Multimodal and Functional Imaging Laboratory

Laboratory Characteristics

MAFIL is open CEITEC laboratory providing advanced imaging services for CEITEC research teams as well as external users. Basic techniques on which the action is based are human MR imaging and MR spectroscopy in high field (3 T) and electrophysiological techniques (high density EEG, simultaneous measurements of electrophysiology and MRI). MAFIL expertise is mainly focused on functional and structural mapping of human brain because this core-facility was designed primarily to support neuroscience research. Regarding the fact CF MAFIL performs measurements of living subjects access to laboratory services conforms to specific organizational and operational guidelines.

Unique Features

• The first research core-facility with MRI scanners in Czech Republic installed at the university and dedicated fully for science.
• The first research core-facility in the Czech Republic providing open-access for both national and international customers. MAFIL is part of CzechBioImaging national research infrastructure and main part of EuroBioImaging Brno node.
• Hyperscanning (two almost identical MR scanners can be used for simultaneous fMRI measurement of two competing or cooperating subjects).
• Multimodal and multi-parametric approaches (combining MRI with simultaneous electrophysiology; rTMS with simultaneous EEG; combining various MRI techniques like fMRI, DTI, computational neuroanatomy etc.).
• Cutting-edge equipment (two 3T Siemens Prisma MR scanners optimized for brain research; 256-channel MR compatible EEG; specialized hardware for stimulation and response recording).
• Access to innovative MR pulse sequences thanks to cooperation with leading brain research centers.

Services and Methodologies Provided

General overview of MR techniques

• Anatomical imaging offering various contrasts (T1, T2-weighting, separation of water / fat, magnetization transfer).
• Imaging of BOLD effect (functional imaging) including multiband acquisition.
• Imaging of diffusion of water molecules (diffusion weighted images, diffusion tensor, kurtosis) including multiband acquisition.
• Spectroscopic measurements (single-voxel spectroscopy and spectroscopic imaging) + SemiLaser and FastMap for MRS (CMRR, Minneapolis).
• Perfusion imaging, i.e. arterial spin labelling (ASL).

General ovierview of electrophysiological techniques

• High-density EEG (256 leads), simultaneous measurement in MR possible.
• Standard EEG (30 leads), simultaneous measurement in MR possible.
• Recording of electrocardiography (ECG), respiration, movement (accelerometer), skin resistance and general polygraphic signals using bipolar or unipolar leads, for e.g. electromyography (EMG) - all with the possibility of simultaneous measurement in MR.
• rTMS (repetitive transcranial magnetic stimulation).

Key Equipment (Core Facility fully operational from 2014)

1) Two whole-body human 3T MR scanners

• Siemens Prisma 3T, whole-body MR scanner for imaging and spectroscopy with 60 cm bore-size, powerful gradient system (max. amplitude 80 T/m with slew-rate 200 T/m/s). RF excitation use two independent channels (TimTX TrueShape technique).
• Available coils: head/neck (64 channels), head/neck (20 channels), spine (32 channels), body (18 channels), small and large flexible (4 channels).
• Possible triggering with ECG, breathing belt, and pulse oximeter.
• Possible simultaneous recording of polygraphic signals (EOG, ECG, EEG, breathing, movement, EMG, ...).
• MR scanner A is prepared for multinuclear measurements (equipped with 1H/31P head volume coil) and equipped with Tx/Rx CP Head Coil.
• Several sequences developed or modified in prestigious foreign institutions are available (e.g. from CMRR, University of Minnesota, University of Maastricht).

2) Equipment for functional studies

• software E-Prime for stimulation, MATLAB, etc.
• MR compatible audio-visual stimulation for delivering of auditory and/or visual stimuli.
• other equipment for recording of subject’s response (buttons, keyboard etc.).

