Explore the vast range of titles available.

To study the mechanism of lactoferrin (LF) regulating metabolic disorders in nutritionally obese mice through intestinal microflora. Twenty-one male C57BL/6 mice were randomly divided into 3 groups: control group, model group and LF treatment group. The mice in control group were fed with maintenance diet and drank freely. The mice in model group were fed with high fat diet and drank freely. The mice in LF treatment group were fed with high fat diet and drinking water containing 2% LF freely. Body weight was recorded every week. Visceral fat ratio was measured at week 12. Blood glucose and serum lipid level were detected by automatic biochemical analyzer. The gut microbiota of mice was examined using 16 s rRNA sequencing method. LF treatment significantly reduced the levels of visceral adipose ratio, blood glucose, triglyceride, total cholesterol and low-density lipoprotein cholesterol (LDL-C) in high-fat diet mice ( p  < 0.05). It can be seen that drinking water with 2% LF had a significant impact on metabolic disorders. At the same time, the Firmicutes/Bacteroidetes ratio(F/B) of LF treated mice was decreased. The abundance of Deferribacteres, Oscillibacter, Butyricicoccus, Acinetobacter and Mucispirillum in LF treatment group were significantly decreased, and the abundance of Dubosiella was significantly increased ( p  < 0.05). In the LF-treated group, the expression levels of glucose metabolism genes in gut microbiota were increased, and the expression levels of pyruvate metabolism genes were decreased. It can be seen that metabolic disorders were related to intestinal flora. In conclusion, LF regulates metabolic disorders by regulating intestinal flora.

Chronic myeloid leukemia (CML) is a malignant clonal disease involving hematopoietic stem cells that is characterized by myeloid cell proliferation in bone marrow and peripheral blood, and the presence of the Philadelphia (Ph) chromosome with BCR-ABL fusion gene. Treatment of CML has dramatically improved since the advent of tyrosine kinase inhibitors (TKI). However, there are a small subset of CML patients who develop resistance to TKI. Mutations in the ABL kinase domain (KD) are currently recognized as the leading cause of TKI resistance in CML. In this review, we discuss the concept of resistance and summarize recent advances exploring the mechanisms underlying CML resistance. Overcoming TKI resistance appears to be the most successful approach to reduce the burden of leukemia and enhance cures for CML. Advances in new strategies to combat drug resistance may rapidly change the management of TKI-resistant CML and expand the prospects for available therapies.

To investigate cortical modulatory effects of neuromuscular electrical stimulation (NMES) and peripheral magnetic stimulation (PMS) applied to the wrist extensors of healthy adults, using fNIRS as the primary assessment modality. In a randomized crossover design, 15 right-handed adults received NMES and PMS sessions (separated by ≥48 h). Stimulation intensity was functionally calibrated to elicit a matched, maximal painless wrist dorsiflexion. Corticospinal excitability was assessed via motor evoked potentials (MEPs) before and after each intervention. Real-time cortical hemodynamics were monitored with functional near-infrared spectroscopy (fNIRS) during stimulation, quantifying changes in oxygenated ([HbO]) and deoxygenated ([HbR]) hemoglobin concentrations across the sensorimotor (SMC), prefrontal (PFC), and occipital (OC) cortices. Neither NMES nor PMS induced significant changes in MEP amplitude (NMES: = 0.674; PMS: = 0.794). However, fNIRS revealed fundamentally distinct cortical activation patterns during stimulation. NMES was associated with widespread decreases in [HbO] within the PFC, ipsilateral SMC, and OC ( < 0.05). In contrast, PMS elicited focal activation in the contralateral SMC, characterized by a significant increase in [HbO] (ch23: = 0.005; ch35: = 0.022) and a concurrent decrease in [HbR] ( < 0.05) compared to the NMES condition. General linear model analysis confirmed more robust contralateral SMC activation during PMS. No significant differences in task-based functional connectivity were observed between the two modalities. A single session of NMES and PMS differentially modulates real-time cortical hemodynamics without altering corticospinal excitability. PMS induces focal, excitatory-dominant activation of the contralateral SMC, while NMES evokes a pattern of widespread cortical modulation, reflecting their distinct afferent mechanisms.

