Contributions of individual qSOFA elements to assessment of severity and for prediction of mortality.

BACKGROUND: The quick sequential [sepsis-related] organ failure assessment (qSOFA) acts as a prompt to consider possible sepsis. The contributions of individual qSOFA elements to assessment of severity and for prediction of mortality remain unknown. METHODS: A total of 3974 patients with community-acquired pneumonia were recruited to an observational prospective cohort study. The area under the receiver operating characteristic curve (AUROC), odds ratio, relative risk and Youden's index were employed to assess discrimination. RESULTS: Respiratory rate ≥22/min demonstrated the most superior diagnostic value, indicated by largest odds ratio, relative risk and AUROC, and maximum Youden's index for mortality. However, the indices for altered mentation and systolic blood pressure (SBP) ≤100 mm Hg decreased notably in turn. The predictive validities of respiratory rate ≥22/min, altered mentation and SBP ≤100 mm Hg were good, adequate and poor for mortality, indicated by AUROC (0.837, 0.734 and 0.671, respectively). Respiratory rate ≥22/min showed the strongest associations with SOFA scores, pneumonia severity index, hospital length of stay and costs. However, SBP ≤100 mm Hg was most weakly correlated with the indices. CONCLUSIONS: Respiratory rate ≥22/min made the greatest contribution to parsimonious qSOFA to assess severity and predict mortality. However, the contributions of altered mentation and SBP ≤100 mm Hg decreased strikingly in turn. It is the first known prospective evidence of the contributions of individual qSOFA elements to assessment of severity and for prediction of mortality, which might have implications for more accurate clinical triage decisions.

Respiratory rate ≥22/min demonstrated the most superior diagnostic value.Respiratory rate ≥22/min showed the strongest association with severity.Respiratory rate ≥22/min, altered mentation and SBP ≤100 mm Hg predicted mortality well, adequately and poorly, respectively.

Single-cell exome sequencing reveals polyclonal seeding and TRPS1 mutations in colon cancer metastasis.

Liver metastasis remains the primary cause of mortality in patients with colon cancer. Identifying specific driver gene mutations that contribute to metastasis may offer viable therapeutic targets. To explore clonal evolution and genetic heterogeneity within the metastasis, we conducted single-cell exome sequencing on 150 single cells isolated from the primary tumor, liver metastasis, and lymphatic metastasis from a stage IV colon cancer patient. The genetic landscape of the tumor samples revealed that both lymphatic and liver metastases originated from the same region of the primary tumor. Notably, the liver metastasis was derived directly from the primary tumor, bypassing the lymph nodes. Comparative analysis of the sequencing data for individual cell pairs within different tumors demonstrated that the genetic heterogeneity of both liver and lymphatic metastases was also greater than that of the primary tumor. This finding indicates that liver and lymphatic metastases arose from clusters of circulating tumor cell (CTC) of a polyclonal origin, rather than from a single cell from the primary tumor. Single-cell transcriptome analysis suggested that higher EMT score and CNV scores were associated with more polyclonal metastasis. Additionally, a mutation in the TRPS1 (Transcriptional repressor GATA binding 1) gene, TRPS1 R544Q, was enriched in the single cells from the liver metastasis. The mutation significantly increased CRC invasion and migration both in vitro and in vivo through the TRPS1R544Q/ZEB1 axis. Further TRPS1 mutations were detected in additional colon cancer cases, correlating with advanced-stage disease and inferior prognosis. These results reveal polyclonal seeding and TRPS1 mutation as potential mechanisms driving the development of liver metastases in colon cancer.

Gastrodin alleviates diabetic peripheral neuropathy by regulating energy homeostasis via activating AMPK and inhibiting MMP9.

