Brain training improves recovery after stroke but waiting list improves equally: A multicenter randomized controlled trial of a computer-based cognitive flexibility training.

Renate M Van De Ven,Suzanne J C Kruiper-Doesborgh,Coen A M Van Bennekom,Justine A Aaronson,Ben Schmand,Sascha M C Rasquin,Dick J Veltman,Tanja C W Nijboer,Jessika I V Buitenweg,K Richard Ridderinkhof,Jaap M J Murre,Terence J Quinn

doi:10.1371/journal.pone.0172993

Abstract

BackgroundBrain training is currently widely used in an attempt to improve cognitive functioning. Computer-based training can be performed at home and could therefore be an effective add-on to available rehabilitation programs aimed at improving cognitive functioning. Several studies have reported cognitive improvements after computer training, but most lacked proper active and passive control conditions.ObjectiveOur aim was to investigate whether computer-based cognitive flexibility training improves executive functioning after stroke. We also conducted within-group analyses similar to those used in previous studies, to assess inferences about transfer effects when comparisons to proper control groups are missing.MethodsWe conducted a randomized controlled, double blind trial. Adults (30–80 years old) who had suffered a stroke within the last 5 years were assigned to either an intervention group (n = 38), active control group (i.e., mock training; n = 35), or waiting list control group (n = 24). The intervention and mock training consisted of 58 half-hour sessions within a 12-week period. Cognitive functioning was assessed using several paper-and-pencil and computerized neuropsychological tasks before the training, immediately after training, and 4 weeks after training completion.Results and conclusionsBoth training groups improved on training tasks, and all groups improved on several transfer tasks (three executive functioning tasks, attention, reasoning, and psychomotor speed). Improvements remained 4 weeks after training completion. However, the amount of improvement in executive and general cognitive functioning in the intervention group was similar to that of both control groups (active control and waiting list). Therefore, this improvement was likely due to training-unspecific effects. Our results stress the importance to include both active and passive control conditions in the study design and analyses. Results from studies without proper control conditions should be interpreted with care.

Highlights

60% of stroke survivors show cognitive impairments which often persist in the chronic phase after stroke [1,2]
Both training groups improved on training tasks, and all groups improved on several transfer tasks
The three groups did not differ in age, educational level, sex, time since stroke, or baseline cognitive functioning except for attention

Summary

Introduction

60% of stroke survivors show cognitive impairments which often persist in the chronic phase after stroke [1,2]. Computer-based training approaches may complement existing rehabilitation programs. They have the advantage that they can be exercised at home, facilitating intense and repeated practice, a key element for restitution-based rehabilitation. The aim of restitution training is not to master compensational strategies, but restoration of impaired functions through stimulation. It is very difficult, if not impossible, to distinguish whether improvements in cognitive functioning are due to restitution of the function or to the use of implicitly learned strategies. Computer-based training can be performed at home and could be an effective add-on to available rehabilitation programs aimed at improving cognitive functioning. Several studies have reported cognitive improvements after computer training, but most lacked proper active and passive control conditions

Methods

Results

Conclusion