Evidence for planning and motor subtypes of stuttering based on resting state functional connectivity

[1]  F. Morfini,et al.  Functional connectivity MRI quality control procedures in CONN , 2023, Frontiers in Neuroscience.

[2]  H. Chow,et al.  Brain developmental trajectories associated with childhood stuttering persistence and recovery , 2023, Developmental Cognitive Neuroscience.

[3]  Laura C. Dilley,et al.  Auditory rhythm discrimination in adults who stutter: An fMRI study , 2022, Brain and Language.

[4]  H. Chow,et al.  Neural activity during solo and choral reading: A functional magnetic resonance imaging study of overt continuous speech production in adults who stutter , 2022, Frontiers in Human Neuroscience.

[5]  H. Soltanian-Zadeh,et al.  rsfMRI based evidence for functional connectivity alterations in adults with developmental stuttering , 2021, Heliyon.

[6]  F. Guenther,et al.  The neural circuitry underlying the “rhythm effect” in stuttering , 2020, bioRxiv.

[7]  V. Tumanova,et al.  Effects of Physiological Arousal on Speech Motor Control and Speech Motor Practice in Preschool-Age Children Who Do and Do Not Stutter. , 2020, Journal of speech, language, and hearing research : JSLHR.

[8]  F. Guenther,et al.  Behavioral and Neural Correlates of Speech Motor Sequence Learning in Stuttering and Neurotypical Speakers: An fMRI Investigation , 2020, Neurobiology of Language.

[9]  A. McCurtin,et al.  The lived experience of stuttering: a synthesis of qualitative studies with implications for rehabilitation , 2020, Disability and rehabilitation.

[10]  P. Busan Developmental stuttering and the role of the supplementary motor cortex. , 2020, Journal of fluency disorders.

[11]  F. Guenther,et al.  Reliability of single-subject neural activation patterns in speech production tasks , 2019, Brain and Language.

[12]  F. Guenther,et al.  Involvement of the Cortico-Basal Ganglia-Thalamocortical Loop in Developmental Stuttering , 2019, Frontiers in Psychology.

[13]  Andrew C. Etchell,et al.  Functional and Neuroanatomical Bases of Developmental Stuttering: Current Insights , 2018, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[14]  N. Bernstein Ratner,et al.  Use of a phoneme monitoring task to examine lexical access in adults who do and do not stutter. , 2018, Journal of fluency disorders.

[15]  F. Guenther,et al.  Anomalous morphology in left hemisphere motor and premotor cortex of children who stutter , 2018, Brain : a journal of neurology.

[16]  Satrajit S. Ghosh,et al.  FMRIPrep: a robust preprocessing pipeline for functional MRI , 2018, Nature Methods.

[17]  Jens Frahm,et al.  Shifted dynamic interactions between subcortical nuclei and inferior frontal gyri during response preparation in persistent developmental stuttering , 2017, Brain Structure and Function.

[18]  Peter Howell,et al.  Planum temporale asymmetry in people who stutter , 2017, Journal of fluency disorders.

[19]  Andrew C. Etchell,et al.  Anomalous network architecture of the resting brain in children who stutter. , 2017, Journal of fluency disorders.

[20]  A. Choo,et al.  Dissociations among linguistic, cognitive, and auditory-motor neuroanatomical domains in children who stutter. , 2016, Journal of communication disorders.

[21]  Satrajit S. Ghosh,et al.  Decreased Cerebellar-Orbitofrontal Connectivity Correlates with Stuttering Severity: Whole-Brain Functional and Structural Connectivity Associations with Persistent Developmental Stuttering , 2016, Front. Hum. Neurosci..

[22]  J. Devin McAuley,et al.  Relation between functional connectivity and rhythm discrimination in children who do and do not stutter , 2016, NeuroImage: Clinical.

[23]  L. Tan,et al.  Altered functional connectivity in persistent developmental stuttering , 2016, Scientific Reports.

[24]  Satrajit S. Ghosh,et al.  Diffusion imaging of cerebral white matter in persons who stutter: evidence for network-level anomalies , 2013, Front. Hum. Neurosci..