BACKGROUND: Diabetic peripheral neuropathy (DPN) is a serious complication of diabetes that lacks effective treatment. Gastrodin, the primary bioactive compound derived from Rhizoma Gastrodiae, has a long history in treating epilepsy and various central nervous system disorders. However, its effect on DPN remains uncertain. PURPOSE: This study aims to explore the therapeutic potential and underlying mechanisms of gastrodin in the treatment of DPN. METHOD: DPN model rats were induced with streptozotocin (STZ) injection and divided into four groups receiving either gastrodin at two doses (30 and 60 mg kg-1 per day), α-lipoic acid (positive drug, 60 mg kg-1 per day), or placebo. Healthy rats were administrated with placebo. The administrations began eight weeks post-STZ injection and continued for six weeks. Following a comprehensive evaluation of the neuroprotective effects, a systematic pharmacology-based approach was subsequently employed to investigate the underlying mechanism of gastrodin in vivo and in vitro. RESULTS: Gastrodin was demonstrated to effectively enhance peripheral nerve function and reduce pathological damages in DPN rats. Furthermore, gastrodin facilitated the expression of remyelination-related proteins and mitigated oxidative stress in DPN rats. Transcriptomic analysis indicated that the modulation of energy metabolism was pivotal in the neuroprotective effect of gastrodin, corroborated by targeted metabolomic analysis using high-performance ion chromatography coupled with mass spectrometry. Using network pharmacology analysis, 12 potential targets of gastrodin were identified. Among these, matrix metallopeptidase 9 (MMP9) was further validated as the primary target through molecular docking and cellular thermal shift assays. Functional Analysis of the potential targets underscored the pivotal role of AMPK signaling, and gastrodin demonstrated the capability to activate AMPK and inhibit MMP9 in vivo. In vitro studies further found that gastrodin enhanced antioxidant capacity and mitochondrial function of high glucose-cultured rat Schwann cells RSC96 in an AMPK-dependent manner. Inhibition of AMPK hindered the decrease of MMP9 induced by gastrodin in vitro. CONCLUSION: This study revealed the new role of gastrodin in alleviating DPN by restoring the homeostasis of energy metabolism through activating AMPK and inhibiting MMP9. These findings highlight gastrodin's potential as a novel therapeutic candidate against DPN, and underscores an appealing strategy of regulating energy metabolism for DPN therapy.

Tea's Characteristic Components Eliminate Acrylamide in the Maillard Model System.

This study investigated the effects of various characteristic components of tea-theaflavins, catechins, thearubigins, theasinensins, theanine, catechin (C), catechin gallate (CG), epicatechin (EC), epicatechin gallate (ECG), epigallocatechin (EGC), epigallocatechin gallate (EGCG), gallocatechin (GC), and gallocatechin gallate (GCG)-on acrylamide formation. The results revealed that most of tea's characteristic components could significantly eliminate acrylamide, ranked from highest to lowest as follows: GC (55.73%) > EC (46.31%) > theaflavins (44.91%) > CG (40.73%) > thearubigins (37.36%) > ECG (37.03%) > EGCG (27.37%) > theabrownine (22.54%) > GCG (16.21%) > catechins (10.14%) > C (7.48%). Synergistic elimination effects were observed with thearubigins + EC + GC + CG, thearubigins + EC + CG, thearubigins + EC + GC, theaflavins + GC + CG, and thearubigins + theaflavins, with the reduction rates being 73.99%, 72.67%, 67.62%, 71.03%, and 65.74%, respectively. Tea's components reduced the numbers of persistent free radicals to prevent acrylamide formation in the model system. The results provide a theoretical basis for the development of low-acrylamide foods and the application of tea resources in the food industry.

Apple polyphenols prevent patulin-induced intestinal damage by modulating the gut microbiota and metabolism of the gut-liver axis.

Patulin (PAT), a foodborne toxin, causes severe intestinal damage. To mitigate this health threat, mice were pretreated with apple polyphenols (AP) in their drinking water (0.01 % and 0.05 %) for eight weeks, followed by exposure to PAT during the last two weeks. Subsequently, histopathological and biochemical evaluations of intestinal tissues were conducted, alongside assessments of alterations in gut microbiota, colonic content metabolome, and hepatic metabolome. Consequently, AP alleviated PAT-induced villus and crypt injury, mucus depletion, GSH level decline, GSH-Px and SOD activity reduction, and MPO activity elevation. Notably, AP counteracted PAT-mediated microbiota disruptions and promoted the abundance of beneficial bacteria (Dubosiella, Akkermansia, Lachnospiraceae, and Lactobacillus). Furthermore, AP counteracted PAT-induced metabolic disorders in the colonic contents and liver. Ultimately, AP prevented intestinal injury by regulating the gut microbiota and amino acid, purine, butanoate, and glycerophospholipid metabolism in the gut-liver axis. These results underscore the potential of AP to prevent foodborne toxin-induced intestinal damage.

