Towards a Theory of Learning for Naming Rehabilitation: Retrieval Practice and Spacing Effects.

Purpose The purpose of this article was to examine how different types of learning experiences affect naming impairment in aphasia. Methods In 4 people with aphasia with naming impairment, we compared the benefits of naming treatment that emphasized retrieval practice (practice retrieving target names from long-term memory) with errorless learning (repetition training, which preempts retrieval practice) according to different schedules of learning. The design was within subjects. Items were administered for multiple training trials for retrieval practice or repetition in a spaced schedule (an item's trials were separated by multiple unrelated trials) or massed schedule (1 trial intervened between an item's trials). In the spaced condition, we studied 3 magnitudes of spacing to evaluate the impact of effortful retrieval during training on the ultimate benefits conferred by retrieval practice naming treatment. The primary outcome was performance on a retention test of naming after 1 day, with a follow-up test after 1 week. Results Group analyses revealed that retrieval practice outperformed errorless learning, and spaced learning outperformed massed learning at retention test and at follow-up. Increases in spacing in the retrieval practice condition yielded more robust learning of retrieved information. Conclusion This study delineates the importance of retrieval practice and spacing for treating naming impairment in aphasia.

[1]  Aaron S. Benjamin,et al.  What makes distributed practice effective? , 2010, Cognitive Psychology.

[2]  A. Raymer,et al.  Evidence-based systematic review: effects of intensity of treatment and constraint-induced language therapy for individuals with stroke-induced aphasia. , 2008, Journal of speech, language, and hearing research : JSLHR.

[3]  Henry L. Roediger,et al.  Ten benefits of testing and their applications to educational practice. , 2011 .

[4]  Gary M. Oppenheim,et al.  The dark side of incremental learning: A model of cumulative semantic interference during lexical access in speech production , 2010, Cognition.

[5]  John Dunlosky,et al.  The Power of Successive Relearning: Improving Performance on Course Exams and Long-Term Retention , 2013 .

[6]  J. Eliassen,et al.  Use of fMRI in the Study of Chronic Aphasia Recovery After Therapy: A Case Study , 2008, Topics in stroke rehabilitation.

[7]  Joe Barcroft,et al.  Effects of Opportunities for Word Retrieval During Second Language Vocabulary Learning , 2007 .

[8]  Mike Rinck,et al.  Goal-Based Accessibility Of Entities Within Situation Models , 2003 .

[9]  M. Schwartz,et al.  Errorless learning in cognitive rehabilitation: A critical review , 2012, Neuropsychological rehabilitation.

[10]  Sean H. K. Kang Enhancing visuospatial learning: The benefit of retrieval practice , 2010, Memory & cognition.

[11]  Katherine A Rawson,et al.  Test-enhanced learning versus errorless learning in aphasia rehabilitation: testing competing psychological principles. , 2015, Journal of experimental psychology. Learning, memory, and cognition.

[12]  Thomas C. Toppino,et al.  About Practice: Repetition, Spacing, and Abstraction , 2014 .

[13]  Shana K. Carpenter,et al.  Application of the Testing and Spacing Effects to Name Learning , 2005 .

[14]  W. Huber,et al.  Model‐oriented naming therapy: Testing predictions of a connectionist model , 2007 .

[15]  R. Teasell,et al.  Intensity of Aphasia Therapy, Impact on Recovery , 2003, Stroke.

[16]  D C Rubin,et al.  The spacing effect depends on an encoding deficit, retrieval, and time in working memory: evidence from once-presented words. , 1998, Memory.

[17]  Jeffrey D. Karpicke,et al.  Test-Enhanced Learning , 2006, Psychological science.

[18]  M. Ewers,et al.  Different rates of forgetting following study versus test trials , 2003, Memory.

[19]  H. P. Bahrick,et al.  Maintenance of Foreign Language Vocabulary and the Spacing Effect , 1993 .

[20]  F Lhermitte,et al.  Phonemic paraphasias: linguistic structures and tentative hypothesis. , 1969, Cortex; a journal devoted to the study of the nervous system and behavior.

