AI Article Synopsis
- * It distinguishes between "speed modulation" (variation in speed during movement) and "speed meta-modulation" (how overall shape affects speed), noting that these changes depend on a person's dopamine levels.
- * Two studies are discussed: one comparing individuals with Parkinson's disease on and off medication, and another involving healthy participants on a dopamine blocker, revealing that lower dopamine leads to slower, less varied movement speeds.
Article Abstract
A body of research implicates dopamine in the average speed of simple movements. However, naturalistic movements span a range of different shaped trajectories and rarely proceed at a single constant speed. Instead, speed is reduced when drawing "corners" compared to "straights" (i.e., speed modulation), and the extent of this slowing down is dependent upon the global shape of the movement trajectory (i.e., speed meta-modulation) - for example whether the shape is an ellipse or a rounded square. At present, it is not known how (or whether) dopaminergic function controls continuous changes in speed during movement execution. The current paper reports effects on these kinematic features of movement following two forms of dopamine manipulation: Study One highlights movement differences in individuals with PD both ON and OFF their dopaminergic medication (N = 32); Study Two highlights movement differences in individuals from the general population on haloperidol (a dopamine receptor blocker, or "antagonist") and placebo (N = 43). Evidence is presented implicating dopamine in speed, speed modulation and speed meta-modulation, whereby low dopamine conditions are associated with reductions in these variables. These findings move beyond vigour models implicating dopamine in average movement speed, and towards a conceptualisation that involves the modulation of speed as a function of contextual information.
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| http://dx.doi.org/10.1016/j.bbr.2024.115213 | DOI Listing |
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