Critical Suitability Evaluation of Caco-2 Cells for Gut-on-a-Chip.

Currently, culturing Caco-2 cells in a Gut-on-a-chip (GOC) is well-accepted for developing intestinal disease models and drug screening. However, Caco-2 cells were found to overexpress surface proteins (e.g., P-gp) compared with the normal intestinal epithelial cells in vivo. To critically evaluate the challenge and suitability of Caco-2 cells, a GOC integrated with a carcinoembryonic antigen (CEA) biosensor was developed. This three-electrode system electrochemical sensor detects CEA by antigen-antibody specific binding, and it exhibits high selectivity, excellent stability, and good reproducibility. Under dynamic culturing in the GOC, Caco-2 cells exhibited an intestinal villus-like structure and maintained tissue barrier integrity. Meanwhile, CEA was discovered to be secreted from 0 to 0.22 ng/mL during the 10-day culturing of Caco-2 cells. Especially, CEA secretion increased significantly with the differentiation of Caco-2 cells after 6 days of culturing. The sustained high-level CEA secretion may induce cells to avoid apoptotic stimuli, which faithfully reflects the efficacy of a new drug and the mechanism of intestinal disease. Different kinds of cell types (e.g., intestinal primary cells, stem cell-induced differentiation) in the GOC should be attempted for drug screening in the future.

Water-soluble and predictable-release triptolide prodrugs block bleomycin-induced pulmonary fibrosis in mice.

Idiopathic pulmonary fibrosis (IPF) is a progressive respiratory disease with no known cause. It is characterized by widespread inflammation and structural abnormalities in the alveoli of the lungs, ultimately leading to the development of pulmonary fibrosis. Triptolide (TP), an epoxy-diterpene lactone compound known for its potent anti-inflammatory and antifibrotic effects, was limited clinical use due to poor water solubility and side effects. Two soluble TP prodrugs (PG490-88 and Minnelide) have entered clinical research. However, their activities are based on enzyme metabolism, which is influenced by species-specific differences. In this study, we present water-soluble TP derivatives synthesized by introducing ethylenediamine carbamate groups (TP-DEAs) at the 14-hydroxy position. The introduced groups were found to spontaneously convert into the parent drug through enzyme-independent metabolic conversion. The water solubility and stability of the compounds were examined in vitro. Notably, TP-DEA2 exhibited high water solubility (30.8 mg/mL), exceeding TP solubility by more than 1181-fold. In vitro, TP-DEA2 converted to TP autonomously without the involvement of enzymes. In addition, TP-DEA2 can inhibit the expression of a disintegrin and metalloproteinase 10 (ADAM 10) induced by TGF-ß1 and reduce the secretion of a-SMA in fibroblasts. In vivo, TP-DEA2 transformed into TP, effectively inhibiting fibrosis in the bleomycin group without observed toxicity. Importantly, positive outcomes when administering TP-DEA2 at a later stage post-bleomycin exposure suggest its potential role in treating IPF.

TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival.

DNA repair and autophagy are distinct biological processes vital for cell survival. Although autophagy helps maintain genome stability, there is no evidence of its direct role in the repair of DNA lesions. We discovered that lysosomes process topoisomerase 1 cleavage complexes (TOP1cc) DNA lesions in vertebrates. Selective degradation of TOP1cc by autophagy directs DNA damage repair and cell survival at clinically relevant doses of topoisomerase 1 inhibitors. TOP1cc are exported from the nucleus to lysosomes through a transient alteration of the nuclear envelope and independent of the proteasome. Mechanistically, the autophagy receptor TEX264 acts as a TOP1cc sensor at DNA replication forks, triggering TOP1cc processing by the p97 ATPase and mediating the delivery of TOP1cc to lysosomes in an MRE11-nuclease- and ATR-kinase-dependent manner. We found an evolutionarily conserved role for selective autophagy in DNA repair that enables cell survival, protects genome stability, and is clinically relevant for colorectal cancer patients.

