After providing all the funding for The Brain from Top to Bottom for over 10 years, the CIHR Institute of Neurosciences, Mental Health and Addiction informed us that because of budget cuts, they were going to be forced to stop sponsoring us as of March 31st, 2013.

We have approached a number of organizations, all of which have recognized the value of our work. But we have not managed to find the funding we need. We must therefore ask our readers for donations so that we can continue updating and adding new content to The Brain from Top to Bottom web site and blog.

Please, rest assured that we are doing our utmost to continue our mission of providing the general public with the best possible information about the brain and neuroscience in the original spirit of the Internet: the desire to share information free of charge and with no adverstising.

Whether your support is moral, financial, or both, thank you from the bottom of our hearts!

Bruno Dubuc, Patrick Robert, Denis Paquet, and Al Daigen




Thursday, 20 October 2016
Psychologist Scans Own Brain Twice per Week for a Year and a Half

If you use social media, you have probably seen posts where someone has shown photos of themselves taken at regular intervals over a long period. Well, Stanford University psychologist Russell Poldrack has gone them one better: he has scanned his own brain twice per week for a year and a half! But Poldrack’s goal isn’t simply to wow his friends on Facebook. He is using the scans to do something that has never been attempted before: to understand how the connectivity of a normal person’s brain may vary over a period of several months, a span of time in which people with mental disorders often show considerable fluctuations in their psychological functions.

Poldrack calls his study “MyConnnectome”, and he published his initial results in the December 9, 2015 edition of the journal Nature Communications. It might seem surprising that no one had ever gathered such data before. But not many normal subjects would have been willing to do what Poldrack did: get into an MRI machine for a brain scan two mornings each week (one of them on an empty stomach) for a year and a half, have blood samples taken once per week, and write a report on his diet and physical activity every day. It took a scientist who was really motivated to advance the state of knowledge. (more…)

From the Simple to the Complex | No comments


Sunday, 25 September 2016
How Different Parts of the Brain Co-operate

Perhaps one of the hardest things to understand about the brain is the way that it is organized into networks. In this post, I will discuss a 2015 study, on the brain structures involved in delayed gratification, that makes this complex subject a bit easier to grasp. (more…)

Pleasure and Pain | No comments


Wednesday, 7 September 2016
Motor cortex is required for learning but not for executing a motor skill

The motor cortex was long thought to be the part of the brain that controlled the body’s voluntary movements. Given the plasticity of the cortex as a whole, it seemed reasonable to believe that decisive changes in the connectivity of the neurons in the motor cortex might well be associated with motor learning. Although this may indeed be the case, a study published by Risa Kawai and colleagues in the journal Neuron in May 2015 forces us to reconsider the primacy of the motor cortex in learned sequences of movements, at least in rats. (more…)

Body Movement and the Brain | No comments


Monday, 22 August 2016
A good general book on neuroscience

Whenever I give a presentation about the human brain, someone almost always comes up afterward and asks me whether I could recommend a good general book on neuroscience. In fact, there are several such books, but the one that I want to recommend here today offers a special advantage: you can buy a printed copy, but you can also access the entire book on the Internet for free!

The book that I’m talking about is Neuroscience, 2nd edition, edited by Dale Purves et al. and published by Sinauer Associates in 2001. It covers wide areas of modern neuroscience and is chock-full of very informative figures and tables. (more…)

From the Simple to the Complex | No comments


Monday, 8 August 2016
A Nanometric 3D Representation of a Mouse Cortex Cortex

The analogy between a real forest and a “forest of neurons” has been drawn many times, but the images produced most recently by the team of Jeff Lichtman and Narayanan Kasthuri (see the first two links below) make it clear yet again that the complexity of the brain’s connections far surpasses that of the densest forest.

As Lichtman has long said, by going down to the scale of the electron microscope and then reconstructing the slightest contacts between axons, dendrites, and neighbouring glial cells slice by slice, we can detect patterns that escape us at the more “macro” scales previously used to model neuronal connectivity. (more…)

From the Simple to the Complex | No comments