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Tissue engineered cardiac patches have great potential as a therapeutic treatment for myocardial infarction (MI). However, for successful integration with the native tissue and proper function of the cells comprising the patch, it is crucial for these patches to mimic the ordered structure of the native extracellular matrix and the electroconductivity of the human heart. In this study, a new composite construct that can provide both conductive and topographical cues for human induced pluripotent stem cell derived cardiomyocytes (iCMs) is developed for cardiac tissue engineering applications. The constructs are fabricated by 3D printing conductive titanium carbide (Ti3C2Tx) MXene in pre-designed patterns on polyethylene glycol (PEG) hydrogels, using aerosol jet printing, at a cell-level resolution and then seeded with iCMs and cultured for one week with no signs of cytotoxicity. The results presented in this work illustrate the vital role of 3D-printed Ti3C2Tx MXene on aligning iCMs with a significant increase in MYH7, SERCA2, and TNNT2 expressions, and with an improved synchronous beating as well as conduction velocity. This study demonstrates that 3D printed Ti3C2Tx MXene can potentially be used to create physiologically relevant cardiac patches for the treatment of MI.As the world navigates the coronavirus disease 2019 (COVID-19) pandemic, there is a growing need to assess its impact in patients with autoimmune rheumatic diseases, such as systemic lupus erythematosus (SLE). see more Patients with SLE are a unique population when considering the risk of contracting COVID-19 and infection outcomes. The use of systemic glucocorticoids and immunosuppressants, and underlying organ damage from SLE are potential susceptibility factors. Most patients with SLE have evidence of high type I interferon activity, which may theoretically act as an antiviral line of defense or contribute to the development of a deleterious hyperinflammatory response in COVID-19. Other immunopathogenic mechanisms of SLE may overlap with those described in COVID-19, thus, studies in SLE could provide some insight into immune responses occurring in severe cases of the viral infection. We reviewed the literature to date on COVID-19 in patients with SLE and provide an in-depth review of current research in the area, including immune pathway activation, epidemiology, clinical features, outcomes, and the psychosocial impact of the pandemic in those with autoimmune disease.The prevalence of peptic ulcer diseases has decreased over the past decades. The contribution of Helicobacter pylori to these changes has not been clearly delineated. Two cohorts of patients receiving esophagogastroduodenoscopy examination together with urease test were enrolled, 1 from year 2001 (n = 1030), the other from year 2019 (n = 600). The prevalence changes of peptic ulcer diseases as well as the associated clinical factors were analyzed. An independent cohort of gastric biopsy samples (n = 151) positive for H. pylori were retrieved for ureC gene genotype analysis. Comparison between the patients recruited from 2001 and 2019 revealed significant decrease in H. pylori infection (P less then 0.001), duodenal ulcer prevalence (P less then 0.001) and gastric ulcer prevalence (P less then 0.001). Multivariate analysis showed that the decreases of these factors were independent (adjusted P less then 0.001 for all). Intriguingly, in H. pylori positive patients, the prevalence of duodenal ulcer still decreased with year (P less then 0.001), which was not found in gastric ulcer (P = 0.345). Genetic analysis of H. pylori urease gene showed that MboI-restriction fragment length polymorphism-defined genotype 3 UreC was significantly more prevalent in gastric ulcer patients than in others (P = 0.022). Independent decreases of H. pylori infection, gastric ulcer and duodenal ulcer over decades were found. In H. pylori positive patients, duodenal ulcer prevalence decreased overtime while gastric ulcer prevalence remained unchanged. Gastric ulcer/cancer had a higher prevalence of MboI-defined genotype 3 UreC gene.Chronic hepatitis C virus infection is characterized by multiple extra-hepatic manifestations. Innate immune dysfunction and hemolysis are symptoms which might be associated with each other. We investigated the impact of direct acting antivirals on neutrophil function and its connection to hemolysis. In this prospective study, 85 patients with or without cirrhosis and 21 healthy controls were included. Patients' blood samples were taken at baseline, at the end of therapy and at follow-up 12 weeks after end of therapy. Neutrophil phagocytosis, oxidative burst, and hemolysis parameters were studied. Multivariate analysis was performed to decipher the relationship between hemolysis and neutrophil function. Ex vivo cross-incubation experiments with neutrophils and serum fractions were done. Impaired neutrophil phagocytosis and mild hemolysis were observed in patients with and without cirrhosis. A proteome approach revealed different expression of hemolysis-related serum proteins in patients and controls. Direct acting antiviral therapy restored neutrophil function irrespective of severity of liver disease, achievement of sustained virologic response or type of drug and reduced hemolysis. Treatment with ribavirin delayed the improvement of neutrophil function. Statistical analysis revealed associations of haptoglobin with neutrophil phagocytic capacity. Neutrophil dysfunction could be transferred to healthy cells by incubation with patients' serum fractions (>30 kDa) ex vivo. Neutrophil dysfunction and hemolysis represent extrahepatic manifestations of chronic hepatitis C virus infection and simultaneously improve during direct acting antiviral therapy independently of therapy-related liver function recovery. Therefore, large-scale treatment would not only drive viral eradication but also improve patients' immune system and may reduce susceptibility to infections.

The study aimed to understand the molecular mechanisms that might lead to differences in the glucocorticoid response during sepsis.

Patients diagnosed with sepsis (n=198) and 40 healthy controls were enrolled. Glucocorticoid receptor (GR) expression in circulating leukocytes and plasma levels of adrenocorticotropic hormone and cortisol on days 1 and 7 were measured in all participants. Expression profiling of 16 genes associated with GR expression in peripheral blood mononuclear cells (PBMCs) in 12 healthy controls and 26 patients with sepsis was performed by PCR.

Cortisol levels were higher in patients with sepsis than in healthy controls on day 1 after admission and recovered to normal levels by day 7. GR expression was gradually downregulated in leukocyte subsets. Non-survivors showed lower GR and higher cortisol levels than survivors. GRα expression was lower in patients with sepsis than in controls, whereas GRβ showed the opposite trend. MicroRNAs related to GR resistance and suppression were altered in PBMCs during sepsis.

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