Search Results (2,157)

Background/Objectives: Dilated cardiomyopathy (DCM), defined as dilation and contractile dysfunction of the left or both cardiac ventricles, remains the most common category of primary myocardial disease worldwide. It is the most prevalent cause of chronic heart failure and the most common indication for cardiac transplantation in young subjects. Accumulating evidence increasingly highlights the substantial genetic defects underlying DCM. Nevertheless, the genetic ingredients accountable for DCM in a major percentage of patients remain indefinite. Methods: A multigenerational pedigree suffering from DCM and a total of 276 healthy volunteers employed as controls were recruited from the Chinese Han-ethnicity population. A whole-exome sequencing (WES) assay followed by a Sanger sequencing analysis of the genomic DNAs from the available family members was implemented. Functional characterization of the identified genetic variant was completed by dual-luciferase analysis. Results: A new heterozygous variation in the ETS1 (erythroblast transformation-specific 1) gene, NM_005238.4:c.447T>G;p.(Tyr149*), was identified by WES and validated by Sanger sequencing analysis to co-segregate with DCM in the whole DCM family. This nonsense ETS1 variant was not found in 276 control subjects. Functional examination elucidated that Tyr149*-mutant ETS1 lost the ability to transactivate its downstream target genes CLDN5 (claudin 5) and ALK1 (activin receptor-like kinase 1), two genes crucial for cardiovascular embryonic development and postnatal structural remodeling. Conclusions: The present investigation reveals ETS1 as a new gene predisposed to human DCM and indicates ETS1 haploinsufficiency as an alternative molecular pathogenesis underlying DCM, providing a potential molecular target for genetic counseling and early diagnosis as well as personalized prophylaxis of DCM. Full article

Nitrate reduction serves as a pivotal process in the global nitrogen cycle, playing a crucial role in natural ecosystems and industrial applications. Although the genus Alteromonas is not traditionally regarded as a nitrate reducer, several Alteromonas strains have recently been found to be capable of doing so. However, the evolutionary trajectory of this capability remains undiscovered. In this study, 32 bacterial strains were isolated and cultivated from the tidal flat sediment in Hangzhou Bay and classified into the classes Cytophagia (n = 2), Alphaproteobacteria (n = 2), Gammaproteobacteria (n = 17), Flavobacteriia (n = 5), and Bacilli (n = 6). One nitrate-reducing strain, designated as CYL-A6^T, was identified by polyphasic taxonomy and proposed as a novel Alteromonas species. Genomic analysis reveals that seven Alteromonas genomes encode the dissimilatory nitrate reduction genes narGHI. Evolutionary analysis showed that these three nitrate-reducing genes were present in the early common ancestor of the genus Alteromonas, while gene loss events occurred in the subsequent evolution. With the loss of nitrate-reducing genes in the ancestry nodes, a wide variety of genes related to energy production and conversion, as well as carbohydrate, nucleotide, coenzyme, and inorganic ion metabolism, were gained in those nodes, which enabled Alteromonas members to utilize diverse substrates for increased energy production. This study enhances the understanding of microbial diversity in marine tidal flat sediments, proposes a novel nitrate-reducing species of the genus Alteromonas, and highlights the ecological diversification and ecological niche breadth in the evolution of the microbial metabolic network. Full article

Sugar content is pivotal in determining the flavor quality of tomato, and numerous genes related to tomato fruit quality have been identified. The distribution of sugar sources in plants primarily relies on the functionality of sugar transporters. Despite this, the specific role of SUT2, a sucrose transporter family member, in sugar accumulation within tomato fruits is still unclear. This study demonstrates that SUT2 is localized to the plasma membrane and possesses the function of transporting sucrose from the extracellular side to the intracellular side of the plasma membrane. Its expression level progressively decreases during fruit development. SUT2 knockout resulted in a significant increase in sugar content in tomato fruits. Further investigation revealed that the elevated sugar levels in knockout lines were accompanied by alterations in the expression of the sugar accumulation related genes STP1 and CDPK26/27. These findings provide new insights into the biological role of SUT2 in regulating sugar content in tomato fruits, improve our understanding of sugar accumulation mechanisms in tomato fruits, and offer valuable perspectives for quality improvement in tomato. Full article

This study presents the development of an innovative multifunctional cup holder designed to enhance safety, usability, and sustainability. Addressing common issues such as accidental spills, heat retention, and structural stability, the proposed design incorporates adjustable fixation and heating functionalities. The research applies a systematic design approach, applying the Theory of Inventive Problem Solving (TRIZ) methodology to resolve design contradictions and enhance product functionality. By integrating human factors considerations and universal design principles, the cup holder aims to improve user experience and accessibility. The design features a vacuum-based adjustable fixation system to prevent tipping, a controlled heating mechanism to maintain beverage temperature, and a shock-absorbing structure for enhanced durability. To evaluate whether the final design meets user expectations, a SERVQUAL questionnaire was used to collect user feedback, which was then analyzed using the Importance–Performance Analysis combined with the Kano model (IPA-Kano model). The results revealed an overall importance score of 4.347 and a satisfaction score of 3.943. Key strengths identified include reliable shock resistance, effective fixation, and ease of operation, while areas such as brand reputation and temperature control precision were found to require improvement due to their high importance but low performance. These insights confirm that the proposed design effectively enhances stability, thermal performance, and user convenience, while aligning with users’ expectations. By addressing critical functional and safety needs, this research advances the development of practical, user-centered innovations in everyday product design. Full article

