= Introduction to Neuroimaging Methods = == Lectures and Workshops == Lectures and workshops will take place on Wednesdays, 14.30, in the CBU West Wing Seminar Room (unless stated otherwise, please check below). Workshops usually take about 2 hours, lectures may be shorter. Details will be announced before individual events via this mailing list: http://lists.mrc-cbu.cam.ac.uk/mailman/listinfo/skillstraining (Non-CBU people can subscribe by sending an e-mail to skillstraining-subscribe (at) mrc-cbu (dot) cam (dot) ac (dot) uk). We expect attendees to have basic skills in scientific computing and programming, e.g. at the level taught in our [[http://imaging.mrc-cbu.cam.ac.uk/methods/MatlabLecturesSchedule|previous workshops]]. It might help to refresh your memories a little bit. Look here for other [[education|training opportunities in and around Cambridge]]. Please contact OlafHauk with questions and feedback. |||| {{attachment:BrainComputer.jpg}} || ||||||||||||'''Easter Term''' || ||April 26 ||14.30 ||'''Multivariate fMRI Analysis I [[attachment:cbu_linear classification_I_apr2016.pdf|PDF]]''' ||Marieke Mur ||Lecture + Workshop ||This workshop introduces linear classification, one of the most popular forms of multivoxel pattern analysis. We will give an overview of the most commonly used linear classifiers, and list the steps that are needed to implement a classification analysis. The workshop will include a hands-on matlab session, during which we'll go through example code that performs linear classification on an fMRI data set. || ||May 3 ||14.30 ||'''Multivariate fMRI Analysis II [[attachment:cbu_RSA_apr2016.pdf|PDF]]''' ||Marieke Mur ||Lecture + Workshop ||This workshop introduces representational similarity analysis (RSA), a more recent form of multivoxel pattern analysis which has gained popularity over the last few years. We will give an overview of the origin of RSA and how it relates to linear classification, and list the steps that are needed to implement RSA. The workshop will include a hands-on matlab session, during which we'll analyse the same fMRI data as last week, but this time using RSA. || ||May 10 ||14.00 ||[[attachment:CBUTraining_Henson_Multimodal2_May16.pdf|Multimodal Imaging]] ||Rik Henson ||Lecture ||This lecture will describe possible generative models that can be used to integrate data from EEG, MEG and fMRI || ||May 16 (Tuesday !!!) ||13.00 ||[[attachment:CBUTraining_Henson_Connectivity_May15.pdf|Connectivity with EEG/MEG and fMRI]] ||Rik Henson ||Lecture ||This lecture will introduce concepts of functional and effective connectivity, briefly describe effective connectivity in fMRI (eg dynamic causal modelling) and then expand on the larger range of methods available for measuring connectivity with EEG/MEG. || ||May 24 ||14.30 ||'''Diffusion MRI I''' ||Marta Correia ||Lecture + Workshop ||This workshop will cover the basic principles of diffusion MRI acquisition and data analysis. It will include a practical component covering pre-processing of diffusion MRI data, model fitting, group analysis of diffusion parameters and tractography. || ||May 31 ||14.30 ||'''Diffusion MRI II''' ||Marta Correia ||Lecture + Workshop ||In this week’s workshop we will continue the hands on session for pre-processing of diffusion MRI data and introduce methods for group analyses. We will also cover more advanced diffusion MRI methods, including tractography and probabilistic modelling. || ||'''July 26/27''' || ||'''fMRI and EEG/MEG Analysis in SPM - from raw data to multimodal images''' || ||WWSR || ||Wed, July 26 ||10.00-12.00 ||Introduction to EEG/MEG analysis in SPM ||Jason Taylor ||Lecture+Demo ||Introduction and overview of EEG/MEG analysis in SPM. || || ||14.00-16.00 ||fMRI analysis in SPM ||Jason Taylor & Rik Henson ||Lecture+Demo ||Demo of standard fMRI analysis in SPM12. || ||Thu, July 27 ||10.00-12.00 ||Source estimation and statistics in SPM ||Jason Taylor & Rik Henson ||Lecture+Demo ||Demo of source estimation and statistics in SPM12. || || ||14.00-16.00 ||Multimodal imaging workshop and Q&A ||Jason Taylor, Rik Henson, Hunar Abdulrahman ||Workshop ||Participants can analyse a multi-modal data set under supervision, following chapter 42 of the [[http://www.fil.ion.ucl.ac.uk/spm/doc/manual.pdf|SPM12 manual]] || ---------- ||||||||||||'''Previous Lent Term''' || ||'''''Date<
