Facilitation of naming in aphasia with auditory repetition: An investigation of neurocognitive mechanisms

Prior phonological processing can enhance subsequent picture naming performance in individuals with aphasia, yet the neurocognitive mechanisms underlying this effect and its longevity are unknown. This study used functional magnetic resonance imaging to examine the short-term (within minutes) and long-term (within days) facilitation effects from a phonological task in both participants with aphasia and age-matched controls. Results for control participants suggested that long-term facilitation of subsequent picture naming may be driven by a strengthening of semantic-phonological connections, while semantic and object recognition mechanisms underlie more short-term effects. All participants with aphasia significantly improved in naming accuracy following both short- and long-term facilitation. A descriptive comparison of the neuroimaging results identified different patterns of activation for each individual with aphasia. The exclusive engagement of a left hemisphere phonological network underlying facilitation was not revealed. The findings suggest that improved naming in aphasia with phonological tasks may be supported by changes in right hemisphere activity in some individuals and reveal the potential contribution of the cerebellum to improved naming following phonological facilitation. Conclusions must be interpreted with caution, however, due to the comparison of corrected group control results to that of individual participants with aphasia, which were not corrected for multiple comparisons.

[1]  Abraham Z. Snyder,et al.  Word Retrieval Learning Modulates Right Frontal Cortex in Patients with Left Frontal Damage , 2002, Neuron.

[2]  C. Price,et al.  Three Distinct Ventral Occipitotemporal Regions for Reading and Object Naming , 1999, NeuroImage.

[3]  A. Kertesz The Western Aphasia Battery , 1982 .

[4]  Michael Wilson,et al.  MRC psycholinguistic database: Machine-usable dictionary, version 2.00 , 1988 .

[5]  J. Yesavage,et al.  Geriatric Depression Scale (GDS): Recent evidence and development of a shorter version. , 1986 .

[6]  Matti Laine,et al.  Anomia: Theoretical and Clinical Aspects , 2006 .

[7]  W. Levelt,et al.  The spatial and temporal signatures of word production components , 2004, Cognition.

[8]  Richard S. J. Frackowiak,et al.  The anatomy of phonological and semantic processing in normal subjects. , 1992, Brain : a journal of neurology.

[9]  Michael J Brammer,et al.  Functional magnetic resonance imaging of verbal fluency and confrontation naming using compressed image acquisition to permit overt responses , 2003, Human brain mapping.

[10]  S. Kiran,et al.  Task-modulated neural activation patterns in chronic stroke patients with aphasia , 2011 .

[11]  Brenda C Rapp,et al.  Handbook of Cognitive Neuropsychology: What Deficits Reveal About the Human Mind , 2001 .

[12]  G. Thierry,et al.  Renewal of the neurophysiology of language: functional neuroimaging. , 2005, Physiological reviews.

[13]  Andrew W. Ellis,et al.  Age of Acquisition Norms for a Large Set of Object Names and Their Relation to Adult Estimates and Other Variables , 1997 .

[14]  C. B. Cave Very Long-Lasting Priming in Picture Naming , 1997 .

[15]  Alan S. Brown,et al.  Persistent repetition priming in picture naming and its dissociation from recognition memory. , 1988, Journal of experimental psychology. Learning, memory, and cognition.

[16]  Chris Rorden,et al.  Neural correlates of phonological and semantic-based anomia treatment in aphasia , 2007, Neuropsychologia.

[17]  R Todd Constable,et al.  Image distortion correction in EPI: Comparison of field mapping with point spread function mapping , 2002, Magnetic resonance in medicine.

[18]  John J. L. Morton,et al.  Interaction of information in word recognition. , 1969 .

[19]  John Morton,et al.  Facilitation in Word Recognition: Experiments Causing Change in the Logogen Model , 1979 .

[20]  E Tulving,et al.  Priming and human memory systems. , 1990, Science.

[21]  W. Levelt Accessing words in speech production: Stages, processes and representations , 1992, Cognition.

[22]  R W Cox,et al.  AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. , 1996, Computers and biomedical research, an international journal.

[23]  Allen R. Braun,et al.  Single-trial fMRI Shows Contralesional Activity Linked to Overt Naming Errors in Chronic Aphasic Patients , 2010, Journal of Cognitive Neuroscience.

[24]  Peter E Turkeltaub,et al.  Are networks for residual language function and recovery consistent across aphasic patients? , 2011, Neurology.

[25]  David Howard,et al.  Phonological and orthographic facilitation of word-retrieval in aphasia: Immediate and delayed effects , 2002 .