Three-Year Outcomes, Risk Factors for Restenosis After Stenting for DVT Combined with Iliac Vein Compression Syndrome.

This study aimed to evaluate the safety and efficacy of pharmacomechanical catheter-directed thrombolysis (PCDT) and stenting for treating acute iliofemoral deep venous thrombosis (DVT) combined with iliac vein compression syndrome (IVCS), and to identify the predictors of stent restenosis. Patients with acute proximal DVT combined with IVCS underwent PCDT and stenting from January 2017 to December 2022 were enrolled. Primary and secondary patency were assessed by duplex ultrasound (DUS). The morbidity of postthrombotic syndrome (PTS) was assessed by the Villalta score. Risk factors for stent restenosis were assessed using univariate and multivariate Cox regression models. Total of 254 patients were included. The mean follow-up time was 36.06 ± 17.66 months. The primary patency rates at 1 year, 3 years, and 5 years were 92.5%±1.7%, 85.4%±2.4%, and 82.4%±2.9%, respectively. The incidence of stent restenosis was 14.2%. Discontinuation of anticoagulants within one year [hazard ratio (HR) = 5.03; P = .048] was the factor associated with acute in-stent thrombosis. Previous DVT history (HR =2.29; P = .037) and stent placement across the inguinal ligament (HR =6.70; P < .001) were identified as independent risk factors significantly associated with stent restenosis. The overall PTS rate was 19.3%. PCDT with stenting is safe and effective for patients with iliofemoral DVT secondary to IVCS, leading to low rates of PTS. Previous DVT history and stents placed across the inguinal ligament may be predictors of stent restenosis. Furthermore, stent restenosis typically occurs within one year and is mainly caused by acute thrombosis due to discontinuation of anticoagulants.

Near Stochiometric LiNbO3 Crystal: the Piezoelectric Features and the Shear Horizontal Guided Wave Transducer for Structural Health Monitoring up to 650 °C.

The application of shear horizontal (SH) guided wave transducers in high-temperature structural health monitoring (SHM) is a topic of significant interest across various industrial engineering sectors. In this study, we utilized the novelty piezoelectric crystal of near stoichiometric lithium niobate (NSLN), which exhibited a robust piezoelectric response (d15 = 77.6 pC/N@room temperature). Next, the pure thickness shear vibration mode d15' through size optimization was designed. It was demonstrated that the NSLN-based ultrasonic guided wave transducers utilizing the optimum d15' mode were proficient in transmitting and receiving pure fundamental SH wave (SH0 wave) along two orthogonal main directions (0° and 90°) over a wide frequency range (100-350 kHz), exhibiting strong response to the SH0 wave. Under the driving voltage of 100 V, the signal voltages of the NSLN-based transducer were found to be on the order of 200.3 and 11.8 mV at room temperature and high temperature of 650 °C, respectively. Moreover, the NSLN-based SH0 transducer showcased its better defect localization ability, and the signal-to-noise ratio (SNR) sensitivity of NSLN-based transducer was evaluated to be 16.1 dB at high temperature of 650 °C. To sum up, the ultrasonic wave transducer based on NSLN crystal demonstrated higher potential applications for in situ SHM under elevated temperatures.

Unlocking the potential of methionine: a dietary supplement for preventing colitis.

