(1) Background: Stroke is a major cause of permanent disability in multiple functions, including the cognitive domain. Since both cognitive training and aerobic physical exercise may exert positive effects on cognition after stroke, one may expect synergistic benefits when combining both interventions. (2) Methods: We carried out a systematic search of studies testing, in adult stroke patients, whether structured aerobic exercise combined with cognitive training led to higher cognitive benefits than either of these interventions when applied singly, or than interventions not including aerobic exercise or cognitive training. (3) Results: Five fair-quality randomized controlled trials fulfilled the search criteria. Exercise intensity was moderate-vigorous and cognitive training was mainly computer-based. The studies were heterogeneous regarding the cognitive tests used, and for this reason, a meta-analysis was not performed. Only three studies included follow-up assessment. The combined intervention was associated with pre-post improvement in at least one cognitive test in all the studies, and with higher positive effects compared to other conditions (although statistical significance was not always reached) in four studies. (4) Conclusions: Further trials including a long-term follow-up and comprehensive neuropsychological testing should be undertaken to determine whether combined aerobic exercise and cognitive training leads to additive cognitive benefits after stroke.
(1) Background: Stroke is a major cause of permanent disability in multiple functions, including the cognitive domain. Since both cognitive training and aerobic physical exercise may exert positive effects on cognition after stroke, one may expect synergistic benefits when combining both interventions. (2) Methods: We carried out a systematic search of studies testing, in adult strokepatients, whether structured aerobic exercise combined with cognitive training led to higher cognitive benefits than either of these interventions when applied singly, or than interventions not including aerobic exercise or cognitive training. (3) Results: Five fair-quality randomized controlled trials fulfilled the search criteria. Exercise intensity was moderate-vigorous and cognitive training was mainly computer-based. The studies were heterogeneous regarding the cognitive tests used, and for this reason, a meta-analysis was not performed. Only three studies included follow-up assessment. The combined intervention was associated with pre-post improvement in at least one cognitive test in all the studies, and with higher positive effects compared to other conditions (although statistical significance was not always reached) in four studies. (4) Conclusions: Further trials including a long-term follow-up and comprehensive neuropsychological testing should be undertaken to determine whether combined aerobic exercise and cognitive training leads to additive cognitive benefits after stroke.
Authors: Mahdi Yazdani; Ahmad Chitsaz; Vahid Zolaktaf; Mohammad Saadatnia; Majid Ghasemi; Fatemeh Nazari; Abbas Chitsaz; Katsuhiko Suzuki; Hadi Nobari Journal: Brain Sci Date: 2022-06-22
Authors: Adrià Bermudo-Gallaguet; Mar Ariza; Rosalia Dacosta-Aguayo; Daniela Agudelo; Neus Camins-Vila; Maria Boldó; Òscar Carrera; Sandra Vidal; Blai Ferrer-Uris; Albert Busquets; Marc Via; Guillem Pera; Cynthia Cáceres; Meritxell Gomis; Alberto García-Molina; José María Tormos; Ana Arrabé; Gustavo Diez; Maria José Durà Mata; Pere Torán-Monserrat; Juan José Soriano-Raya; Sira Domènech; Alexandre Perera-Lluna; Kirk I Erickson; Maria Mataró Journal: Front Aging Neurosci Date: 2022-09-29 Impact factor: 5.702