3) Electrophysiological systems for measurement in EEG lab or MR

• 256 channel MR compatible EEG system - EGI GES 400 MR system with amplifier EGI Net Amps 400, 256 channels for EEG recording, including software for correction of artefacts caused by MR and for data analysis. Several types and sizes of EEG caps are available – MR compatible EEG caps for fast application, EEG caps for long-term measurements outside of MR, and rTMS compatible low-profile caps.
• 30 channels MR compatible EEG/ExG system - BrainProducts BrainAmpl MR / BrainAMp ExG MR, 30 EEG channels, 1 EOG channel, ExG module. ExG module enables to record other physiological signals (ECG, EMG, skin conductance, respiratory signal, movement, general bipolar electrophysiological measurements). Software for correction of artefacts caused by MR and for data analysis.
• ExG MR compatible system - BrainProducts BrainAMp ExG MR, ExG module enables to record other physiological signals (ECG, EMG, skin conductance, respiratory signal, movement, general bipolar electrophysiological measurements). Software for correction of artefacts caused by MR and for data analysis.
• Shielded EEG lab - the lab is prepared for measurement of high-quality electrophysiological data inside RF shielded cabin fully equipped for audio-visual stimulation and recording of interactions of measured subject during experiment. E-prime software is used for programming of stimulation. Hardware configuration of lab is prepared for simultaneous recording with EEG and ExG systems.
• rTMS (repetitive transcranial magnetic stimulation) with frameless stereotaxy.

Czech and international researchers from universities and research institutes interested in accessing core facilities can benefit from support of research infrastructure Czech-BioImaging, funded by the Ministry of Education, Youth and Sports of the Czech Republic.

MAFIL Core Facility NEWSLETTER

Vol. 4 (2/2017)

VOL. 3 (1/2017)

VOL. 2 (2/2016)

VOL. 1 (1/2016)

 

list / cards

SELECTED PUBLICATIONS

2017

• ANDERKOVA, L; BARTON, M; REKTOROVA, I, 2017:Striato-cortical Connections in Parkinson's and Alzheimer's Diseases: Relation to Cognition. MOVEMENT DISORDERS 32 (6), p. 917 - 921.
• BRAZDIL, M; PAIL, M; HALAMEK, J; PLESINGER, F; CIMBALNIK, J; ROMAN, R; KLIMES, P; DANIEL, P; CHRASTINA, J; BRICHTOVA, E; REKTOR, I; WORRELL, GA; JURAK, P, 2017:INTERICTAL VERY FAST RIPPLES (500-1000 HZ) AND ULTRA FAST RIPPLES (1-2 KHZ): NOVEL BIOMARKERS OF THE EPILEPTOGENIC ZONE. EPILEPSIA 58 , p. S94 - S94.
• BRAZDIL, M; PAIL, M; HALAMEK, J; PLESINGER, F; CIMBALNIK, J; ROMAN, R; KLIMES, P; DANIEL, P; CHRASTINA, J; BRICHTOVA, E; REKTOR, I; WORRELL, GA; JURAK, P, 2017:Very High-Frequency Oscillations: Novel Biomarkers of the Epileptogenic Zone. ANNALS OF NEUROLOGY 82 (2), p. 299 - 310.
• DOLEZALOVA, I; SCHACHTER, S; CHRASTINA, J; HEMZA, J; HERMANOVA, M; REKTOR, I; PAZOURKOVA, M; BRAZDIL, M, 2017:Atypical handedness in mesial temporal lobe epilepsy. EPILEPSY & BEHAVIOR 72 , p. 78 - 81.
• FILIP, P; GALLEA, C; LEHERICY, S; BERTASI, E; POPA, T; MARECEK, R; LUNGU, O; KASPAREK, T; VANICEK, J; BARES, M., 2017:Disruption in cerebellar and basal ganglia networks during a visuospatial task in cervical dystonia. Movement Disorders
• KHAIRNAR, A; RUDA-KUCEROVA, J; SZABO, N; DRAZANOVA, E; ARAB, A; HUTTER-PAIER, B; NEDDENS, J; LATTA, P; STARCUK, Z; REKTOROVA, I, 2017:Early and progressive microstructural brain changes in mice overexpressing human alpha-Synuclein detected by diffusion kurtosis imaging. BRAIN BEHAVIOR AND IMMUNITY 61 , p. 197 - 208.
• KLIMES, P; JURAK, P; HALAMEK, J; BOCKOVA, M; DAMBORSKA, A; DOLEZALOVA, I; STILLOVA, K; BALAZ, M; DANIEL, P; BRAZDIL, M; REKTOR, I, 2017:INTRATHALAMIC HIGH-FREQUENCY EEG CAN PREDICT DEEP BRAIN STIMULATION EFFICACY IN EPILEPSY. EPILEPSIA 58 , p. S187 - S187.
• VYTVAROVA, E; MARECEK, R; FOUSEK, J; STRYCEK, O; REKTOR, I, 2017:Large-scale cortico-subcortical functional networks in focal epilepsies: The role of the basal ganglia. 14 , p. 28 - 36.

