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1 K). Ipilimumab clinical trial The obtained results can be useful for the design of novel contactless luminescence thermometers.Wettability-defined liquid infiltration into porous materials in nature and several industrial applications is of fundamental interest. Direct observation of wetting-controlled imbibition in mesopores is anticipated to deliver important insights into the interplay between nanoconfined liquid movement and nanoscale wettability. We present a systematic study of water imbibition into mesoporous silica thin films with wetting properties precisely adjusted through chemical functionalization. We observe the liquid infiltration, resulting in an imbibition ring around the water droplet, by top-view imaging using a camera with collimated coaxial illumination. With decreasing hydrophilicity, the maximum imbibition area around the droplet decreases, accompanied by a simultaneous change in the imbibition kinetics and imbibition mechanism. Initially, the imbibition kinetics follow a modified Lucas-Washburn law that considers a strong influence of evaporation. However, with increasing imbibition time after reaching constant imbibition ring dimensions, the imbibition area starts to increase again, causing a deviation from the applied model. This observation is ascribed to water-mediated surface activation at the imbibition front, leading to a slightly increased wettability, which is also confirmed by water adsorption measurements. Furthermore, recently described spontaneous condensation-evaporation imbalances that cause oscillations of the imbibition front could be verified and were studied with regard to changing wetting properties. By increasing the contact angle of the material and therefore the partial pressure needed for capillary condensation, the amplitude of the imbibition front oscillations decreases. These results provide insights into the wettability-defined complex movement of water in mesoporous structures, which has practical implications, e.g., for nano/microfluidic devices and water purification or harvesting.

The aim of this study was to investigate the therapeutic effect of oleanolic acid (OA) on the renal ischemia reperfusion injury (RIRI) and the possible mechanism.

The RIRI model was successfully established in rats. OA, LY294002 (a PI3K inhibitor), and OA combined with LY294002 were dosed to rats in 3 therapeutic groups, respectively. The blood was collected to detect the concentration of Cr and BUN by ELISA. The kidney of each rat was collected to detect the concentration of renal injury factor (Kim-1) and the HE staining was performed. Western blot was used to detect the expression level of PI3K, p-AKT, AKT, PDK1, Skp2, and p27 in the renal tissue homogenate.

The symptom of vacuolar degeneration and interstitial edema was greatly improved in the rat kidney from the 3 therapeutic groups, compared with that from the RIRI model group. No significant difference was observed among the 3 therapeutic groups. The concentration of Cr in the 3 therapeutic groups was greatly lower than that in the RIRI model group. The expression level of p-AKT/AKT, PI3K, PDK1, Skp2, and p27 in OA group, LY294002 group, and OA combined with LY294002 group was significantly lower than that in the RIRI model group, respectively.

OA could improve the symptom of RIRI, possibly by inhibiting PI3K/AKT signal pathway.

OA could improve the symptom of RIRI, possibly by inhibiting PI3K/AKT signal pathway.By April 26, 2020, infections related to coronavirus disease 2019 (COVID-19) affected people from 210 countries and caused 203,818 reported deaths worldwide. A few studies discussed the outcome of COVID-19 in kidney transplant recipients. This short series demonstrates our experience in managing COVID-19 disease in renal transplant patients in the absence of strong evidence. We report 8 cases of kidney transplant recipients infected with COVID-19 (median age = 48.5 years; range = 21-71 years), including 4 males and 4 females. The most frequently associated comorbidity was hypertension. The most common presenting features were fever and cough. The main radiological investigation was a portable chest X-ray. Other common features included lymphopenia, high C-reactive protein, and a very high ferritin level. Overall, 1 patient was managed as an outpatient, the remaining 7 required hospital admission, 1 of them referred to the intensive therapy unit. Management included supportive treatment (intravenous fluid therapy, monitoring renal function, and symptomatic treatment with or without ward-based oxygen therapy depending on oxygen saturation) and discontinuation of the antiproliferative immunosuppressive drugs. Seven patients recovered and discharged home to self-isolate. One patient required intensive care treatment and mechanical ventilation. Supportive treatment could be sufficient for the management or to be tried first. We also found that short hospital stay with self-isolation on discharge reduces the burden on the health service and protect the staff and the public.

Repeated traumatic events result in long-lasting neuropsychiatric ailments, including neuroendocrine imbalances. Neuropeptide Y (NPY) in the arcuate nucleus (Arc) is an important orexigenic peptide. However, the molecular underpinnings of its dysregulation owing to traumatic brain injury remain unknown.

Rats were subjected to repeated mild traumatic brain injury (rMTBI) using the closed-head weight drop model. Feeding behaviour and the regulatory epigenetic parameters of NPY expression were measured at 48 hrs and 30 days post rMTBI. Further, sodium butyrate, a pan-HDAC inhibitor, was administered to examine whether histone deacetylation is involved in NPY expression post rMTBI.

The rMTBI attenuated food intake, which was coincident with a decrease in NPY mRNA and protein levels in the Arc post rMTBI. Further, rMTBI also reduced the mRNA levels of the cAMP response element-binding protein (CREB) and CREB-binding protein (CBP) and altered the mRNA levels of the various isoforms of the histone deacetylases (HDACs). Concurrently, the acetylated H3-K9 levels and the binding of CBP at the NPY promoter in the Arc of the rMTBI-exposed rats were reduced. However, the treatment with sodium butyrate corrected the rMTBI-induced deficits in the H3-K9 acetylation levels and CBP occupancy at the NPY promoter, restoring both the NPY expression and the food intake.

These findings suggest that histone deacetylation at the NPY promoter persistently controls NPY function in the Arc after rMTBI. This study also demonstrates the efficacy of HDAC inhibitors in mitigating trauma-induced neuroendocrine maladaptations in the hypothalamus.

These findings suggest that histone deacetylation at the NPY promoter persistently controls NPY function in the Arc after rMTBI. This study also demonstrates the efficacy of HDAC inhibitors in mitigating trauma-induced neuroendocrine maladaptations in the hypothalamus.