[26]  Daniel Herron,et al.  A new on-line resource for psycholinguistic studies. , 2004, Journal of memory and language.

[27]  D. Howard,et al.  Phonological therapy for word-finding difficulties: A re-evaluation , 2002 .

[28]  A. Schnider,et al.  Computerised treatment of anomia in acute aphasia: Treatment intensity and training size , 2006, Neuropsychological rehabilitation.

[29]  K Ugurbil,et al.  Detunable transverse electromagnetic (TEM) volume coil for high‐field NMR , 2002, Magnetic resonance in medicine.

[30]  Lyndsey Nickels,et al.  Improving word finding: Practice makes (closer to) perfect? , 2002 .

[31]  K. Mcmahon,et al.  The neural correlates of picture naming facilitated by auditory repetition , 2012, BMC Neuroscience.

[32]  D. Perani,et al.  A fMRI study of word retrieval in aphasia , 2003, Brain and Language.

[33]  G. Porter,et al.  The Comprehensive Aphasia Test , 2005 .

[34]  Nobuyuki Sasaki,et al.  Language-related brain function during word repetition in post-stroke aphasics , 2004, Neuroreport.

[35]  G. Dell,et al.  Lexical access in aphasic and nonaphasic speakers. , 1997, Psychological review.

[36]  Greg Allen,et al.  Magnetic resonance imaging of cerebellar–prefrontal and cerebellar–parietal functional connectivity , 2005, NeuroImage.

[37]  Terry M. Peters,et al.  3D statistical neuroanatomical models from 305 MRI volumes , 1993, 1993 IEEE Conference Record Nuclear Science Symposium and Medical Imaging Conference.

[38]  R. Henson Neuroimaging studies of priming , 2003, Progress in Neurobiology.

[39]  G. Dell,et al.  Origins of Paraphasias in Deep Dysphasia: Testing the Consequences of a Decay Impairment to an Interactive Spreading Activation Model of Lexical Retrieval , 1994, Brain and Language.

[40]  S. Kiebel,et al.  Training-induced brain plasticity in aphasia. , 1999, Brain : a journal of neurology.

[41]  Angela R Laird,et al.  Meta‐analyses of object naming: Effect of baseline , 2005, Human brain mapping.

[42]  J. Desmond,et al.  Lobular Patterns of Cerebellar Activation in Verbal Working-Memory and Finger-Tapping Tasks as Revealed by Functional MRI , 1997, The Journal of Neuroscience.

[43]  Keith D. White,et al.  Functional MRI of Language in Aphasia: A Review of the Literature and the Methodological Challenges , 2007, Neuropsychology Review.

[44]  W. Levelt Models of word production , 1999, Trends in Cognitive Sciences.

[45]  L. Worrall,et al.  Boston Naming Test results for healthy older Australians: A longitudinal and cross-sectional study , 2000 .

[46]  D. Howard Cognitive neuropsychology and aphasia therapy: the case of word retrieval , 2000 .

[47]  Lorraine K. Tyler,et al.  Identifying lesions on structural brain images—Validation of the method and application to neuropsychological patients , 2005, Brain and Language.

[48]  Jeremy D. Schmahmann,et al.  Functional topography in the human cerebellum: A meta-analysis of neuroimaging studies , 2009, NeuroImage.

[49]  Cynthia K. Thompson,et al.  Neuroimaging and recovery of language in aphasia , 2008, Current neurology and neuroscience reports.

[50]  M. Corbetta,et al.  Neural correlates of recovery from aphasia after damage to left inferior frontal cortex , 2000, Neurology.

[51]  David Howard,et al.  The facilitation of picture naming in aphasia , 1985 .

[52]  Paolo Vitali,et al.  Training-Induced Brain Remapping in Chronic Aphasia: A Pilot Study , 2007, Neurorehabilitation and neural repair.

[53]  S Monsell,et al.  The Locus of Repetition Priming of Spoken Word Production , 1992, The Quarterly journal of experimental psychology. A, Human experimental psychology.

[54]  D. Poeppel,et al.  Dorsal and ventral streams: a framework for understanding aspects of the functional anatomy of language , 2004, Cognition.

[55]  B. Gordon,et al.  Object shape processing in the visual system evaluated using functional MRI , 1997, Neurology.

[56]  M. L. Lambon Ralph,et al.  Further explorations and an overview of errorless and errorful therapy for aphasic word-finding difficulties: The number of naming attempts during therapy affects outcome , 2005 .

[57]  Agnes Flöel,et al.  Imaging short- and long-term training success in chronic aphasia , 2009, BMC Neuroscience.