The study aims to investigate the after-effect of three sessions of intermittent theta-burst stimulation (iTBS) on motor cortical excitability. The iTBS was induced over the primary motor cortex (M1) at different time intervals. The study has a crossover design. Sixteen participants were assigned to three groups and received different accelerated iTBS (aiTBS) protocols during each visit: (1) three continuous sessions with no interval (iTBS18000); (2) three iTBS sessions with 10-min intervals (iTBS600 × 3 10); and (3) three iTBS sessions with 30-min intervals (iTBS600 × 3 30). As washout period, each visit is separated by at least 7 days. We measured the motor cortical excitability changes and intracortical inhibition. A dose of 1,800 pulses of aiTBS per day is tolerable. The iTBS1800 led to a reduced cortical excitability; whereas iTBS600 × 3 10 and iTBS600 × 3 30 enhanced cortical excitability to a differential extent. After a total dose of 1,800 pulses, iTBS600 × 3 30 exhibited the longer effect and highest percentage of individuals with enhanced cortical excitability. The results suggest that aiTBS protocols at different time intervals result in different motor cortical excitability after-effects.

Chemical composition and physical structure of solid substrate have significantly impacts on fermentation performance. The aqueous ammonia was used to pretreat rice straw. Furthermore, the feasibility of pretreatment to improve laccase production was also evaluated in terms of the enzymatic digestibility, chemical structure, physical structure, and laccase production. The results showed that aqueous ammonia pretreatment could modify chemical compositions, destroy rigid structure of the lignocellulosic substrate, increase enzymatic digestibility and change water state, which were beneficial to facilitate the fungus growth and nutrition utilization. Pretreatment of lignocellulosic substrate with aqueous ammonia at 80 °C gave the best effect on laccase production, yielding 172.74 U/g laccase at 14 days, which was 3.4 times higher than that of the control. The aqueous ammonia pretreatment could alternate the physicochemical characteristics of lignocellulosic substrate, resulting in the improved laccase production, which was a promising method that might be explored in solid-state fermentation.

Objectives To investigate the characteristics of pharyngeal and laryngeal structure in patients with acquired brain injury (ABI), who were long time wearing nasogastric tube (NGT) with or without tracheostomy. Methods 103 ABI patients with NGT indwelled for more than 1 month were retrospectively studied and divided into two groups by whether or not undergoing tracheostomy. Age, gender, types of brain injury, course of the disease, disorders of consciousness, activities of daily living (ADL) and fiberoptic endoscopic examination of swallowing (FEES) were evaluated. The structure and function of pharyngeal and laryngeal were assessed by FEES, focusing on the morphology of the arytenoid cartilage, epiglottis, vocal folds, tongue base, and pharyngeal cavity. Results Prolonged indwelling nasogastric tubes and tracheostomy tubes might lead to abnormal alterations of the structure and function in the arytenoid cartilage, epiglottis, tongue base, and pharyngeal cavity. Epiglottis shape abnormality, glossoptosis and pharyngeal stenosis were present in a larger proportion of the NGT–TRACH (nasogastric tube with tracheostomy) group than the NGT group ( p  < 0.05). Conclusions This study highlights potential physiological changes associated with prolonged placement of nasogastric tubes and tracheostomy tubes, which could impede the recovery of swallowing function and decannulation. We hope to provide valuable evidence to develop effective management strategies for ABI patients with NGT or tracheostomy.

To study the growth rate of different Arthrospira strains, three species of Arthrospira from Ordos alkaline lake, labeled as sp.DD, sp.ER, sp.FB, one species of Arthrospira from Hasu Sea in Hohhot, labeled as sp.HS, another purified strain labeled as sp.QD donated by the Ocean University of China had been collected. The first four need to be further isolated and purified in culture. The growth curves of all strains were plotted. Subsequently, 16S rRNA sequences were amplified and sequenced in an attempt to study taxonomic relationships. The results showed that the growth rate was increased in the first 9 days, and sp.DD had the highest growth rate. Analysis of the sequencing results revealed that sp.HS had 99.79% homology with Arthrospira platensis strain Sp-2 , sp.DD had 99.69% homology with Arthrospira platensis FACHB834 , sp.QD had 99.54% homology with Arthrospira platensis F3S , sp.ER had 99.79% homology with Arthrospira erdosensis ‘ Inner Mongolia ’, sp.FB had 99.74% homology with Arthrospira erdosensis ‘ Inner Mongolia ’. Phylogenetic analysis indicated that sp.HS was closely related to Arthrospira platensis strain Sp-2 ; sp.DD and sp.QD had a close genetic relationship; sp.ER and sp.FB had a close genetic relationship. In conclusion, these findings provide a theoretical basis for the further development and reproduction of dominant algae species in Inner Mongolia through biological analysis of Arthrospira .