2016

• CZEKOOVA, K; SHAW, DJ; URBANEK, T; CHLADEK, J; LAMOS, M; ROMAN, R; BRAZDIL, M, 2016:What's the meaning of this? A behavioral and neurophysiological investigation into the principles behind the classification of visual emotional stimuli. PSYCHOPHYSIOLOGY 53 (8), p. 1203 - 1216.
• DAMBORSKA, A; ROMAN, R; BRAZDIL, M; REKTOR, I; KUKLETA, M, 2016:Post-movement processing in visual oddball task - Evidence from intracerebral recording. CLINICAL NEUROPHYSIOLOGY 127 (2), p. 1297 - 1306.
• ELFMARKOVA, N; GAJDOS, M; MRACKOVA, M; MEKYSKA, J; MIKL, M; REKTOROVA, I, 2016:Impact of Parkinson's disease and levodopa on resting state functional connectivity related to speech prosody control. PARKINSONISM & RELATED DISORDERS 22 , p. S52 - S55.
• GAJDOS, M; MIKL, M; MARECEK, R, 2016:Mask_explorer: A tool for exploring brain masks in fMRI group analysis. COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE 134 , p. 155 - 163.
• HEGER, Z; RODRIGO, MAM; MICHALEK, P; POLANSKA, H; MASARIK, M; VIT, V; PLEVOVA, M; PACIK, D; ECKSCHLAGER, T; STIBOROVA, M; ADAM, V, 2016:Sarcosine Up-Regulates Expression of Genes Involved in Cell Cycle Progression of Metastatic Models of Prostate Cancer. PLOS ONE 11 (11)
• KLEIN, P; TYRLIKOVA, I; BRAZDIL, M; REKTOR, I, 2016:Brivaracetam for the treatment of epilepsy. EXPERT OPINION ON PHARMACOTHERAPY 17 (2), p. 283 - 295.
• KUKLETA, M; DAMBORSKA, A; ROMAN, R; REKTOR, I; BRAZDIL, M, 2016:The primary motor cortex is involved in the control of a non-motor cognitive action. CLINICAL NEUROPHYSIOLOGY 127 (2), p. 1547 - 1550.
• LOSAK, J; HUTTLOVA, J; LIPOVA, P; MARECEK, R; BARES, M; FILIP, P; ZUBOR, J; USTOHAL, L; VANICEK, J; KASPAREK, T, 2016:Predictive Motor Timing and the Cerebellar Vermis in Schizophrenia: An fMRI Study. SCHIZOPHRENIA BULLETIN 42 (6), p. 1517 - 1527.
• MARECEK, R; LAMOS, M; MIKL, M; BARTON, M; FAJKUS, J; REKTOR, I; BRAZDIL, M, 2016:What can be found in scalp EEG spectrum beyond common frequency bands. EEG-fMRI study. JOURNAL OF NEURAL ENGINEERING 13 (4)
• REKTOROVA, I; MEKYSKA, J; JANOUSOVA, E; KOSTALOVA, M; ELIASOVA, I; MRACKOVA, M; BERANKOVA, D; NECASOVA, T; SMEKAL, Z; MARECEK, R, 2016:Speech prosody impairment predicts cognitive decline in Parkinson's disease. PARKINSONISM & RELATED DISORDERS 29 , p. 90 - 95.
• RYZI, M; OSLEJSKOVA, H; REKTOR, I; NOVAK, Z; HEMZA, J; CHRASTINA, J; SVOBODA, M; HERMANOVA, M; BRAZDIL, M, 2016:Long-term approach to patients with postsurgical seizures. EPILEPSIA 57 (4), p. 597 - 604.
• SHAW, DJ; MARECEK, R; GROSBRAS, MH; LEONARD, G; PIKE, GB; PAUS, T, 2016:Co-ordinated structural and functional covariance in the adolescent brain underlies face processing performance. SOCIAL COGNITIVE AND AFFECTIVE NEUROSCIENCE 11 (4), p. 556 - 568.
• SVOBODOVA, M; CRHA, I; NEKVAPILOVA, E; PODBORSKA, M; SROTOVA, I; VLCKOVA, E; STOURAC, P; BEDNARIK, J, 2016:Levels of serum anti-mullerian hormone in women with early stage of relapsing-remitting multiple sclerosis. MULTIPLE SCLEROSIS JOURNAL 22 , p. 437 - 438.
• VESELY, B; REKTOR, I, 2016:The contribution of white matter lesions (WML) to Parkinson's disease cognitive impairment symptoms: A critical review of the literature. PARKINSONISM & RELATED DISORDERS 22 , p. S166 - S170.
• ZEMANKOVA, P; LUNGU, O; BARES, M, 2016:Psychosocial Modulators of Motor Learning in Parkinson's Disease. FRONTIERS IN HUMAN NEUROSCIENCE 10

