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Recent Models of Stuttering

Recent Models of Stuttering. J. Scott Yaruss, Ph.D., CCC-SLP University of Pittsburgh. Western Illinois University February 7, 1997. Purpose. To discuss two recent theoretical models of stuttering Covert Repair Hypothesis (Postma & Kolk, 1993)

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Recent Models of Stuttering

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  1. Recent Modelsof Stuttering J. Scott Yaruss, Ph.D., CCC-SLPUniversity of Pittsburgh Western Illinois UniversityFebruary 7, 1997

  2. Purpose • To discuss two recent theoretical models of stuttering • Covert Repair Hypothesis(Postma & Kolk, 1993) • Neuropsycholinguistic Model(Perkins, Kent, & Curlee, 1991)

  3. Some Factors That May BeInvolved in Stuttering Genetic Environmental Linguistic Motoric Psychological

  4. Basic Steps inLanguage Formulation • Figuring out what you want to say • Basic message • Pragmatic intent • Figuring out how you want to say it • Grammatical structure • Specific words • Sounds in the words • Prosody

  5. CONCEPTUALIZER discourse model, situation knowledge, message encyclopedia generation etc. monitoring parsed speech preverbal message FORMULATOR SPEECH- COMPREHENSION SYSTEM grammatical encoding LEXICON lemmas surface structure forms phonological encoding phonetic plan (internal speech) phonetic string ARTICULATOR AUDITION overt speech Levelt’s (1989) “Blueprint for the Speaker”

  6. Covert Repair Hypothesis (CRH)(Postma & Kolk, 1993) • Designed to explain the production of speech disfluencies by adults who do stutter as well as those who do not in the context of general language models • Based upon current psycholinguistic models of speech production(e.g., Dell, 1988; Levelt, 1989)

  7. Theoretical Foundationsof the CRH—I • Levelt’s “blueprint for the speaker” • Describes conceptualization, formulation, articulation, audition, and comprehension • Explains how speakers monitor the accuracy and appropriateness of their speech—both before and after speech is produced • Describes processes speakers can utilize to repairdetected errors in their phonetic plan by interrupting ongoing speech (e.g., Levelt, 1983)

  8. CONCEPTUALIZER discourse model, situation knowledge, message encyclopedia generation etc. monitoring parsed speech preverbal message FORMULATOR SPEECH- COMPREHENSION SYSTEM grammatical encoding LEXICON lemmas surface structure forms phonological encoding phonetic plan (internal speech) phonetic string ARTICULATOR AUDITION overt speech Levelt’s (1989) “Blueprint for the Speaker”

  9. Levelt’s Monitoring Loops • Internal Loops • In conceptualizer, before preverbal message is generated • After phonetic plan is generated by formulator (covert speech) • External Loop • After speech is articulated (overt speech)

  10. Theoretical foundationsof the CRH—II • Dell’s (1988) Spreading-Activation Model of Phonological Encoding • Connectionist model • Describes how phonological units are selected (and mis-selected) • When a node is activated at one level, activation spreads to all connected nodes at other levels • Node with highest degree of activation is selected

  11. Connectionist Models

  12. Spreading-Activation and Phonological Errors

  13. Basic Assumptionsof the CRH • All speakers experience occasional errors in their phonetic plan due to mis-selection of phonological units • If errors are detected, they can be repaired; repairs result in disfluencies • Disfluencies are the by-product of speaker’s attempt to repair phonetic plans errors

  14. Basic Assumptionsof the CRH (cont.) • Individuals who stutter produce more disfluencies because they are assumed to… • have a slow phonological encoding mechanism • attempt to begin speaking too soon or try to speak too quickly for their impaired encoding mechanism to make accurate selections • The result is many phonetic plan errors and many opportunities for disfluencies

  15. Delayed Phonological Encoding(after Yaruss & Conture, 1996)

  16. What the CRH does anddoes not attempt to explain • Doesattempt to explain • The production of speech disfluencies in the framework of normal language processes believed to be exhibited by all speakers • Does notattempt to explain: • The developmental course of stuttering (e.g., repetitions prolongations, etc.) • The development of accessory behaviors (struggle, tension, etc.)