The incidence rate of colitis and conversion of colitis into colorectal cancer is increasing. However, the results of drug treatments are inconsistent with variable side effects; therefore, it is necessary to find alternative ways of treating colitis, e.g. through dietary supplements. One such dietary supplement could be sulfur-containing amino acids, which are known to have anti-inflammatory, antioxidant, and gut microbiota homeostasis effects. Therefore, the aim of the present study was to explore the effect of methionine supplementation in the diet of mice on experimental dextran sulfate sodium (DSS)-induced colitis. Here, 24 male C57BL/6J mice were split into three experimental treatment groups in such a way that each treatment group had four replicates and each replicate had two mice. The control group was colitis-free, while colitis was induced by the administration of DSS in the DSS groups. In the DSS and DSS plus methionine (DSS + Met) groups, DSS was provided in drinking water containing 3% DSS on days 1-5 and later provided with purified water on days 6-7. It was found that supplementing with methionine could activate pathways like Nrf2, and inhibit pathways like TLR4 and Nlrp3 to realize anti-inflammatory and antioxidant effects. Moreover, methionine could alter the microbiota of the gut in the experimental mice, whereby exploration of the gut microbiota demonstrated that methionine supplementation in the diet increased the abundance of parabacteroides and the production of propionate and butyrate. The current study shows that the dietary prophylactic supplementation of methionine has a beneficial effect on resisting colitis, providing new insights for the prevention of colitis.

["Curriculum-project-supervisor" interactively enhance the innovation capability of postgraduates majoring in bioengineering].

According to the Bio-economy Development Plan during the 14th Five-Year Plan period, biotechnology has become an effective force to promote future development. More than 220 universities and research institutes in China have got the right to confer master's degrees in bioengineering. Great attention has been paid to the cultivation of top innovative talents that can serve the innovation-driven development of the national bio-economy. In the last 15 years, the Research Center of Microbial-Manufacturing Engineering in Jiangnan University has built a diversified education platform, recruited high-level faculty members, and innovated the scientific research management. The new concept and method for cultivating the innovation capabilities of postgraduates in a multi-dimension and whole-process manner have been formed, which involved building a curriculum, focusing on major projects, and establishing a supervisor team. This cultivation mode has comprehensively improved the engineering and academic innovation capabilities of postgraduates majoring in bioengineering.

[Zhuyu Pills regulate p53/SLC7A11 signaling pathway-mediated oxidative damage and ferroptosis to treat atherosclerosis].

This article aims to investigate the effect of Zhuyu Pills on atherosclerosis(AS) and decipher the underlying mechanism. The mouse model of AS was established by feeding with a high-fat diet for 12 weeks. The 50 successfully modeled mice with the apolipoprotein E knockout(ApoE~(-/-)) were assigned by the random number table method into 5 groups(n=10): model, low-, medium-, and high-dose(130.54, 261.08, 522.16 mg·kg~(-1), respectively) Zhuyu Pills, and atorvastatin calcium(10.40 mg·kg~(-1)). Ten C57BL/6J mice were selected as the blank group. The blank group and model group were administrated with an equal volume of normal saline, and other groups were administrated with corresponding drugs once a day for 12 weeks. At the end of drug intervention, hematoxylin-eosin(HE) staining was employed to observe the pathological changes of fat in the aorta, liver, and epididymis of mice, and the proportion of aortic plaque area, fat area in epididymis, and nonalcoholic fatty liver disease activity score(NAS) were calculated. Lipid and collagen deposition in the aorta was observed by oil red O staining and Masson staining, respectively, and the proportions of lipid and collagen deposition areas were calculated. The serum levels of superoxide dismutase(SOD), malondialdehyde(MDA), glutathione peroxidase(GSH-Px), and iron ion were measured by colorimetry. The expression of cyclooxygenase 2(COX2), ferritin heavy chain 1(FTH1), cystine/glutamate reverse transporter solute carrier family 7 member 11(SLC7A11), and glutathione peroxidase 4(GPX4) in the aorta was detected by the immunofluorescence assay. The level of tumor protein 53(p53) in the aorta was detected by immunohistochemistry. The protein levels of p53 and SLC7A11 in the aorta were determined by Western blot. The mRNA levels of p53, SLC7A11, GPX4, FTH1, prostaglandin G/H synthase 2(PTGS2), and reduced nicotinamide adenine dinucleotide phosphate oxidase 1(NOX1) in mouse aorta were determined by real-time PCR. The results showed that compared with the blank group, the model group showcased enlarged aortic plaque area, increased collagen fiber deposition, liver lipid deposition, and lipid droplets, and enlarged epididymal adipocytes. In addition, the modeling elevated the levels of iron ion and MDA and lowered the levels of SOD and GSH-Px in the serum, promoted the expression of p53 and COX2, down-regulated the protein and mRNA levels of FTH1, SLC7A11, and GPX4, and up-regulated the mRNA levels of PTGS2 and NOX1 in the aorta. Compared with the model group, low-, medium-, and high-dose Zhuyu Pills and atorvastatin calcium reduced the aortic plaque area, collagen deposition, liver lipid deposition, lipid droplets, and epididymal adipocyte volume, lowered the levels of iron ion and MDA and elevated the levels of SOD and GSH-Px in the serum, inhibited the expression of p53 and COX2, up-regulated the protein and mRNA levels of FTH1, SLC7A11, and GPX4, and down-regulated the mRNA levels of PTGS2 and NOX1 in the aorta. In conclusion, Zhuyu Pills exert definite therapeutic effect on aortic plaque in AS mice by regulating the p53/SLC7A11 signaling pathway to alleviate oxidative damage and inhibit ferroptosis.