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> ''''' ||'''''Comments''''' || ||Jan 18 ||14.30 ||'''[[attachment:Olaf Some Physics 18Jan17.pdf|A Field Day: Some Physics You May Find Useful]] ''' ||Olaf Hauk ||Lecture (~ 1h) ||Basic physical concepts needed for the interpretation of EEG/MEG and fMRI data. Electric potential, fields, atoms and spins... || ||Jan 25 ||14.30 ||'''[[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=MRPhysicsI_IntroToNeuroImaging.pdf|MRI Physics 1: Introduction to MRI Physics]] ''' ||Marta Correia ||Lecture (~1.5h) ||This talk will cover the basic principles of MRI physics for beginners, including nuclear spins and net magnetization, excitation and relaxation mechanisms, slice selective gradients, frequency and phase encoding, image formation and k-space. || ||Jan 30 (Monday!!) ||12.30 ||'''[[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=MRPhysicsII_IntroToNeuroImaging.pdf|MRI Physics 2:The BOLD Signal and Common Artefacts]] ''' ||Marta Correia ||Lecture ||This talk is aimed at fMRI beginners and will be divided into two parts. Firstly, I will talk about the biophysics of fMRI and the basic mechanism behind BOLD contrast. In the second half, I will discuss common image artefacts and ways to work around them. || ||Feb 8 ||14.30 ||[[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=5_fMRI_preprocessing.pdf|fMRI Analysis 1: fMRI Pre-Processing]] ([[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=5_fMRI_preprocessing_workshop.zip|workshop materials]]) ||Johan Carlin ||Lecture + Workshop ||We will cover basic preprocessing of fMRI data, and some useful diagnostic visualisations to help spot problems. || ||Feb 15 ||14.30 ||[[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=6_fMRI_GLM.pdf|fMRI Analysis 2: Single subject analysis using GLM]] ([[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=6_fMRI_GLM_workshop.zip|workshop materials]]) ||Johan Carlin ||Lecture + Workshop ||This workshop covers the basic principles of single-subject design focusing on how it is implemented in SPM. We will also discuss how to design efficient fMRI experiments. || ||Feb 22 ||14.30 ||'''[[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=7_group_inference.pdf|fMRI Analysis 3: Group analysis and statistical inference]] ([[http://imaging.mrc-cbu.cam.ac.uk/methods/IntroductionNeuroimagingLectures?action=AttachFile&do=view&target=7_group_inference_materials.zip|workshop materials]])''' ||Johan Carlin ||Lecture + Workshop ||After a short recap of the GLM, which also is the basis of group analysis, we will review some example designs. We will focus especially on statistical inference and multiple comparisons correction. || ||Mar 1 ||14.30 ||'''Brain stimulation '''[[attachment:brain_stimulation_Zoefel_1Mar17.pdf|PDF]] ||Benedikt Zöfel ||Lecture (45 min approx.) ||This talk will provide an introduction to brain stimulation methods, with a focus on transcranial magnetic stimulation (TMS) and transcranial electrical stimulation (tES). I will cover the principles of these techniques, the physiological basis of the effects, the different protocols used, and examples of how brain stimulation can be used as an experimental and therapeutic tool. || ||Mar 8 ||14.30 ||'''EEG/MEG 1: Pre-processing and ''' '''Data Reviewing '''[[attachment:Olaf EEGMEG1 8Mar17.pdf|PDF]] ||Olaf Hauk ||Lecture + Workshop ||Signal generation, Maxfilter, Common artefacts, ICA, Averaging, MEG-MRI Coregistration || ||Mar 14 (!!!) Tuesday ||14.30 ||'''EEG/MEG 2: Head Models and Source Estimation '''[[attachment:Olaf_EEGMEG2_14Mar17.pdf|PDF]] ||Olaf Hauk ||Lecture+Workshop ||We will look at structural MRI data and reconstructed cortical surfaces, co-register MRI and MEG coordinate systems, talk about the basis theory of source estimation, and try some linear source estimation ourselves. We will then compare different methods as well as EEG and MEG with respect to spatial resolution using the concepts of point-spread and cross-talk. || ||April 5 (postponed from March 22nd) ||14.30 ||'''EEG/MEG 3: Time-frequency and Functional Connectivity Analysis '''[[attachment:Olaf_EEGMEG3_5Apr17.pdf|PDF]] ||Olaf Hauk ||Lecture+Workshop ||Basics of Fourier and Wavelet analysis; source estimation at single-trial level; spatial resolution: point- and field-spread; spectral connectivity: coherence and phase-locking; possibly more… ||