2015

• BEDNARIK, P; MOHEET, A; DEELCHAND, DK; EMIR, UE; EBERLY, LE; BARES, M; SEAQUIST, ER; OZ, G, 2015:Feasibility and reproducibility of neurochemical profile quantification in the human hippocampus at 3T. NMR IN BIOMEDICINE 28 (6), p. 685 - 693.
• BEDNARIK, P; TKAC, I; GIOVE, F; DINUZZO, M; DEELCHAND, DK; EMIR, UE; EBERLY, LE; MANGIA, S, 2015:Neurochemical and BOLD responses during neuronal activation measured in the human visual cortex at 7 Tesla. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM 35 (4), p. 601 - 610.
• BOCKOVA, M; CHLADEK, J; JURAK, P; HALAMEK, J; STILLOVA, K; BALAZ, M; CHRASTINA, J; REKTOR, I, 2015:Complex Motor-Cognitive Factors Processed in the Anterior Nucleus of the Thalamus: An Intracerebral Recording Study. BRAIN TOPOGRAPHY 28 (2), p. 269 - 278.
• SHAW, D J; MARECEK, R; BRAZDIL, M., 2015:Structural co-variance mapping delineates medial and medio-lateral temporal networks in déjà vu. Brain Imaging and Behaviour 10 (4), p. 1068 - 1079.
• STILLOVA, K; JURAK, P; CHLADEK, J; CHRASTINA, J; HALAMEK, J; BOCKOVA, M; GOLDEMUNDOVA, S; RIHA, I; REKTOR, I, 2015:The Role of Anterior Nuclei of the Thalamus: A Subcortical Gate in Memory Processing: An Intracerebral Recording Study. PLOS ONE 10 (11)
• SVATKOVA, A; MANDL, RCW; SCHEEWE, TW; CAHN, W; KAHN, RS; POL, HEH, 2015:Physical Exercise Keeps the Brain Connected: Biking Increases White Matter Integrity in Patients With Schizophrenia and Healthy Controls. SCHIZOPHRENIA BULLETIN 41 (4), p. 869 - 878.

2014

• NESTRASIL, I; BEDNARIK, P; YUND, B; DELANEY, K; KOVAC, V; AHMED, A; SHAPIRO, E, 2014:Brain Mill abnormalities in mucopolysaccharidosis type I: cross-sectional Study. MOLECULAR GENETICS AND METABOLISM 111 (2), p. S81 - S81.

2013

• BRAZDIL, M; JANECEK, J; KLIMES, P; MARECEK, R; ROMAN, R; JURAK, P; CHLADEK, J; DANIEL, P; REKTOR, I; HALAMEK, J; PLESINGER, F; JIRSA, V, 2013:On the Time Course of Synchronization Patterns of Neuronal Discharges in the Human Brain during Cognitive Tasks. PLOS ONE 8 (5)
• GESCHEIDT, T; MARECEK, R; MIKL, M; CZEKOOVA, K; URBANEK, T; VANICEK, J; SHAW, DJ; BARES, M, 2013:Functional anatomy of outcome evaluation during Iowa Gambling Task performance in patients with Parkinson's disease: an fMRI study. NEUROLOGICAL SCIENCES 34 (12), p. 2159 - 2166.
• KASPAREK, T; PRIKRYL, R; REHULOVA, J; MARECEK, R; MIKL, M; PRIKRYLOVA, H; VANICEK, J; CESKOVA, E, 2013:Brain functional connectivity of male patients in remission after the first episode of schizophrenia. HUMAN BRAIN MAPPING 34 (3), p. 726 - 737.
• ROMAN, R; BRAZDIL, M; CHLADEK, J; REKTOR, I; JURAK, P; SVETLAK, M; DAMBORSKA, A; SHAW, DJ; KUKLETA, M, 2013:Hippocampal Negative Event-Related Potential Recorded in Humans During a Simple Sensorimotor Task Occurs Independently of Motor Execution. HIPPOCAMPUS 23 (12), p. 1337 - 1344.
• SHAW, DJ; CZEKOOVA, K; CHROMEC, J; MARECEK, R; BRAZDIL, M, 2013:Copying You Copying Me: Interpersonal Motor Co-Ordination Influences Automatic Imitation. PLOS ONE 8 (12), p. e84820 - .
• ZELINKOVA, J; SHAW, DJ; MARECEK, R; MIKL, M; URBANEK, T; PETERKOVA, L; ZAMECNIK, P; BRAZDIL, M, 2013:Superior temporal sulcus and social cognition in dangerous drivers. NEUROIMAGE 83 , p. 1024 - 1030.

