Henriques RN, Palombo M, Jespersen SN, Shemesh N, Lundell H, Ianuş A. 2021. Double diffusion encoding and applications for biomedical imaging. Journal of Neuroscience Methods. 348:Article 108989. https://doi.org/10.1016/j.jneumeth.2020.108989

Vincent O. Boer, Mads Andersen, Anna Lind, Nam Gyun Lee, Anouk Marsman & Esben T. Petersen
MR spectroscopy using static higher order shimming withMR spectroscopy using static higher order shimming withdynamic linear terms (HOS-DLT) for improved watersuppression, interleaved MRS-fMRI, and navigatorbasedmotion correction at 7T.
Magnetic Resonance in Medicine,  DOI: 10.1002/mrm.28202. 2020.

Lundell, H., Nilsson, M., Dyrby, T. B., Parker, G. J. M., Cristinacce, P. L. H., Zhou, F-L., Topgaard, D. & Lasič, S.
Multidimensional diffusion MRI with spectrally modulated gradients reveals unprecedented microstructural detail.
Scientific Reports. 9, 1, p. 1-12, 9026. 2019.

Andersen, M., Björkman-Burtscher, I. M., Marsman, A., Petersen, E. T. & Boer, V. O.
Improvement in diagnostic quality of structural and angiographic MRI of the brain using motion correction with interleaved, volumetric navigators.
PLoS One. 14, 5, p. 1-16, e0217145. 2019.

Lundell, H. M. H., Ingo, C., Dyrby, T. B. & Ronen, I.
Accurate estimation of intra-axonal diffusivity and anisotropy of NAA in humans at 7T.
2017.

Lundell, H. M. H., Nilsson, M., Dyrby, T. B., Parker, G. J. M., Cristinacce, P. L. H., Zhou, F., Topgaard, D. & Lasic, S.
Microscopic anisotropy with spectrally modulated q-space trajectory encoding.
2017.

Group Members

Henrik Lundell

Group Leader

Lars G. Hanson

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