Abstract
Minimally verbal children with autism are understudied and lack effective treatment options. Personalized continuous theta-burst stimulation (cTBS) targeting the amygdala and its circuitry may be a potential therapeutic approach for this population. In a double-blind randomized controlled trial, minimally verbal children with autism (ages 2-8 years) received 4 weeks of cTBS. An amygdala-optimized functional connectivity (AOFC) group (N=23) received personalized stimulation targeting a left dorsolateral prefrontal cortex site functionally connected with the amygdala. A non-optimized (NO) control group (N=21) received stimulation at a standard prefrontal site. We assessed changes in Autism Diagnostic Observation Schedule scores, amygdala volume, spontaneous neural activity, and functional connectivity. Personalized AOFC-guided cTBS improved social and communication skills with an effect size twice that of the NO group (Cohen's d = 0.55 vs. 0.24). The AOFC group showed greater reductions in amygdala volume, spontaneous neural activity, and hyper-connectivity. Network-level amygdala connectivity changes with default mode, frontoparietal, and dorsal attention networks were correlated with clinical improvements. Field mapping analysis revealed that greater electric field overlap between standard and optimized targets predicted better treatment outcomes. Personalized AOFC-guided cTBS enhanced social skills and communication in minimally verbal children with autism by modulating amygdala structure and connectivity. Changes in amygdala network connectivity predicted clinical improvements, suggesting a mechanistic link between neural circuit plasticity and behavioral outcomes. These findings demonstrate the potential of precision-targeted neuromodulation in addressing a critical gap in autism treatment for this understudied population.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call