Much of the lectures were mostly review, but useful review, and delivered by an array of brilliant scientists who, if they chose to, could easily be doing something much more sinister with their intellectual powers, such as creating a race of giant acid-spewing crabs to paralyze the world in fear. I'm sure the thought has passed through their minds at some point. Fortunately for us, however, they are content to devote their energies to progress the field of neuroimaging. And while you can find their slides and audio lectures online here (plus a livestream over the next couple of weeks here), I'll try my best to intermittently summarize what we've done so far. This is mainly a brief information dump; some of these I'll try to develop upon once I get back to New Haven.
- After a brief introduction and overview by MR physicist Mark Cohen, we then listened to a keynote speech by Russ Poldrack, who told us the various ills and pitfalls of neuroimaging and cognitive neuroscience, including inflated effect sizes, poor reproducibility, and how shoddy experimental design leads to ever-withering claims of neophrenology. We each mentally swore to never again engage in such scurrilous practices, while continuing to have the nagging feeling somewhere in the back of our mind, that we'd compromise at some point. It's like telling a man not to use his fingers to scrape the last streaks of Nutella from the bottom of the jar; you can't ask the impossible all the time.
- Next up was a refresher on neurons, neurobiology, and the Blood Oxygenation Level Dependent (BOLD) response. With hundreds of billions of tiny neurons crammed inside our cranium, along with a complex network of glia, dendrites, synapses, and vesicles, it's a miracle that the thing works at all. Couple this with an incredibly quick electrical and chemical process generating action potentials and intricate relationships between metabolic function of the cell and hemodynamics delivering and shuttling blood to and from activation sites, and you begin to question whether some of the assumptions of FMRI are all that robust - whether it truly measures what we thinks it's measuring, or just some epiphenomena of neural activity steps removed from the actual source.
- But we all have to keep that grant money flowing somehow, which is where experimental design comes in, smoothly eliding over all those technical concerns with a sexy research question involving consciousness, social interaction, or the ever-elusive grandmother neuron. However, no research question is immune to sloppy design, or asking ourselves whether the same question can be answered much more easily, and much more cheaply using a behavioral paradigm. Once you have a good neuroimaging research question, however, you also need to question several of the assumptions going into the design; such as whether the assumption of pure insertion holds - whether adding in another cognitive process leads to activity only sensitive to that process, without any undesired interactions - and potential stimuli confounds.
- Lastly, we covered data preprocessing and quality control, in particular the vicissitudes of head motion and why humans are so stubborn in doing things like moving, breathing, making their hearts beat, and other things which are huge headaches for the typical neuroimager to deal with. We're not asking for much here, guys! Several of these issues can be resolved either by excluding acquisitions contaminated by motion or other sources of intrinsic noise, or, more commonly, modeling them so that any variance gets assigned to them and not to any regressors that you care about. Another related topic was using a Matlab function coded by Martin Monti to assess any multicollinearity in your design, which I plan to cover in detail in a future post. You can find the code on the NiTP website.
- Oh, and k-space. We talked about k-space. I've encountered this thing off and on for about seven years now, and still don't completely understand it; whenever I feel as though I'm on edge of a breakthrough to understand it, it continues to elude me. Which leads me to conclude that either, a) I just don't understand it, or b) nobody else understands it either and it's really meaningless, but enough people have invested enough into it to keep up the charade that it's continued to be presented as a necessary but abstruse concept. For the sake of my self-esteem, I tend to believe option b.
That's about it! I'll plan on posting a couple more updates throughout the week to keep everyone abreast of what's going on. Again, check out the livestream; you're seeing and hearing the same things I am!