Insulin resistance (IR) underlies metabolic diseases such as obesity and diabetes. Statins are lipid-lowering drugs that have also been studied to improve insulin resistance, but the mechanism is not well understood. Metagenomics and metabolomics were used to analyze the main species and metabolic pathways involved in intestinal microbes while improving insulin resistance in mice with rosuvastatin in this study. C57BL/6J male mice fed a high-fat diet were used to establish the insulin resistance (IR) mouse model. Rosuvastatin (RSV) was then administered for 8 weeks. Metagenomics and metabolomics were utilized to analyze the microbial composition and short chain fatty acid metabolites in intestinal feces of mice. It was observed that insulin-resistant mice showed significant improvement in insulin resistance following treatment with RSV. In comparison to the HFD group, specific bacterial strains were significantly increased, and the levels of butyric acid, caproic acid, and isovaleric acid among the short-chain fatty acids were notably elevated in the RSV group. Through KEGG enrichment analysis, 19 dominant strains and 15 key enzymes involved in butyric acid metabolism were identified. The results suggested that IR mice might enhance insulin sensitivity by promoting butyric acid synthesis via intestinal microbes following RSV treatment.

Varicella Zoster Virus (VZV) is endemic worldwide, causing varicella in children and zoster upon reactivation in adults. This study concerned a metagenomic analysis of a throat swab sample collected in China, on a young patient suffering from Systemic Lupus Erythematosus (SLE) and diagnosed with varicella. The complete genome sequence of a VZV strain of clade 2 has been generated. Clade 2 strains are the most prevalent in Asian countries. A comparison of 223 VZV genomes identified 77 clade specific markers, 20 of them specific to clade 2. The metagenomic analysis also identified sequences covering most of the genome of the bacteria Schaalia odontolytica also known as Actinomyces odontolyticus. VZV infection and bacterial infection in the context of SLE is further discussed. Even though the patient presented only mild symptoms, this study is a reminder that vaccination against VZV is critical to avoid severe complications like bacterial superinfection or even death in the case of immunodeficiency.

Background Rubella virus (RV) is the causative agent of rubella or German measles. Although most infections cause only mild self-limited measles-like illness, the infection in pregnant women can cause severe foetal malformation or even miscarriage, especially in the first 3 months of pregnancy. Therefore, it is of great practical significance to establish a simple and sensitive RV detection method. Methods The partial epitopes of the E1 and E2 proteins from Rubella Virus were selected as the target sites, the sequence of the selected antigenic sites of the E1 and E2 were linked by a linker. The expression plasmid P6T was constructed by inserting the gene into PET-32A + with a histidine Tag. The P6 protein was induced and expressed in Escherichia coli L21 (DE3) and purified by nickel column affinity. The protein P6 antigen was identified by Western blotting analysis, and an anti-P6 antibody ELISA was established to test known serum samples to evaluate the capability of this method. Results After purification, the concentration and purity of the protein P6 were 0.283 mg/mL and more than 80%, respectively. Western blotting analysis showed that the protein P6 could react with rubella virus positive serum. By ELISA, 36 negative sera and 58 positive sera were detected. The coincidence rate, specificity and sensitivity of the ELISA were 86.2%, 88.89% and 84.48%, respectively. The P6 ELISA with a kappa coefficient of 0.715, P  < 0.05, indicated excellent consistency. Conclusions The protein P6 with excellent antigenicity obtained from prokaryotic expression followed by chromatography purification could prove useful for early diagnosis of RV infection.