2012

• BRAZDIL, M; MARECEK, R; URBANEK, T; KASPAREK, T; MIKL, M; REKTOR, I; ZEMAN, A, 2012:Unveiling the mystery of deja vu: The structural anatomy of deja vu. CORTEX 48 (9), p. 1240 - 1243.
• GESCHEIDT, T; CZEKOOVA, K; URBANEK, T; MARECEK, R; MIKL, M; KUBIKOVA, R; TELECKA, S; ANDRLOVA, H; HUSAROVA, I; BARES, M, 2012:Iowa Gambling Task in patients with early-onset Parkinson's disease: strategy analysis. NEUROLOGICAL SCIENCES 33 (6), p. 1329 - 1335.
• OBHLIDALOVA, I; KERKOVSKY, M; STOURAT, P; BEDNARIK, P; VICKOVA, E, 2012:Imaging Techniques to Evaluate Morphological Correlates of Cognitive Dysfunction in Multiple Sclerosis Patients. CESKA A SLOVENSKA NEUROLOGIE A NEUROCHIRURGIE 75 (2), p. 170 - 178.
• REKTOR, I; GOLDEMUND, D; BEDNARIK, P; SHEARDOVA, K; MICHALKOVA, Z; TELECKA, S; DUFEK, M; REKTOROVA, I, 2012:Impairment of Brain Vessels May Contribute to Mortality in Patients With Parkinson's Disease. MOVEMENT DISORDERS 27 (9), p. 1168 - 1172.

2011

• REKTOR, I; TOMCIK, J; MIKL, M; MARECEK, R; BRAZDIL, M; REKTOROVA, I, 2011:ASSOCIATION BETWEEN BASAL GANGLIA AND LARGE SCALE BRAIN NETWORKS IN EPILEPSY. EPILEPSIA 52 , p. 175 - 176.

PROJECTS

• RIAT-CZ (ATCZ40), Interreg CZ-AT, 2016 - 2018
• CzechBioimaging - Modernizace a podpora výzkumných aktivit národní infrastruktury pro biologické a medicínské zobrazování Czech-BioImaging (CZ.02.1.01/0.0/0.0/16_013/0001775), MEYS, 2017 - 2020
• Czech-BioImaging - National Infrastructure for Biological and Medical Imaging (LM2015062), MEYS, 2016 - 2019

