Objective:To observe the effect of hyperbilirubinemia on glomerulus of rats, and to explore its dose-response and mechanism.Methods:Twenty-four adult male Sprague-Dawley (SD) rats were divided into four groups according to the random number table method, with 6 rats in each group. Hyperbilirubinemia rat model was reproduced by intraperitoneal injection of bilirubin once every 12 hours for 4 times, at doses of 50, 100, and 200 mg/kg in low, medium, and high dose bilirubin group (LB group, MB group, HB group), respectively. The rats in negative control group (NC group) were given the same solvent without bilirubin powder. Urine was collected 24 hours after administration, and total protein (TP) level was detected. Then the rats were sacrificed, the blood was collected by cardiac puncture, and the total bilirubin (TBil) and direct bilirubin (DBil) levels were measured by automatic biochemical analyzer. The renal tissue was collected and stained with periodic acid-Schiff (PAS) staine, the glomerular morphology was observed under light microscope, and the glomerular injury score was performed. Podocyte morphology was observed by transmission electron microscopy after uranium acetate and lead citrate double staining. The activity of superoxide dismutase (SOD) and content of malondialdehyde (MDA) were determined by colorimetric method. The expression level of podocyte specific marker Wilms tumor protein-1 (WT-1) was determined by Western blotting.Results:With the increase of bilirubin dose, the contents of 24-hour urine TP, blood TBil, blood DBil and MDA content in kidney tissue were gradually increased, and the SOD activity and WT-1 expression in kidney tissue were gradually decreased. The differences between LB group, MB group, HB group and NC group were statistically significant [24-hour urine TP (mg): 24.85±2.22, 52.57±3.66, 56.84±3.49 vs. 7.50±1.33; blood TBil (μmol/L): 37.75±2.19, 81.37±2.13, 125.13±9.96 vs. 5.53±0.41; blood DBil (μmol/L): 15.50±1.96, 37.88±1.05, 64.53±2.89 vs. 2.38±0.35; kidney MDA (μmol/g): 3.14±0.65, 5.01±0.28, 7.50±1.08 vs. 2.30±0.20; kidney SOD (kU/g): 95.91±10.43, 57.06±15.90, 37.12±11.72 vs. 113.91±12.16; kidney WT-1 protein (WT-1/GAPDH): 0.280±0.006, 0.239±0.006, 0.198±0.001 vs. 0.361±0.005; all P < 0.05]. It was shown under light microscope that uneven thickness of mesangial membrane and basement membrane of the glomerulus, and some of them were accompanied by hyperplasia and widening. The glomerular injury score increased with the increase in bilirubin dose. The differences between LB group, MB group, HB group and NC group were statistically significant (17.50±1.05, 25.00±1.41, 34.00±1.41 vs. 11.67±0.82, all P < 0.05). Transmission electron microscopy showed that with the increase of bilirubin dose, the damage of glomerular podocytes was aggravated. Conclusions:Hyperbilirubinemia induced damage to glomerulus in a dose-dependent manner. In the lethal dose range, the higher the dose, the stronger the damage, which might be related to the oxidative stress promoted by bilirubin and the damage of glomerular podocytes.

Objective To observe the alterations in functional complexity of brain regions in autism spectrum disorder(ASD)patients and correlations with the predicted brain age.Methods Open brain resting-state functional MRI(rs-MRI)data of 93 ASD patients and 96 typically developing adolescents(healthy subjects)were downloaded.The functional complexity in brain regions were extracted with self-developed virtual digital brain software,and the alterations in functional complexity of brain regions in ASD patients and correlations with their ages were analyzed.Two networks were prospectively trained with data of 65 ASD patients and 67 healthy subjects as the training set to predict brain age,and the results were evaluated,and the predicting errors were compared using test set,i.e.the other 28 ASD patients and 29 healthy subjects.Results Compared to healthy subjects,on the basis of anatomical automatic labeling(AAL)atlas,ASD patients exhibited significantly reduced functional complexity based on Shannon entropy in the left precuneus,left cuneus and right parahippocampal gyrus.Conversely,functional complexity of ASD patients based on permutation entropy significantly increased in the left cuneus and right cerebellar Crus Ⅱ region.The left hippocampus showed reduced functional complexity based on Pearson correlation coefficient,while the left middle temporal gyrus showed increased functional complexity based on Pearson correlation coefficient.The functional complexity in brain regions of ASD patients were not closely correlated with ages(all|r|＜0.4).According to the trained fully connected network,the predicted brain ages of ASD patients and healthy subjects in test set were all lower than their physiological ages,but no significant difference was found between the prediction errors of ASD patients and healthy subjects(P=0.283).Conclusion Functional complexity changed in some brain region functions in ASD patients.The predicted brain ages of ASD patients based on the obtained fully connected network were on the low side,but not obviously affected by the alterations of functional complexity in brain regions.