Realization of Joints of Aluminosilicate Glass and 6061 Aluminum Alloy via Picosecond Laser Welding without Optical Contact.

To achieve laser direct welding of glass and metal without optical contact is hard, owing to the large difference in thermal expansion and thermal conductivity between glass and metal and an insignificant melting area. In this study, the high-power picosecond pulsed laser was selected to successfully weld the aluminosilicate glass/6061 aluminum alloy with a gap of 35 ± 5 µm between glass and metal. The results show that the molten glass and metal diffuse and mix at the interface. No defects such as microcracks or holes are observed in the diffusion mixing zone. Due to the relatively large gap, the glass collapsed after melting and caulking, resulting in an approximately arc-shaped microcrack between modified glass and unmodified glass or weakly modified glass. The shape of the glass modification zone and thermal accumulation are influenced by the single-pulse energy and linear energy density of the picosecond laser during welding, resulting in variations in the number and size of defects and the shape of the glass modification zone. By reasonably tuning the two factors, the shear strength of the joint reaches 15.98 MPa. The diffusion and mixing at the interface and the mechanical interlocking effect of the glass modification zone are the main reasons for achieving a high shear strength of the joint. This study will provide reference and new ideas for the laser transmission welding of glass and metal in the non-optical contact conditions.

Chlomito: a novel tool for precise elimination of organelle genome contamination from nuclear genome assembly.

Introduction: Accurate reference genomes are fundamental to understanding biological evolution, biodiversity, hereditary phenomena and diseases. However, many assembled nuclear chromosomes are often contaminated by organelle genomes, which will mislead bioinformatic analysis, and genomic and transcriptomic data interpretation. Methods: To address this issue, we developed a tool named Chlomito, aiming at precise identification and elimination of organelle genome contamination from nuclear genome assembly. Compared to conventional approaches, Chlomito utilized new metrics, alignment length coverage ratio (ALCR) and sequencing depth ratio (SDR), thereby effectively distinguishing true organelle genome sequences from those transferred into nuclear genomes via horizontal gene transfer (HGT). Results: The accuracy of Chlomito was tested using sequencing data from Plum, Mango and Arabidopsis. The results confirmed that Chlomito can accurately detect contigs originating from the organelle genomes, and the identified contigs covered most regions of the organelle reference genomes, demonstrating efficiency and precision of Chlomito. Considering user convenience, we further packaged this method into a Docker image, simplified the data processing workflow. Discussion: Overall, Chlomito provides an efficient, accurate and convenient method for identifying and removing contigs derived from organelle genomes in genomic assembly data, contributing to the improvement of genome assembly quality.

