> The aim of the present study was to examine the effects of drugs (amphetamine, methylphenidate and atomoxetine)
> We observed decreased expression of this enzyme for all applied substances.
Yeah no I'm not buying it. Amphetamine, perhaps, but atomoxetine causing DNA damage? That sets off my "spurious results" detector, hard.
I'll look into it more but I've done deep research into all things psychostimulants and I have not seen any indication of genotoxicity of methylphenidate or atomoxetine. Amphetamine has a slight risk of increased oxidative stress due to making dopamine leak places where it shouldn't, and DA's electronic structure makes it prone to generating singlet oxygen and ROS, but it's typically only observed in really high doses, like the equivalent of hundreds of mgs per dose.
Like, maybe there's some increased ROS due to any drug that boosts DA/NA (oxidizing catecholamines produces ROS in general), but like, "ritalin causes DNA damage" is the wrong conclusion to draw from that.
> We observed decreased expression of this enzyme for all applied substances.
Yeah no I'm not buying it. Amphetamine, perhaps, but atomoxetine causing DNA damage? That sets off my "spurious results" detector, hard.
I'll look into it more but I've done deep research into all things psychostimulants and I have not seen any indication of genotoxicity of methylphenidate or atomoxetine. Amphetamine has a slight risk of increased oxidative stress due to making dopamine leak places where it shouldn't, and DA's electronic structure makes it prone to generating singlet oxygen and ROS, but it's typically only observed in really high doses, like the equivalent of hundreds of mgs per dose.
Like, maybe there's some increased ROS due to any drug that boosts DA/NA (oxidizing catecholamines produces ROS in general), but like, "ritalin causes DNA damage" is the wrong conclusion to draw from that.