I'm not sure there's anything new here, other than demonstrating that something which has been confirmed by a variety of other means, does what you'd expect it to do in an
fMRI machine.
Pavlov referred to this phenomenon as the
investigatory reflex.
This study shows that the reflex is represented in brain-activity as well as outward behavior. This gets us a little closer to the origin point, taking us a little farther down the path. In essence it shows us one more "observable" appearance of the investigatory reflex, which Pavlov had documented in the early nineteen-hundreds. That further validates and clarifies our understanding.
Notwithstanding the gee-whiz appeal of the
fMRI, the real search—for me at least—is for the underlying mechanisms and brain characteristics that are responsible for the investigatory phenomenon. This particular study seems to have been restricted to only the appearance of the investigatory reflex in
V1 (BA17).
This doesn't detract from the study's value, however. It isn't really fair for me, or anyone, to expect a custom fit to our questions in an "off-the-rack" world. This study should prove important, because it may help to show that the investigatory reflex has brain-global origins. That is, it may show that the investigatory reflex is a natural byproduct of individual neurons acting together, regardless of what brain-region they occupy. If not caused directly by local, cell-centric activities, the investigatory reflex may, at least, be facilitated by intrinsic cell behavior in some way. We are learning, for example, that the
hippocampus seems to be tied into this reflexive phenomenon in a fairly substantial way.
I have some questions for the tailor: If the novel stimulus had been auditory, that probably would not have lit up V1 at all, but this is just a hunch on my part. It would have been interesting to find out—one way or the other—if V1 would have been lit up with novel
auditory stimulus. This could lead to even more interesting questions about cross-modal stimuli. For example, what would happen at V1 if the novel auditory was sourced from specific locations around the organism? One interesting experiment along these lines might be to repeatedly play a given sound always from the same "location", and then suddenly (the novel part), make it emit from a different location.
Such questions simply aren't addressed in this study, which restricts itself, not only to just area V1, but also to just the effects of novel
visual stimuli at V1. Also, there is no attempt made in the study to isolate the investigatory reflex at V1 from other areas that may have facilitated it. That is, the study doesn't really attempt to drill down and expose the brain structures and mechanisms actually responsible for the reflex. It is primarily about gathering more data-points, and there is nothing wrong with that.
- The Press Release: "The human brain processes predictable sensory input in a particularly efficient manner"
- From the more aptly named study: "Stimulus predictability reduces responses in primary visual cortex. - (abstract) - Full Text($)
- Background Knowledge: