Background. The coronavirus disease 2019 (COVID-19) outbreak has unfavorably influenced solid organ donation activity. Aim. The aim of this study is to investigate the effect of COVID-19 on transplantation in the North Italy Transplant program (NITp). Material and Methods. This cross-sectional study included all consecutive potential deceased donors proposed in the NITp in 6 weeks after February 21, 2020 (period A) compared to all potential donors during the same time frame of the previous years (period B) and all potential donors 6 weeks before February 20, 2020 (period C). Results. Fifty-eight deceased donors were proposed during period A, 95 were proposed during period B, and 128 were proposed during period C. After the evaluation process, 32 of 58 (55.2%), 60 of 95 (63.2%), and 79 of 128 (61.7%) donors were used for organ donation in periods A, B, and C, respectively (P value ¼ .595). We observed a 47% donation reduction in period A compared to period B and a 60% reduction compared to period C. There was a reduction of 44% and 59% in transplantation comparing period A with period B and period C, respectively. Conclusions. This study showed an important reduction of donations and transplants during the COVID-19 pandemic.
Over the past two decades, the postulated modulatory effects of transcranial direct current stimulation (tDCS) on the human brain have been extensively investigated. However, recent concerns on reliability of tDCS effects have been raised, principally due to reduced replicability and to interindividual variability in response to tDCS. These inconsistencies are likely due to the interplay between the level of induced cortical excitability and unaccounted structural and state-dependent functional factors. On these grounds, we aimed at verifying whether the behavioural effects induced by a common tDCS montage (F3-rSOA) were influenced by the participants' arousal levels, as part of a broader mechanism of state-dependency. Pupillary dynamics were recorded during an auditory oddball task while applying either a sham or real tDCS.The tDCS effects were evaluated as a function of subjective and physiological arousal predictors (STAI-Y State scores and pre-stimulus pupil size, respectively). We showed that prefrontal tDCS hindered task learning effects on response speed such that performance improvement occurred during sham, but not real stimulation. Moreover, both subjective and physiological arousal predictors significantly explained performance during real tDCS, with interaction effects showing performance improvement only with moderate arousal levels; likewise, pupil response was affected by real tDCS according to the ongoing levels of arousal, with reduced dilation during higher arousal trials. These findings highlight the potential role of arousal in shaping the neuromodulatory outcome, thus emphasizing a more careful interpretation of null or negative results while also encouraging more individually tailored tDCS applications based on arousal levels, especially in clinical populations.
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