Ouabain-mediated downregulation of ALKBH5 and IGF2BP2 inhibits the malignant progression of DLBCL.

m6A modification is a crucial epigenetic regulatory mechanism in diffuse large B-cell lymphoma (DLBCL). Low-dose cardiotonic drugs have been shown to induce apoptosis in DLBCL cells through epigenetic modulation. However, the involvement of the cardiotonic drug ouabain in the malignant progression of DLBCL remains unclear. Our study revealed that ouabain indeed contributes to the malignant progression of DLBCL through m6A modification. Through qPCR analysis, we observed a negative correlation between ouabain concentration and the expression levels of the demethylase ALKBH5 and the m6A-binding protein IGF2BP2 in DLBCL cells. Furthermore, high expression levels of ALKBH5 and IGF2BP2 were identified in both the GEO database and DLBCL patient tissue samples. Notably, elevated ALKBH5 and IGF2BP2 promoted cell proliferation both in vitro and in vivo. Inhibition of their expression rendered DLBCL cells more sensitive to ouabain treatment, resulting in significant suppression of cell proliferation, G1/S phase cell cycle arrest, and increased apoptosis. In summary, our results clarify that the demethylase ALKBH5 and the m6A-binding protein IGF2BP2 are involved in the malignant progression of DLBCL, and that the cardiotonic drug ouabain can inhibit the proliferation of DLBCL cells by inhibiting the expression of ALKBH5 and IGF2BP2, which provides new insights into the targeted treatment of DLBCL.

Classification of musical hallucinations and the characters along with neural-molecular mechanisms of musical hallucinations associated with psychiatric disorders.

BACKGROUND: Musical hallucinations (MH) involve the false perception of music in the absence of external stimuli which links with different etiologies. The pathomechanisms of MH encompass various conditions. The etiological classification of MH is of particular importance and offers valuable insights to understand MH, and further to develop the effective treatment of MH. Over the recent decades, more MH cases have been reported, revealing newly identified medical and psychiatric causes of MH. Functional imaging studies reveal that MH activates a wide array of brain regions. An up-to-date analysis on MH, especially on MH comorbid psychiatric conditions is warranted. AIM: To propose a new classification of MH; to study the age and gender differences of MH in mental disorders; and neuropathology of MH. METHODS: Literatures searches were conducted using keywords such as "music hallucination," "music hallucination and mental illness," "music hallucination and gender difference," and "music hallucination and psychiatric disease" in the databases of PubMed, Google Scholar, and Web of Science. MH cases were collected and categorized based on their etiologies. The t-test and ANOVA were employed (P < 0.05) to compare the age differences of MH different etiological groups. Function neuroimaging studies of neural networks regulating MH and their possible molecular mechanisms were discussed. RESULTS: Among the 357 yielded publications, 294 MH cases were collected. The average age of MH cases was 67.9 years, with a predominance of females (66.8% females vs 33.2% males). MH was classified into eight groups based on their etiological mechanisms. Statistical analysis of MH cases indicates varying associations with psychiatric diagnoses. CONCLUSION: We carried out a more comprehensive review of MH studies. For the first time according to our knowledge, we demonstrated the psychiatric conditions linked and/or associated with MH from statistical, biological and molecular point of view.

Prognostic Value of CD14 Expression in Peripheral Blood Mononuclear Cell Membrane in Patients with Severe COPD Complicated with Pulmonary Infection.

Background: Severe chronic obstructive pulmonary disease (COPD) patients with pulmonary infections face higher morbidity and mortality. Objective: To investigate mononuclear cell membrane CD14 as a prognostic marker for their outcome. Methods: A total of 311 participants were included: 122 in the coinfection group, 127 in the severe COPD group, and 62 in the control group. The patients in the coinfection group were categorized into survival (n=106) and death (n=16) groups based on hospitalization prognosis. The CD14%, CD14MFI, and CD14IND values were compared between the groups. Death risk factors were assessed by COPD grading, FEV1% pred, FEV1/FVC, CD14%, CD14MFI, and CD14IND. Correlations between CD14 parameters and mortality, COPD grade, FEV1%pred, and FEV1/FVC were analyzed. The critical value for CD14IND to predict patient death was determined and survival rates were compared between the high and the low-risk groups. Results: CD14% values were significantly lower in the COPD and co-infection groups than in the control groups (p<0.05). The survival group showed a steady increase in mCD14 expression, while the death group showed fluctuating low levels. Low value of CD14% was identified as a risk factor for death and correlated with mortality and COPD severity (p<0.001). CD14IND≤74.36 predicted death with 91.22% sensitivity and 95.51% specificity. The high-risk group had a significantly lower 30-day survival rate (68.42%) compared with the low-risk group (95.24%) (log-rank χ2=10.067, p=0.002). Conclusion: The CD14 parameters of mononuclear cell membranes prove to be promising markers for predicting prognosis and death in severe COPD patients with lung infection.

