OBJECTIVE: To determine if adults in the subacute phase post moderate or mild stroke could learn a motor task under implicit practice conditions. DESIGN: Non-randomized, between-group design. SETTING: Subjects' homes. SUBJECTS: Sample of convenience of 15 adults with moderate stroke, 22 adults with mild stroke, and 32 age-matched controls. Stroke severity was determined using the Orpington Prognostic Scale. INTERVENTION: Practice of movements to target switches in two conditions, a repeated series and a random series. Practice was organized into a single session of six blocks of 80 trials such that blocks 1 and 2 were the random series, blocks 3 and 4 the repeated series, block 5 the random series, and block 6 the repeated series. Explicit knowledge of the two conditions was not provided. MAIN MEASURES: The mean response time and the coefficient of variation were calculated for each block for each group. RESULTS: Regardless of group, participants had a slower response time when practice was unexpectedly switched from the repeated to random condition. The response time and coefficient of variation for those with moderate stroke were persistently greater than those with mild stroke and controls, who were not different from each other. CONCLUSIONS: Implicit motor learning is preserved in adults with moderate stroke and may be a viable strategy for teaching motor skills in rehabilitation. The clinician should be aware that subjects with moderate stroke, even when performing with the less affected upper extremity, have significantly slower and more variable movements than those with mild stroke and controls.
OBJECTIVE: To determine if adults in the subacute phase post moderate or mild stroke could learn a motor task under implicit practice conditions. DESIGN: Non-randomized, between-group design. SETTING: Subjects' homes. SUBJECTS: Sample of convenience of 15 adults with moderate stroke, 22 adults with mild stroke, and 32 age-matched controls. Stroke severity was determined using the Orpington Prognostic Scale. INTERVENTION: Practice of movements to target switches in two conditions, a repeated series and a random series. Practice was organized into a single session of six blocks of 80 trials such that blocks 1 and 2 were the random series, blocks 3 and 4 the repeated series, block 5 the random series, and block 6 the repeated series. Explicit knowledge of the two conditions was not provided. MAIN MEASURES: The mean response time and the coefficient of variation were calculated for each block for each group. RESULTS: Regardless of group, participants had a slower response time when practice was unexpectedly switched from the repeated to random condition. The response time and coefficient of variation for those with moderate stroke were persistently greater than those with mild stroke and controls, who were not different from each other. CONCLUSIONS: Implicit motor learning is preserved in adults with moderate stroke and may be a viable strategy for teaching motor skills in rehabilitation. The clinician should be aware that subjects with moderate stroke, even when performing with the less affected upper extremity, have significantly slower and more variable movements than those with mild stroke and controls.
Authors: Elizabeth Regan; Julius Fridriksson; Sydney Y Schaefer; Chris Rorden; Leonardo Bonilha; Jennapher Lingo VanGilder; Jill Campbell Stewart Journal: Exp Brain Res Date: 2020-11-01 Impact factor: 1.972
Authors: Melanie Kleynen; Michel Hc Bleijlevens; Anna Jhm Beurskens; Sascha M Rasquin; Jos Halfens; Mark R Wilson; Rich S Masters; Monique A Lexis; Susy M Braun Journal: JMIR Res Protoc Date: 2013-05-17
Authors: Alice Haniuda Moliterno; Fernanda Vieira Bezerra; Louanne Angélica Pires; Sarah Santos Roncolato; Talita Dias da Silva; Thais Massetti; Deborah Cristina Gonçalves Luiz Fernani; Fernando Henrique Magalhães; Carlos Bandeira de Mello Monteiro; Maria Tereza Artero Prado Dantas Journal: Biomed Res Int Date: 2020-07-22 Impact factor: 3.411
Authors: Svenja Espenhahn; Holly E Rossiter; Bernadette C M van Wijk; Nell Redman; Jane M Rondina; Joern Diedrichsen; Nick S Ward Journal: Brain Commun Date: 2020-10-07