Approximately 7% of the population experiences developmental language disorder (DLD), a language disorder with unclear causes. DLD affects communication beyond adolescence and poses challenges for education and career advancement due to difficulties in learning and memory. Recent research suggests that adults with DLD struggle with overnight memory consolidation, indicating a need for effective learning and memory support. This project aims to determine the optimal training schedule for perceptual memory retention in adults with and without DLD. The study involves recruiting 240 adults (120 with DLD, 120 without) for speech-perceptual training with different training schedules. The researchers predict that the manipulation of training schedules will interact with circadian preference and overnight consolidation, leading to the discovery of the best practice schedule for speech sound retention. Additionally, 300 more adults (150 with DLD, 150 without) will be recruited to investigate how optimal training schedules interact with reflexive and reflective learning strategies. The time course of learning and retention will be tracked during reflexive and reflective categorization training in six different training schedules.
Developmental language disorder (DLD) describes the idiopathic disorder(s) of language that occurs in approximately 7% of the population. Although DLD is understudied in adulthood, it is clear that the communication challenges in DLD extend beyond adolescence. The barriers to educational and vocational achievement for adults with DLD include persistent difficulties in learning and memory. Recent work suggests that these difficulties with learning and memory include deficits in overnight memory consolidation. Thus, an effective support for learning and memory function in adults with DLD must include strategies for both overcoming initial challenges in learning, as well as in mitigating a deficit in consolidation of learned information. In this project, the investigators combine insights from the neurobiology of learning and memory, chronobiology, and speech perception, to determine the optimal training schedule for perceptual memory retention in adults with and without DLD. The investigators have two Aims in this project: First, the investigators will recruit 240 adults (120 with/120 without DLD) to participate in a speech-perceptual training to take place in one of six different training schedules over 24 hours. The investigators predict that our manipulation of training schedules will interact with circadian preference and timing relative to overnight consolidation, to allow the discovery of the optimal practice schedule for speech sound retention for adult learners with \& without DLD. Under our second aim, the investigators will recruit an additional 300 adults (150 with/150 without DLD) in order to determine how optimal training schedules interact with reflexive and reflective learning strategies in adults with and without DLD. The investigators will achieve this aim by tracking the time course of learning and retention in adults participating in reflexive and reflective categorization training in one of six training schedules.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
540
Participants complete a forced-choice categorization task with feedback, in order to learn difficult auditory and visual categories
University of Delaware
Newark, Delaware, United States
RECRUITINGNortheastern University
Boston, Massachusetts, United States
RECRUITINGSpeech discrimination - behavior
Participants will be administered a short (approximately 4-minute) behavioral task. They will be exposed to two speech sounds, separated by a 1-second interval. Some sounds will begin with the dental stop consonant, and other sounds will begin with the retroflex stop consonant. Participants will be asked to decide if the two sounds they hear are the same or different. Accuracy will be converted to d-prime (a measure of signal detection). This d-prime score will be the primary behavioral outcome for speech discrimination.
Time frame: 1 week
category identification - behavior
Participants will be administered a short (approximately 2 minutes) for each modality (auditory and visual). Participants will either hear (auditory - pure tone) or see (visual - gabor patch) a stimulus, and will need to choose which category the stimulus belongs to out of a choice of two. The percentage of trials that are answered correctly will be the primary behavioral outcome for auditory and visual category identification.
Time frame: 48 hours
Speech discrimination - Event-related potential of the electroencephalogram (ERP/EEG)
The investigators will fit the participant's head with a pre-positioned electrode cap, with electrolytic gel applied between the electrodes and the scalp. The participants will watch a silent movie while dental and retroflex speech tokens are presented in an oddball paradigm. The investigators will record the participants' electroencephalogram (EEG) while the auditory stimuli are presented. The EEG data will be segmented to examine the fluctuations in voltage recorded at the scalp (in milivolts) for a duration of one second after the onset of each stimulus. The segmented data will be averaged across dental trials, and across the retroflex trials. The resultant waveforms will be subtracted from one another. The peak of the deflection in the difference waveform found approximately 250miliseconds following stimulus onset is the mismatch negativity (MMN) component. The magnitude of the MMN component will be our primary outcome measure.
Time frame: 1 event-related potential (ERP) session 1 week following training
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.