Altered dynamic functional connectivity of auditory cortex and medial geniculate nucleus in first-episode, drug-naïve schizophrenia patients with and without auditory verbal hallucinations

Abstract: Background and objectiveAs a key feature of schizophrenia, auditory verbal hallucination (AVH) is causing concern. Altered dynamic functional connectivity (dFC) patterns involving in auditory related regions were rarely reported in schizophrenia patients with AVH. The goal of this research was to find out the dFC abnormalities of auditory related regions in first-episode, drug-naïve schizophrenia patients with and without AVH using resting state functional magnetic resonance imaging (rs-fMRI).MethodsA total of… Show more

“…Increased connectivity with these regions perhaps suggests a better multisensory integration post-TRUE HD-tDCS. The findings related to occipital cortex align with the increasing evidence for the role of occipital cortex (Xue et al, 2022;Shaw et al, 2020) and visual system abnormalities in schizophrenia pathogenesis (Silverstein et al, 2021) that fit with the overarching postulate of predictive processing deficits (Adams et al, 2013;Sterzer et al 2018) involving imbalanced neuroplasticity (Guterman et al 2021) Given that, in this study, both TRUE and SHAM stimulation were seen to cause neuromodulatory cortical effects, there is a substantial possibility that the SHAM stimulation (constant current of +0.02mA at l-TPJ) in this study did not act like a placebo arm but rather a weak active arm capable of inducing cortical effects. And interestingly, only within the SHAM group, the connectivity changes of l-iLOC with l-sLOC and l-SPL were found to be negatively associated with the percentage change in AH, suggesting that patients were less likely to improve with cortical changes secondary to SHAM stimulation administered in this study.…”

Neurobiological and clinical effects of High-Definition tDCS on persistent auditory hallucinations in schizophrenia: A randomized controlled trial

“…Increased connectivity with these regions perhaps suggests a better multisensory integration post-TRUE HD-tDCS. The findings related to occipital cortex align with the increasing evidence for the role of occipital cortex (Xue et al, 2022;Shaw et al, 2020) and visual system abnormalities in schizophrenia pathogenesis (Silverstein et al, 2021) that fit with the overarching postulate of predictive processing deficits (Adams et al, 2013;Sterzer et al 2018) involving imbalanced neuroplasticity (Guterman et al 2021) Given that, in this study, both TRUE and SHAM stimulation were seen to cause neuromodulatory cortical effects, there is a substantial possibility that the SHAM stimulation (constant current of +0.02mA at l-TPJ) in this study did not act like a placebo arm but rather a weak active arm capable of inducing cortical effects. And interestingly, only within the SHAM group, the connectivity changes of l-iLOC with l-sLOC and l-SPL were found to be negatively associated with the percentage change in AH, suggesting that patients were less likely to improve with cortical changes secondary to SHAM stimulation administered in this study.…”

Neurobiological and clinical effects of High-Definition tDCS on persistent auditory hallucinations in schizophrenia: A randomized controlled trial