Pancreatic cancer remains a highly lethal malignancy owing to the difficulty of early detection. In 2021, the Chinese Consensus on Early Screening and Surveillance for Pancreatic Cancer in High-risk Individuals was first established. However, the evidence landscape has evolved rapidly, necessitating an updated, evidence-based framework tailored to the Chinese healthcare context. This revised consensus aims to standardize the early screening and surveillance process for high-risk populations in China. A multidisciplinary expert panel comprising 53 specialists from 17 provincial-level regions systematically reviewed the literature using the GRADE (Grading of Recommendations Assessment, Development and Evaluation) methodology. A modified Delphi process was employed, with consensus predefined as ≥75% agreement. The panel formulated 26 evidence-based recommendations covering screening objectives, the definition of high-risk populations (hereditary susceptibility, new-onset diabetes, chronic pancreatitis, and pancreatic cystic neoplasms), age at screening initiation, surveillance intervals, imaging modalities (magnetic resonance imaging/magnetic resonance cholangiopancreatography, endoscopic ultrasound, computed tomography), surgical indications, and lifestyle modifications. Of these recommendations, 14 are strong and 12 are weak, supported by evidence levels ranging from A to D. Implementation of this consensus in clinical practice will help improve the early diagnosis of stage I pancreatic cancer and high-grade precursor lesions, thereby advancing standardized multidisciplinary care and ultimately improving patient outcomes in China.

Hepatic myelopathy, a rare neurological complication of decompensated chronic liver disease, profoundly impairs quality of life. While liver transplantation represents the only curative treatment for hepatic myelopathy, we report a case in which progressive and severe spastic paraparesis was markedly improved following embolization of a paraspinal vein shunt.

Irinotecan is a camptothecin derivative that exerts its antitumor effects after conversion into the active metabolite 7-ethyl-10-hydroxycamptothecin (SN-38), and it is widely used for the treatment of various advanced solid tumors. However, irinotecan-induced neutropenia (IIN) remains one of its most common and clinically significant hematological toxicities, increasing the risk of infection, treatment interruption, dose reduction, and poor therapeutic outcomes. This review aims to summarize the pathogenesis, risk factors, and management strategies of IIN to provide practical guidance for its clinical prevention and standardized management. Current evidence suggests that IIN is mainly associated with SN-38-mediated topoisomerase I inhibition and mitochondrial injury in hematopoietic stem cells, leading to impaired neutrophil production. The risk of IIN is influenced by irinotecan dosage, UGT1A and transporter gene polymorphisms, baseline patient characteristics, organ function, and concomitant chemotherapy. Preventive and therapeutic strategies include genotype-guided dose adjustment, careful dose optimization, oral alkalinizing agents, granulocyte colony-stimulating factor support, and modulation of intestinal microbiota. In conclusion, IIN is a multifactorial and potentially manageable adverse reaction. Integrating pharmacogenetic testing, individualized dosing, supportive care, and emerging approaches such as microbiota-based interventions may improve the safety and continuity of irinotecan-based chemotherapy.

Liver fibrosis is a pivotal and reversible stage in the progression of chronic liver disease. However, the mechanisms underlying fibrosis reversal remain unclear, and effective diagnostic biomarkers are lacking in clinical practice. In this study, we aimed to elucidate the role and molecular mechanisms of glutathione S-transferase Mu 3 (GSTM3) in liver fibrosis reversal, and preliminarily determine whether GSTM3 can serve as a novel biomarker for liver fibrosis reversal.

Carbon tetrachloride-induced mouse models of liver fibrosis and spontaneous reversal were established. Proteomic analysis was used to identify proteins shared between liver tissue and serum that were continuously downregulated during fibrosis reversal. The expression of GSTM3 was evaluated in the livers of mice undergoing fibrosis reversal and in clinical samples from patients with liver fibrosis. Hepatic stellate cells (HSCs) were transfected with Gstm3-silencing RNA or an overexpression plasmid to assess the effects on fibrosis markers. RNA sequencing analyses were performed, and the underlying molecular mechanisms were investigated.

