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This study evaluates the efficacy of smartphone-based speech therapy administered at home compared with usual care. Participants will be randomized into the treatment and waitlist control groups with an allocation ratio of 1:1.
The purpose of this study is to develop innovative home therapy games to train the weak arm and improve speech intelligibility (clarity) of children with hemiplegia from cerebral palsy. The investigators are exploring the effects of these therapy games and how they change the children's speech, hand movement, and brain activation. 15 children who are 8-17 years old will be recruited for this study. These children should have a diagnosis of cerebral palsy, mild to moderate speech issues but use speech as the primary mode of communication, mild to moderate movement difficulty and muscle spasticity, adequate hearing (pass a hearing screening), and be able to follow simple task-related directions. Children who have severe vision impairment that limits the child's ability to interact with the entire computer screen, have severe arm weakness so they cannot move their arm enough to interact with the computer games, have severe increase in tone in their weak arm, or have difficulty following instructions or paying attention to computer video games for at least 10 minutes cannot participate in this study. The therapy games will take 8 weeks to finish at home. Each child will play these games for 30 minutes each day, 5 days per week. In addition, children will come to the lab 4 times for speech and hand movement assessment: (1) 1st assessment takes place immediately before the child start to play the video games. (2) 2nd assessment takes place 4 weeks (midpoint) after the child starts to play the games. (3) 3rd assessment takes place immediately after the video games are finished. (4) 4th assessment takes place 6 weeks after the video games are finished. Each assessment should take about 2 hours to complete in the Rutgers movement lab or at Rutgers SLP Clinic. A total of 15 children will take part in this research study. The research will last for 2 years overall.
Comorbid Childhood Apraxia of Speech (CAS) may be one factor that limits speech development in some minimally verbal children with autism. CAS is a disorder affecting speech movement planning. This study tests whether CAS-specific treatment, appropriately modified for minimally verbal children with autism, improves their speech.
Childhood apraxia of speech (CAS) is a complex, multivariate speech motor disorder characterized by difficulty planning and programming movements of the speech articulators (ASHA, 2007; Ayres, 1985; Campbell et al., 2007; Davis et al., 1998; Forrest, 2003; Shriberg et al., 1997). Despite the profound impact that CAS can have on a child's ability to communicate, little data are available to direct treatment in this challenging population. Historically, children with CAS have been treated with articulation and phonologically based approaches with limited effectiveness in improving speech, as shown by very slow treatment progress and poor generalization of skills to new contexts. With the emerging data regarding speech motor deficits in CAS, there is a critical need to test treatments that directly refine speech movements using methods that quantify speech motor control. This research is a Randomized Control Trial designed to examine the outcomes of a non-traditional, motor-based approach, Dynamic Temporal and Tactile Cuing (DTTC), to improve speech production in children with CAS. The overall objectives of this research are (i) to test the efficacy of DTTC in young children with CAS (N=72) by examining the impact of DTTC on treated words, generalization to untreated words and post-treatment maintenance, and (ii) to examine how individual patterns of speech motor variability impact response to DTTC.