[25]  Daniel Bullock,et al.  Computational modeling of stuttering caused by impairments in a basal ganglia thalamo-cortical circuit involved in syllable selection and initiation , 2013, Brain and Language.

[26]  E. Yairi,et al.  Epidemiology of stuttering: 21st century advances. , 2013, Journal of fluency disorders.

[27]  Lisa Goffman,et al.  Language and motor abilities of preschool children who stutter: evidence from behavioral and kinematic indices of nonword repetition performance. , 2012, Journal of fluency disorders.

[28]  H. Sussman,et al.  Nonword repetition and phoneme elision in adults who do and do not stutter. , 2012, Journal of fluency disorders.

[29]  Bruce Fischl,et al.  FreeSurfer , 2012, NeuroImage.

[30]  D. Peng,et al.  Neural anomaly and reorganization in speakers who stutter , 2012, Neurology.

[31]  Chunshui Yu,et al.  Resting-State Brain Activity in Adult Males Who Stutter , 2012, PloS one.

[32]  D. Louis Collins,et al.  Unbiased average age-appropriate atlases for pediatric studies , 2011, NeuroImage.

[33]  D. Bullock,et al.  Neural Representations and Mechanisms for the Performance of Simple Speech Sequences , 2010, Journal of Cognitive Neuroscience.

[34]  Julie D. Anderson,et al.  Childhood stuttering and dissociations across linguistic domains: a replication and extension. , 2009, Journal of fluency disorders.

[35]  Frank H. Guenther,et al.  An fMRI investigation of syllable sequence production , 2006, NeuroImage.

[36]  H. Duffau,et al.  The role of dominant striatum in language: a study using intraoperative electrical stimulations , 2005, Journal of Neurology, Neurosurgery & Psychiatry.

[37]  K M Heilman,et al.  Aberrant auditory processing and atypical planum temporale in developmental stuttering , 2004, Neurology.

[38]  P. Alm Stuttering and the basal ganglia circuits: a critical review of possible relations. , 2004, Journal of communication disorders.

[39]  K M Heilman,et al.  Atypical cerebral laterality in adults with persistent developmental stuttering , 2003, Neurology.

[40]  K. Heilman,et al.  Anomalous anatomy of speech–language areas in adults with persistent developmental stuttering , 2001, Neurology.

[41]  P. Strick,et al.  Basal ganglia and cerebellar loops: motor and cognitive circuits , 2000, Brain Research Reviews.

[42]  S. Chapman,et al.  Linguistic performance and regional cerebral blood flow in persons who stutter. , 1994, Journal of speech and hearing research.

[43]  S. Stager Heterogeneity in stuttering: Results from auditory brainstem response testing , 1990 .

[44]  George Houghton,et al.  The problem of serial order: a neural network model of sequence learning and recall , 1990 .

[45]  G. Blood,et al.  The concomitant problems of young stutterers. , 1981, The Journal of speech and hearing disorders.

[46]  G. Riley,et al.  Motoric and linguistic variables among children who stutter: a factor analysis. , 1980, The Journal of speech and hearing disorders.

[47]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[48]  H. Kaiser The Application of Electronic Computers to Factor Analysis , 1960 .

[49]  S. Mangelsdorf,et al.  Subtyping stuttering II: contributions from language and temperament. , 2007, Journal of fluency disorders.

[50]  E. Yairi Subtyping stuttering I: a review. , 2007, Journal of fluency disorders.

[51]  Peter Howell,et al.  Assessment of Some Contemporary Theories of Stuttering That Apply to Spontaneous Speech. , 2004, Contemporary issues in communication science and disorders : CICSD.

[52]  Van Riper Student Perception: The Counselor Is What He Does. , 1971 .

[53]  F. Guenther,et al.  Please Scroll down for Article Language and Cognitive Processes the Diva Model: a Neural Theory of Speech Acquisition and Production the Diva Model: a Neural Theory of Speech Acquisition and Production , 2022 .