Very interesting of you to think of it that way. It turns out that it’s very in line with recent results from computation psychiatry. Basically in depression we can study and distinguish how much the lack of activity is due to “lack of ressource to act” vs “increased cost of action”. Both look clinically about the same but underlying biochemical pathways differ, so it’s a (IMHO) promising approach to shorten the times it takes for a doctor to find the appropriate treatment for a given patient.
If that’s something you already know I’m sorry, I’m short on time and wanted this to be out :)
Very interesting of you to think of it that way. It turns out that it’s very in line with recent results from computation psychiatry. Basically in depression we can study and distinguish how much the lack of activity is due to “lack of ressource to act” vs “increased cost of action”. Both look clinically about the same but underlying biochemical pathways differ, so it’s a (IMHO) promising approach to shorten the times it takes for a doctor to find the appropriate treatment for a given patient.
If that’s something you already know I’m sorry, I’m short on time and wanted this to be out :)
That’s really interesting! I’m no expert in neurology, so thanks for the heads up!