[21]  Effects of noun–verb conceptual/phonological relatedness on verb production changes in Broca's aphasia , 2013, Aphasiology.

[22]  Jeffrey D. Karpicke,et al.  Spaced retrieval: absolute spacing enhances learning regardless of relative spacing. , 2011, Journal of experimental psychology. Learning, memory, and cognition.

[23]  Catherine O. Fritz,et al.  The improved name game: Better use of expanding retrieval practice , 2002, Memory.

[24]  Lyndsey Nickels,et al.  Therapy for naming disorders: Revisiting, revising, and reviewing , 2002 .

[25]  M. L. Lambon Ralph,et al.  The application of errorless learning to aphasic disorders: A review of theory and practice , 2003, Neuropsychological rehabilitation.

[26]  Jeffrey D. Karpicke,et al.  Expanding retrieval practice promotes short-term retention, but equally spaced retrieval enhances long-term retention. , 2007, Journal of experimental psychology. Learning, memory, and cognition.

[27]  Jeffrey D. Karpicke,et al.  Retrieval Practice Produces More Learning than Elaborative Studying with Concept Mapping , 2011, Science.

[28]  John Dunlosky,et al.  Improving Students’ Learning With Effective Learning Techniques: Promising Directions From Cognitive and Educational Psychology , 2012 .

[29]  Harold Pashler,et al.  The Effect of Overlearning on Long-Term Retention , 2005 .

[30]  H. Pashler,et al.  The influence of retrieval on retention , 1992, Memory & cognition.

[31]  A. Baddeley A theory of rehabilitation without a model of learning is a vehicle without an engine: A comment on caramazza and hillis , 1993 .

[32]  R. Baayen,et al.  Mixed-effects modeling with crossed random effects for subjects and items , 2008 .

[33]  Katherine A Rawson,et al.  When is guessing incorrectly better than studying for enhancing memory? , 2012, Psychonomic bulletin & review.

[34]  R. Menzel,et al.  Massed and spaced learning in honeybees: the role of CS, US, the intertrial interval, and the test interval. , 2001, Learning & memory.

[35]  R. Bjork,et al.  Unsuccessful retrieval attempts enhance subsequent learning. , 2009, Journal of experimental psychology. Learning, memory, and cognition.

[36]  Keith B. Lyle,et al.  Retrieving Essential Material at the End of Lectures Improves Performance on Statistics Exams , 2011 .

[37]  W. James,et al.  The Principles of Psychology. , 1983 .

[38]  Karen Sage,et al.  How intensive does anomia therapy for people with aphasia need to be? , 2011, Neuropsychological rehabilitation.

[39]  John Deluca,et al.  Retrieval practice improves memory in multiple sclerosis: clinical application of the testing effect. , 2010, Neuropsychology.

[40]  John Dunlosky,et al.  Optimizing schedules of retrieval practice for durable and efficient learning: how much is enough? , 2011, Journal of experimental psychology. General.

[41]  Katherine A. Rawson,et al.  Testing the retrieval effort hypothesis: Does greater difficulty correctly recalling information lead to higher levels of memory? , 2009 .

[42]  William L. Cull,et al.  Untangling the benefits of multiple study opportunities and repeated testing for cued recall , 2000 .

[43]  Gary S Dell,et al.  Naming and repetition in aphasia: Steps, routes, and frequency effects. , 2010, Journal of memory and language.

[44]  Harold Pashler,et al.  Is temporal spacing of tests helpful even when it inflates error rates? , 2003, Journal of experimental psychology. Learning, memory, and cognition.

[45]  Shana K. Carpenter,et al.  Cue strength as a moderator of the testing effect: the benefits of elaborative retrieval. , 2009, Journal of experimental psychology. Learning, memory, and cognition.

[46]  J. Stark Analysing the language therapy process: The implicit role of learning and memory , 2005 .

[47]  H. Pashler,et al.  When does feedback facilitate learning of words? , 2005, Journal of experimental psychology. Learning, memory, and cognition.