ABSTRACT
Background@#and Purpose The relationships among interleukin (IL)-10 levels, anxiety, and cognitive status after stroke remain controversial. We aimed to determine the associations of serum IL-10 levels with poststroke anxiety (PSA) and poststroke cognitive impairment (PSCI). @*Methods@#We recruited 350 patients with stroke, of whom only 151 completed a 1-month follow-up assessment. The Mini Mental State Examination (MMSE) and Hamilton Anxiety Scale (HAMA) were used to assess the cognitive status and anxiety, respectively. Serum IL-10 levels were measured within 24 hours of admission. @*Results@#IL-10 levels were significantly lower in the PSA group than in the non-PSA group, and they were negatively associated with HAMA scores (r=-0.371, p<0.001). After adjusting for all potential confounders, IL-10 levels remained an independent predictor of PSA (odds ratio=0.471, 95% confidence interval=0.237–0.936, p=0.032). IL-10 levels were strongly correlated with behavior during interviews, psychic anxiety, and somatic anxiety. Patients without PSCI had higher IL-10 levels were higher in non-PSCI patients than in PSCI patients, and they were positively associated with MMSE scores in the bivariate correlation analysis (r=0.169, p=0.038), and also with memory capacity, naming ability, and copying capacity.However, IL-10 did not predict PSCI in the univariable or multivariable logistic regression. @*Conclusions@#Low IL-10 levels were associated with increased risks of PSA and PSCI at a 1-month follow-up after stroke. Serum IL-10 levels may therefore be helpful in predicting PSA.
ABSTRACT
Neurons with direction-selectivity for vestibular stimuli are found in a number of cortical areas, and neurons in the ventral intraparietal area (VIP) and the dorsal subdivision of the medial superior temporal area (MSTd) of the macaque brain are clustered according to their direction preferences for vestibular signals. This raises the question where the clustering inherits from? Previous work has shown that VIP and MSTd most probably receive vestibular input from the parieto-insular vestibular cortex (PIVC), which processes vestibular signals at the earlier stage. Thus, PIVC is also supposed to show a clustered organization similar to that seen in VIP and MSTd. The present study was aimed to examine clustering properties of vestibular response in PIVC area. To address this issue, we compared the tuning of isolated single unit (SU) with the undifferentiated multiunit (MU) activity of several neighboring neurons recorded from the same microelectrode. When directional tuning was observed in MU activity, the direction preference generally agreed closely with that of a simultaneously recorded SU. These results suggest that PIVC neurons are indeed clustered according to preferred direction for both translational and rotational vestibular stimuli.