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Filtr Search Research group / CF — select — Functional Properties of Nanostructures - Josef HumlíčekSmart Nanodevices - Jaromír HubálekExperimental Biophotonics - Radim ChmelíkFabrication and Characterisation of Nanostructures - Tomáš ŠikolaDevelopment of Methods for Analysis and Measuring - Petr KlapetekMaterials Characterization and Advanced Coatings - Jozef KaiserPlasma Technologies - Lenka ZajíčkováSynthesis and Analysis of Nanostructures - Jiří PinkasMultiscale Modelling and Measurements of Physical Properties - Roman GrögerAdvanced Ceramic Materials - Martin TrunecCybernetics in Material Science - Pavel VáclavekAdvanced Polymers and Composites - Josef JančářAdvanced Metallic Materials and Metal Based CompositesGlycobiochemistry - Michaela WimmerováMolecular Microbiology - Alois ČížekZoonoses - Břetislav KoudelaOrthopaedics and Surgery - Pavel ProksAnimal Immunogenomics - Petr HořínAnimal Cytogenomics - Jiří RubešMammalian Reproduction - Martin AngerBehavioural and Social Neuroscience - Milan BrázdilApplied Neuroscience - Irena RektorováMedical Genomics - Šárka PospíšilováMolecular Oncology - Solid Cancer - Ondřej SlabýInherited Diseases - Transtricptional Regulation - Dalibor BlažekAdaptive Immunity Group - Dmitriy ChudakovBioanalytical Instrumentation - František ForetPlant Cytogenomics - Martin LysákFunctional Genomics and Proteomics of Plants - Jan HejátkoHormonal Crosstalk in Plant Development - Helene Robert BoisivonProteomics - Zbyněk ZdráhalDevelopmental and Cell Biology of Plants - Tomasz NodzynskiChromatin Molecular Complexes - Jiří FajkusDevelopmental and Production Biology – Omics Approaches - Břetislav BrzobohatýPlant Stress Signalling and Adaption - Vanesa Beatriz TognettiPlant Molecular Biology - Karel ŘíhaRNA Quality Control - Štěpánka VaňáčováNanobiotechnology - Petr SkládalRNA based regulation of Gene Expression - Peter LukavskyStructural Biology of Gene Regulation - Richard ŠteflStructural Virology - Pavel PlevkaStructure and Dynamics of Nucleic Acids - Jiří ŠponerStructure and Interaction of Biomolecules at Surfaces - Miroslav FojtaComputational Chemistry - Jaroslav KočaMulti-modal and Functional Neuroimaging - Ivan RektorCF: Core Facility GenomicsCF: Core Facility X-Ray Diffraction and Bio-SAXSCF: CEITEC NanoCF: Josef Dadok National NMR CentreCF: Core Facility Biomolecular Interaction and CrystalizationCF: Core Facility Cryo-Electron Microscopy and TomographyCF: Core Facility ProteomicsCF: Multimodal and Functional Imaging LaboratoryCF: Core Facility NanobiotechnologyStrucure of Biosystems and Molecular Materials - Radek MarekNon-Coding Genome - Lukáš TrantírekProtein Structure and Dynamics - Lukáš ŽídekProtein-DNA Interactions - Konstantinos TripsianesERA Chair - RNA and Immunity - Mary O'ConnellMicroenvironment of Immune Cells - Marek MrázCF: Cellular ImagingCF: Plant Sciences Core FacilityFunctional Genomics - Michal ŠmídaInteraction Protein-Protein and Protein-Membrane - Robert VáchaMagneto-Optical and THz Spectroscopy - Petr NeugebauerMolecular Nanostructures at Surfaces - Jan ČechalNanomagnetism and spintronics - Vojtěch Uhlíř Institution — select — CEITEC HeadquartersCEITEC Masaryk UniversityCEITEC Brno University of TechnologyCEITEC Mendel University in BrnoCEITEC University of Veterinary and Pharmaceutical Sciences BrnoCEITEC Institute of Physics of Materials, Academy of Science CZCEITEC Veterinary Research Institute Technology — select — Nanolitography infrastructureChemical & Thermal processesEtching & DepositionPackaging & TestingElectrical & Magnetic measurementsOptical measurementsProbe microscopy & NanomanipulationIn situ fabrication & CharacterizationLiquid ChromatographyElectrophoresisX-ray DiffractionX-ray ScatteringBiomolecular Interactions and characterizationBiomolecular crystallizationConfocal microscopyWidefield microscopyConfocal microscopy for live cell imagingPhytotronsSmall-size growth chambersGreenhouse

Equipment	Research group / CF	Profile card
EEG systém	CF: Multimodal and Functional Imaging Laboratory
MR compatible EEG/polygraphic system supports a variety of electrophysiological measurements (EEG, ECG, respiration, skin resistance, EMG, etc.)	CF: Multimodal and Functional Imaging Laboratory
MR compatible polygraphic system supports a variety of electrophysiological measurements (ECG, respiration, skin resistance, EMG, etc.)	CF: Multimodal and Functional Imaging Laboratory
MR compatible stimulation system	CF: Multimodal and Functional Imaging Laboratory
TMS (transcranial magnetic stimulation) with frameless stereotaxy	CF: Multimodal and Functional Imaging Laboratory
Whole-body human 3T MR scanner	CF: Multimodal and Functional Imaging Laboratory
Whole-body human 3T MR scanner	CF: Multimodal and Functional Imaging Laboratory

Equipment	Partner
15.2 T Bruker spectrometer, 11 cm bore size	VBCF

 

Documents available for CF users.

• CF MAFIL Access Form
• Document explaining Access to services of CF MAFIL in 2017
• Obtaining MR data of a given project *)
• Case Studies
• Rules of Operation CF MAFIL 2017  *)

 

*) You need access to CF MAFIL's booking system (intranet) in order to download marked documents