Proteomic analysis revealed significantly decreased GSTM3 levels in both hepatic tissue and serum in mice undergoing fibrosis reversal, and its expression was negatively correlated with the extent of reversal. GSTM3 levels were markedly increased in the hepatic tissue and serum of patients with liver fibrosis. GSTM3 expression was upregulated in transforming growth factor-β-stimulated HSCs. GSTM3 knockdown inhibited the expression of fibrosis markers, such as collagen type I α1 and tissue inhibitor of metalloproteinase 1, whereas its overexpression promoted their expression. Mechanistic studies indicated that GSTM3 knockdown activated peroxisome proliferator-activated receptor γ (PPARγ) signaling and downregulated its downstream targets, cluster of differentiation 36 and fatty acid-binding protein 4, thereby suppressing HSC activation.

GSTM3 knockdown promotes liver fibrosis reversal via PPARγ signaling-mediated inhibition of HSC activation. Therefore, GSTM3 is a promising therapeutic target and diagnostic biomarker for liver fibrosis.

The pathogenic role of MIR142 genetic abnormalities in the development of primary diffuse large B-cell lymphoma (DLBCL) of the central nervous system (CNS) is unexplored. The objective of this study was to investigate the frequency, spectrum, and functional significance of mutations in the MIR142 gene in primary CNS DLBCL.

Direct Sanger sequencing of the MIR142 gene was performed in tumor tissue from 35 patients with primary DLBCL of the CNS. In silico prediction of microRNA (miRNA)–target interactions, enrichment analysis of target gene ontologies, and prediction of the secondary structure and minimum free energy of the miRNA hairpin were performed.

The mutation frequency was 37.1% (95% confidence interval: 23.2–53.7%). The vast majority of the identified single-nucleotide variants were located outside the regions encoding mature miRNA chains. In silico analysis showed that the n.29A>G mutation located in the seed sequence of miR-142-5p resulted in a significant reduction in the number of potential targets and alterations to the interaction spectrum. All single-nucleotide variants identified in the study patients caused a change in minimum free energy and affected the shape and length of the hairpin stem of pri-miRNA. The results indicate the fragility of the pri-miR-142 hairpin.

The frequency of gene mutations in primary DLBCL of the CNS significantly exceeds that reported for systemic DLBCL.

Studies suggest that Yiguanjian (YGJ) may exert a therapeutic effect on liver fibrosis. However, the active components and molecular targets responsible for its action remain unclear. This study aimed to systematically evaluate the active ingredients and potential targets of YGJ in the treatment of liver fibrosis.

Active compounds and corresponding targets of YGJ were retrieved from the Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform (TCMSP) and the Encyclopedia of Traditional Chinese Medicine (ETCM) databases. Liver fibrosis-related datasets were obtained from the Gene Expression Omnibus (GEO) database and divided into training and validation sets. Differentially expressed genes (DEGs) from the training set were subsequently analyzed using network pharmacology, molecular dynamics simulations, and immune infiltration analysis. Three machine learning models were employed to screen for core targets, followed by Gene Set Enrichment Analysis (GSEA) and Mendelian randomization (MR) analysis. The validation set was used to assess the expression levels and diagnostic potential of core targets.

A total of 2,887 liver fibrosis-related targets and 1,198 YGJ-related targets were identified. Three hundred and three putative targets for YGJ in the treatment of liver fibrosis were identified. Three machine learning methods further narrowed these down to five core targets. Immune infiltration analysis revealed an increase in effector B cells, resting CD4+ memory T cells, γδ T cells, and M1 macrophages during liver fibrosis progression. MR analysis showed that all five core targets (FABP4, MDM2, AKR1B1, PDGFRB, and NR1H4) had odds ratios greater than 1, indicating that they function as risk factors. Expression analyses in both the training and validation sets consistently validated the MR results, demonstrating strong diagnostic potential. GSEA revealed that the core targets were enriched in key signaling pathways, including Wnt, PPAR, and MAPK. Molecular docking and molecular dynamics simulations showed that the active compounds of YGJ exhibited strong binding affinity and stability with the core targets.

YGJ exerts its potential antifibrotic effects by downregulating or antagonizing the risk-associated targets (FABP4, MDM2, AKR1B1, PDGFRB, and NR1H4). These findings provide new insights into the potential of YGJ for treating liver fibrosis, while offering a scientific reference for the prevention and treatment of chronic liver diseases.