Description

Taiwan will enter a super-aged society in 2025, with adults aged 65 and above expected to comprise 20 % of the population-a shift that makes preserving cognitive health an urgent public-health priority. To meet this challenge, our integrated project draws on predictive-coding and active-inference theory to couple language science with neuroscience, psychology, occupational therapy, and large-language-model analytics. Within this framework, the present sub-project tests a 12-week, small-group language-training curriculum that meets once a week for two hours. Sessions weave together reading aloud, listening, oral summarising, writing, and guided discussion, all structured to elicit continual prediction, self-monitoring, feedback, and creative revision during language use.

Approximately ninety community-dwelling adults aged 65 years or older are being recruited and randomly assigned, in equal blocks of thirty, to one of three arms: an active language-prediction group that emphasises hypothesis-testing during language production and comprehension; a passive reading group that provides leisure reading and sharing without explicit predictive feedback; and a board-game control group that engages cognition but not language prediction.

Before and after the intervention, each participant completes a comprehensive battery. Behaviourally, the investigators assess verbal fluency, language memory, and real-time sentence-prediction accuracy, while electrophysiology (N400, anterior-positivity ERPs, anterior P2, and P300) and functional MRI capture neural plasticity associated with sentence processing, visual reasoning, and cognitive flexibility. Executive functions, divergent and convergent thinking, attention, affect, social cognition, and instrumental activities of daily living provide secondary endpoints to gauge transfer beyond language. Throughout the 12 weeks, spoken narratives are recorded and analyzed for idea density and syntactic complexity with large-language-model tools, yielding fine-grained markers of change unavailable to traditional testing.

The investigators anticipate that targeted, prediction-based training will rejuvenate age-diminished language-prediction signals, drive adaptive reorganization of executive and language networks, and produce broader cognitive and functional gains than either passive reading or non-linguistic gaming. Embedded in community settings, this program also seeks to foster lasting reading habits, strengthen collective cognitive resilience, and offer an ecologically valid blueprint for scaling evidence-based cognitive-health interventions.