This study was designed to examine the effects of speech therapy on ability to produce speech sounds in persons with acquired apraxia of speech.
This study was designed to investigate the effects of Sound Production Treatment (SPT; a treatment for acquired apraxia of speech) on sound production accuracy in persons with chronic apraxia of speech (AOS). Organization of practice (blocked practice or randomized practice) will be manipulated in an effort to determine the most efficacious application of SPT. A combination of group and single-subject experimental designs wasl be completed with 20 speakers with AOS (2 groups of 10 participants).
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
20
Sound Production Treatment is a treatment for acquired apraxia of speech. Combines therapist modeling, simultaneous production, articulatory instruction, feedback and repeated practice. SPT-Blocked entailed practicing all treatment targets blocked by target. SPT-Random entailed practicing all treatment targets in a non predictable, random order.
A treatment for acquired apraxia of speech. Combines therapist modeling, simultaneous production, articulatory instruction, feedback and repeated practice. SPT-Random entailed practicing treatment targets in a non predictable order. SPT-Blocked entailed practicing treatment targets blocked by target.
VA Salt Lake City Health Care System, Salt Lake City, UT
Salt Lake City, Utah, United States
Speech Production: Effect Size for Treated Items
Change in accuracy of articulation of trained items as measured from baseline to 10 weeks post treatment using effect size calculations as the indicator of magnitude of change; production of words designated for treatment was measured repeatedly in non treatment probes prior to treatment, throughout all study phases, and at 10 weeks post treatment with percent accuracy calculated for each probe (maximum = 100%, minimum = 0% correct). Effect size calculations involved calculating the difference between post- and pre-treatment probe accuracy percentages with corrections made for variability (standard deviations in performance). The larger the effect size, the greater the change in performance from pre-treatment. Positive effect sizes = increases in accuracy \& negative effect sizes = decreases in accuracy.
Time frame: Pre treatment (2-3 week period preceding the start of treatment) vs. 10 weeks post all treatment
Speech Production: Percent Change in Treated Items
Change in accuracy of articulation of treated items as measured by percent increase in accuracy above the highest baseline measurement; production of words designated for treatment was measured repeatedly in non treatment probes prior to treatment, throughout all study phases, and at 10 weeks post treatment with percent accuracy calculated for each probe (0% to 100% correct). The highest percentage accuracy achieved in pre-treatment probes was subtracted from the percentage accuracy achieved at 10 weeks post-treatment to obtain change in accuracy value - this reflects change from maximum correct performance in baseline (pre-treatment). e.g., if in baseline probes, performance ranged from 10% to 30% accuracy and at post treatment performance was 90% accuracy, the change value would be 60% (90% minus 30%). A greater change value indicates greater change in articulation/production of words. Change could be positive (improved articulation) or negative (poorer articulation).
Time frame: baseline to 10 weeks post treatment
Speech Production: Percent Change in Untrained Items
Percent change in articulatory accuracy of untrained items measured by change in percent accuracy over highest baseline value; production of words designated to NOT receive treatment (untrained items) was measured repeatedly in non treatment probes prior to treatment, throughout all study phases, and at 10 weeks post treatment with percent accuracy calculated for each probe (maximum = 100%, minimum = 0% correct). Effect size calculations involved calculating the difference between post- and pre-treatment probe accuracy percentages with corrections made for variability (standard deviations in performance). The larger the effect size, the greater the change in performance from pre-treatment. Positive effect sizes = increases in accuracy \& negative effect sizes = decreases in accuracy.
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Time frame: baseline to 10 weeks post treatment
Speech Production of Untrained Items: Effect Sizes for Untrained Items
Change in accuracy of articulation of untrained items as measured by effect sizes reflecting magnitude of change. Production of words designated to not receive treatment (i.e., generalization items) was measured repeatedly in non treatment probes prior to treatment, throughout all study phases, and at 10 weeks post treatment with percent accuracy calculated for each probe (0% to 100% correct). Change in accuracy of articulation of untrained items was measured from baseline to 10 weeks post treatment using effect size calculations as the indicator of magnitude of change. Effect size calculations involved calculating the difference between post- and pre-treatment probe accuracy percentages with corrections made for variability (standard deviations in performance). The larger the effect size, the greater the change in performance from pre-treatment.
Time frame: Baseline vs. 10 weeks post all treatment