[58]  A. Raymer,et al.  Management of Anomia , 2004, Topics in stroke rehabilitation.

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

[60]  H. E. Brown,et al.  Utilizing hemodynamic delay and dispersion to detect fMRI signal change without auditory interference: The behavior interleaved gradients technique , 1999, Magnetic resonance in medicine.

[61]  James L. McClelland,et al.  A distributed, developmental model of word recognition and naming. , 1989, Psychological review.

[62]  Keith D. White,et al.  Regional changes in word-production laterality after a naming treatment designed to produce a rightward shift in frontal activity , 2009, Brain and Language.

[63]  Elizabeth Rochon,et al.  Neural changes after phonological treatment for anomia: An fMRI study , 2010, Brain and Language.

[64]  Paul M. Matthews,et al.  Using fMRI to Study Recovery from Acquired Dysphasia , 2000, Brain and Language.

[65]  Bernard Mazoyer,et al.  Meta-analyzing left hemisphere language areas: Phonology, semantics, and sentence processing , 2006, NeuroImage.

[66]  Stephen M. Rao,et al.  Human Brain Language Areas Identified by Functional Magnetic Resonance Imaging , 1997, The Journal of Neuroscience.

[67]  Paul A. Kolers,et al.  Processing of visible language , 1979 .

[68]  M. D’Esposito Working memory. , 2008, Handbook of clinical neurology.

[69]  Peter Indefrey,et al.  The Spatial and Temporal Signatures of Word Production Components: A Critical Update , 2011, Front. Psychology.

[70]  N. Tzourio-Mazoyer,et al.  Automated Anatomical Labeling of Activations in SPM Using a Macroscopic Anatomical Parcellation of the MNI MRI Single-Subject Brain , 2002, NeuroImage.

[71]  Julie A. Fiez,et al.  Functional activation in the cerebellum during working memory and simple speech tasks , 2010, Cortex.

[72]  Federico Turkheimer,et al.  Speech production after stroke: The role of the right pars opercularis , 2003, Annals of neurology.

[73]  Chris Rorden,et al.  Activity in preserved left hemisphere regions predicts anomia severity in aphasia. , 2010, Cerebral cortex.

[74]  Jean-Francois Mangin,et al.  What is the best similarity measure for motion correction in fMRI time series? , 2002, IEEE Transactions on Medical Imaging.

[75]  Jacquie Kurland,et al.  Transcranial Magnetic Stimulation as a Complementary Treatment for Aphasia , 2004, Seminars in speech and language.

[76]  J. Morton,et al.  Treatment of word retrieval deficits in aphasia. A comparison of two therapy methods. , 1985, Brain : a journal of neurology.

[77]  R. Töpper,et al.  The neural correlate of very‐long‐term picture priming , 2005, The European journal of neuroscience.

[78]  S. Folstein,et al.  "Mini-mental state". A practical method for grading the cognitive state of patients for the clinician. , 1975, Journal of psychiatric research.

[79]  S. Bookheimer Functional MRI of language: new approaches to understanding the cortical organization of semantic processing. , 2002, Annual review of neuroscience.

[80]  Lyndsey Nickels,et al.  Spoken word production , 2000 .

[81]  P. Mariën,et al.  Language, cognition and the cerebellum: Grappling with an enigma , 2010, Cortex.

[82]  C. Weiller,et al.  Dynamics of language reorganization after stroke. , 2006, Brain : a journal of neurology.

[83]  G. Fink,et al.  Increased cortisol levels in cognitively challenging situations are beneficial in young but not older subjects , 2008, Psychopharmacology.

[84]  R. H. Baayen,et al.  The CELEX Lexical Database (CD-ROM) , 1996 .

[85]  Elizabeth Jefferies,et al.  Semantic Processing in the Anterior Temporal Lobes: A Meta-analysis of the Functional Neuroimaging Literature , 2010, Journal of Cognitive Neuroscience.

[86]  M. Coltheart Assumptions and methods in cognitive neuropsychology. , 2001 .

[87]  Karsten Specht,et al.  Recovery of semantic word processing in global aphasia: a functional MRI study. , 2004, Brain research. Cognitive brain research.

[88]  Clemens Kirschbaum,et al.  The scanner as a stressor: evidence from subjective and neuroendocrine stress parameters in the time course of a functional magnetic resonance imaging session. , 2011, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[89]  John D E Gabrieli,et al.  Assessing the influence of scanner background noise on auditory processing. I. An fMRI study comparing three experimental designs with varying degrees of scanner noise , 2007, Human brain mapping.