digital therapeutics

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null

Speed-accuracy tradeoffs cannot account for the differential effects of ICT vs CET on set shifting, as the inverse efficiency score analysis showed no evidence for treatment effects or treatment-by-ti

Effect: null