Analysis of risk factors for postoperative thrombosis in patients with hematological diseases undergoing PICC surgery.

This study analyzes the prognostic factors of thrombosis in patients with hematological diseases after peripherally inserted central catheter (PICC) surgery. We conducted a retrospective analysis of 223 patients with hematological diseases who underwent PICC catheterization between January 2017 and June 2021. These patients were categorized into the thrombotic group and non-thrombotic group based on the occurrence of thrombosis following PICC catheterization.

Evaluation of Tumor-Infiltrating Leukocytes in Endolymphatic Sac Tumor.

Objective: Endolymphatic sac tumors (ELSTs), as rare low-grade neoplasms, are primarily treated with surgery. This study analyzes the characteristics of tumor-infiltrating leukocytes (TILs) in ELSTs and their relationships with clinical features to explore the potential for immunotherapy in ELSTs.

Methods: Clinical data and tumor specimens of 10 ELSTs patients who underwent surgery were retrieved.

Protective Effects of Hydrogen Treatment Against High Glucose-Induced Oxidative Stress and Apoptosis via Inhibition of the AGEs/RAGE/NF-κB Signaling Pathway in Skin Cells.

Background: Diabetic wounds are major clinical challenges, often complicated by oxidative stress and free radical generation. Hydrogen (H2), a selective antioxidant, offers potential as a therapeutic agent for chronic diabetic wounds. However, its precise mechanisms remain underexplored.

Improving sulforaphane content in broccoli sprouts by applying Se: transcriptome profiling and coexpression network analysis provide insights into the mechanistic response.

Sulforaphane (SF) is a sulfur (S)-containing isothiocyanate found in cruciferous vegetables and is known for its potent anticancer properties. Broccoli sprouts, in particular, are considered safe and healthy dietary choices due to their high SF content and other beneficial biological activities, such as enhanced metabolite ingestion. The application of selenium (Se) is an excellent approach to enhance the abundance of SF.

Acyl-anchored metal-organic cages with interior cryptand-like recognition sites for selective removal of radioactive strontium(II).

Tailored design of organic linkers or metal nodes can introduce desirable functionalities into metal-organic cages (MOCs), significantly expanding their potential applications. In this study, we present a viable approach for engineering acyl-type metal nodes to create interior oxygen-rich sites within MOCs, enabling specific recognition of metal ions, including radioactive contaminants, while maintaining the structural integrity of the MOCs. A novel MOC featuring a uranyl-sealed calix[4]resorcinarene (C[4]R)-based multisite cavity, referred to as UOC, is synthesized as a prototype.