  17. CRH Summary • Speakers have the ability to monitor their speech— both before and after it is produced • Speakers sometimes make errors in phonological encoding due to the spreading-activation mechanism • If speakers detect these errors, they can interrupt speech to repair them before they are produced • The by-product of the interruption is a disfluency • People who stutter produce more disfluencies because their phonological encoding mechanism is assumed to be impaired so there are frequent encoding errors

  18. Neuropsycholinguistic ModelPerkins, Kent, & Curlee (1991) • Speech involves many concurrent language and motoric processes • The timing of the interactions between these processes is crucial • This model, like the CRH, emphasizes timing, but now we’re interested in timing between language components • Also called the “temporal dyssynchrony” model

  19. Product of processinghigh in awareness Processing procedures low in awareness Stress, intonation, duration, and vocal quality PP SYSTEM Vocal signal systemFeeling and intent mapping Integration of paralinguisticandprosodic components WORKINGMEMORYSYSTEM COGNITIVE SYSTEMFormulation of ideas paralinguistic LANGUAGE SYSTEM Symbol System Symbolic Mapping prosody Words forphonemic analysis Syllable Slots Segment order SEGMENTAL SYSTEMPhonetic Specifications INTEGRATOR SYSTEMSegments integrated into syllables Awareness Segments SPEECH MOTOR CONTROL SYSTEM Neuropsycholinguistic ModelPerkins, Kent, & Curlee, 1991

  20. Assumptions of the Neuropsycholinguistic Model • Disfluencies occur due to a disruption in timing between various linguistic formulation and motoric execution • Stuttering is defined as a “loss of control” which occurs when the individual is unable to continue speaking, but does not know why

  21. “Loss of Control” • Some aspects of language formulation are accessible to conscious awareness • Others aspects (e.g., phonological encoding, integration) are not • Loss of control occurs when disruption takes place in an aspect of the model that is not “accessible”

  22. One Unique Aspects of the Model • Time pressure • The pressure a speaker feels to continue speaking when he is experiencing a disruption in linguistic/motoric integration • Increases the likelihood that the “loss of control” feeling will occur • Without abnormal time pressure, speech disfluencies may occur, but stuttering will not

  23. Summary of Neuropsycholinguistic Model • Speech requires integration of several aspects of linguistic formulation with motoric execution • Processes can become disrupted • If disruption is “accessible” to awareness, then a disfluency will occur. If not, the speaker will experience a loss of control • If the loss of control is accompanied by abnormal time pressure, stuttering will occur

  24. ? ? ? ? What do these models tell us about the diagnosis and treatment of individual people who stutter?

  25. Not Much!(yet) However, the general language models on which they are based can provide guidelines about specific aspects of language that should be examine in the diagnosis of individuals who stutter

  26. CONCEPTUALIZER discourse model, situation knowledge, message encyclopedia generation etc. monitoring parsed speech preverbal message FORMULATOR SPEECH- COMPREHENSION SYSTEM grammatical encoding LEXICON lemmas surface structure forms phonological encoding phonetic plan (internal speech) phonetic string ARTICULATOR AUDITION overt speech Levelt’s (1989) “Blueprint for the Speaker”

  27. message generation CONCEPTUALIZER Conceptualization monitoring • Basic Message • Does client stutter more on complex messages? • Does client stutter more on utterances with greater propositionality or meaning? • Pragmatic Intent • How does social interaction affect fluency? • Does client stutter more when experiencing greater demands on pragmatic or social interaction skills?

  28. FORMULATOR grammatical encoding surface structure phonological encoding FormulationGrammatical Encoding • Does client stutter more in situations which require more complex utterances? • Does client stutter more on syntactically complex utterances? • Does client demonstrate problems with syntactic development which might interfere with fluent speech production?

  29. FORMULATOR LEXICON grammatical lemmas encoding forms phonological encoding FormulationLexical Access • Does client exhibit word finding problems that might interfere with speech production? • Does client exhibit frequent mislabelings or nonsystematic speech errors which might interfere with fluent speech production? • Are some words harder to retrieve than others?

  30. FORMULATOR grammatical encoding surface structure phonological encoding FormulationPhonological Encoding • Does client frequently produce nonsystematic speech errors which might lead to production self-repairs or speech disfluencies? • Does client have difficulty retrieving the phonological form of utterances (as in the “tip of the tongue” phenomenon)?

  31. FORMULATOR phonological encoding phonetic plan (internal speech) ARTICULATOR Formulation Phonological Development • Does client exhibit phonological delay which might indicate a slow-to-develop linguistic formulation system? • Does client exhibit phonological delay which makes communication more difficult and increases sensitivity about his/her speech?

  32. Articulation • Does client stutter more when using a faster speaking rate? • Does client stutter more when leaving less time for linguistic planning and formulation of utterances? • Does client have difficulties with diadochokinetic (DDK) abilities that might interfere with ability to rapidly and precisely produce speech

  33. Summary • Several recent models of stuttering have emphasized the role of language formulation • These models are important for improving our understanding of the nature of stuttering, in part because of the research they encourage • An increased understanding of the language models on which these theories are based can help us improve the diagnosis of stuttering

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