Synthesis of C-N bonds by nicotinamide-dependent oxidoreductase: an overview.

Compounds containing chiral C-N bonds play a vital role in the composition of biologically active natural products and small pharmaceutical molecules. Therefore, the development of efficient and convenient methods for synthesizing compounds containing chiral C-N bonds is a crucial area of research. Nicotinamide-dependent oxidoreductases (NDOs) emerge as promising biocatalysts for asymmetric synthesis of chiral C-N bonds due to their mild reaction conditions, exceptional stereoselectivity, high atom economy, and environmentally friendly nature. This review aims to present the structural characteristics and catalytic mechanisms of various NDOs, including imine reductases/ketimine reductases, reductive aminases, EneIRED, and amino acid dehydrogenases. Additionally, the review highlights protein engineering strategies employed to modify the stereoselectivity, substrate specificity, and cofactor preference of NDOs. Furthermore, the applications of NDOs in synthesizing essential medicinal chemicals, such as noncanonical amino acids and chiral amine compounds, are extensively examined. Finally, the review outlines future perspectives by addressing challenges and discussing the potential of utilizing NDOs to establish efficient biosynthesis platforms for C-N bond synthesis. In conclusion, NDOs provide an economical, efficient, and environmentally friendly toolbox for asymmetric synthesis of C-N bonds, thus contributing significantly to the field of pharmaceutical chemical development.

Analysis of Variable Frequency Stimulation Sacral Neuromodulation for Different Genders: A Chinese Multicentric Prospective Clinical Study.

AIM: Sacral neuromodulation (SNM) is widely recognized as the essential treatment modality for patients suffering from various lower urinary tract disorders, particularly overactive bladder (OAB). This prospective study recruited patients who underwent variable frequency SNM treatment at six Chinese medical centers, aiming to evaluate the gender-specific effects of this intervention and provide precise guidance on its application for clinical management. METHODS: This prospective study was managed by Beijing Hospital, and six Chinese medical centers participated in this prospective research. Inclusion and exclusion criteria were established to screen patients based on the indication for SNM. During the research, all patients were required to record 72-h voiding diaries, urgency scores, and visual analogue scale (VAS) scores to reflect their disease symptoms. Additionally, subjective questionnaire surveys such as OAB symptom score (OABSS) and quality-of-life (Qol) score were recorded to reflect the patients' quality of life and treatment satisfaction. RESULTS: In this study, 52 patients (male patients: 25; female patients: 27) with OAB symptoms agreed to undergo variable frequency stimulation SNM therapy and finally convert to Stage II. Regarding the baseline outcomes, no significant differences were observed between the male and female groups. In terms of postoperative indicators, male patients showed a greater improvement in Qol scores compared to their female counterparts (20.06 ± 13.12 vs. 40.83 ± 26.06, p = 0.005). The results from VAS scores indicated that pain remission was more pronounced in male patients than in female patients (0.31 ± 0.87 vs. 1.67 ± 2.16, p = 0.02). Importantly, there was a statistically significant disparity in urinary urgency between males and females (male patients: 1.19 ± 1.56; female patients: 2.17 ± 1.52, p = 0.04). CONCLUSIONS: In our study, we found that variable frequency SNM treatment yielded sex-specific differences in therapeutic effects, with male patients having a better outcome in some metrics. This suggests that a patient's sex may influence when variable frequency SNM is used, and in the patient's follow-up. TRIAL REGISTRATION: ClinicalTrials.gov identifier: ChiCTR2000036677.