The column photobioreactor has become the predominant approach for carbon sequestration by microalgae in power plant settings, owing to its capacity for high-density cultivation and efficient light energy utilization. Due to the dense arrangement of the columnar photobioreactor and its height, insufficient light became one of the main factors limiting the carbon sequestration rate of microalgae growth. In this paper, a light resource optimization method of reflective baffle and top diffusing glass was proposed. When the angle of reflective baffle on the north and east walls was 35°, and the angle of reflective baffle on the west and south floors was 0°, the overall light radiation intensity of the reactor array became the largest, reaching up to 916.81 W/m², which was 14.39% higher than that before the optimization. The replacement of the top glass with diffusing material converted the direct radiation of solar radiation into scattered radiation. When the transmittance was 95% and the haze was 95%, the overall average light radiation intensity of the algal solution reached 830.93 W/m², which was an increase of 3.7%. Four new exhaust air distribution methods were proposed, in which the three-entrance staggered-arrangement type glasshouse had the lowest algal liquid temperature. Full article

Technological advances have expanded the use of single-crystal in microscale applications—particularly in infrared optics, electronics, and aerospace. Conducting research on the surface quality of micro-milling processes for single-crystal superalloys has become a key factor in expanding their applications. In this paper, the nickel-based single-crystal superalloy DD5 is selected as the test object, and the finite element analysis software ABAQUS 2022 version is used to conduct a simulation study on its micro-scale milling process with reasonable milling parameters. A three-factor five-level L₂₅(5³) slot milling orthogonal experiment is conducted to investigate the effects of milling speed, milling depth, and feed rate on its milling force and surface quality, respectively. The results show that the milling depth has the greatest impact on the milling force during the micro-milling process, while the milling speed has the greatest influence on the surface quality. Finally, based on the experimental data, the optimal parameter combination for micro-milling nickel-based single-crystal superalloy DD5 parts is found—when the milling speed is 1318.8 mm/s; the milling depth is 12 µm; the feed rate is 20 µm/s; and the surface roughness value is at its minimum, indicating the best surface quality—which has certain guiding significance for practical machining. Full article

Uniform and graded BCC lattice cylindrical shells were proposed, and the corresponding structural specimens were fabricated with 316L stainless steel material. Experimental testing and numerical simulations were both utilized to investigate the quasi-static and dynamic compression behavior of the uniform and graded BCC lattice cylindrical shells. Finite element results were compared with the experimental results. Parametric studies were conducted to study the effects of relative density, gradient distribution, and loading velocity on the mechanical properties and deformation features. When the relative density increased from 9% to 25%, a 175% increase in SEA could be seen. Graded BCC lattice cylindrical shells almost exhibited the same mechanical performance. When compared with the SEA value under low-speed loading conditions, a 26.95% maximum increase could be witnessed in the graded-5 specimen under high-speed loading. Testing results indicated that the proposed uniform and graded BCC lattice cylindrical shells exhibited fascinating quasi-static and dynamic mechanical behavior, which provided guidance for the design and application of next-generation lightweight materials with excellent protective properties. Full article

Background: The Human Papillomavirus (HPV) vaccine has been globally implemented to prevent HPV-associated diseases. Since its introduction in China in 2017, this vaccine has substantially reduced the burden of HPV-related health conditions. As more people get vaccinated these days, ongoing safety monitoring and evaluation have become critical. This helps to safeguard public trust in immunization programs and ensures the sustainability of immunization programs. Methods: Suspected adverse events following immunization (AEFIs) associated with HPV vaccination from 2017 to 2024 were extracted from the Chinese National Immunization Information System (CNIIS). Data on the number of HPV vaccine doses given came from the Immunization Planning Information Management System of Anhui Province. Descriptive statistical methods examined the distribution characteristics of AEFIs, and chi-square tests assessed differences in incidence rates. Results: From 2017 to 2024, the vaccine safety surveillance system in Anhui Province monitored a total of 1149 reports of AEFIs associated with the HPV vaccine. The reported overall rate of AEFIs was 16.32 per 100,000 doses. Specifically, the rates of common adverse reactions were 15.15 per 100,000 doses, while the rates for rare adverse reactions were 0.85 per 100,000. Among the common adverse reactions, the incidence rates of injection-site redness and swelling (diameter >5.0 cm), induration (diameter >5.0 cm), and fever (axillary temperature ≥38.6 °C) were 0.60, 0.33, and 1.34 per 100,000 doses, respectively. For rare adverse reactions, the reported incidence rates of allergic rash, allergic urticaria, and aseptic abscess were 0.50, 0.09, and 0.03 per 100,000 doses, respectively. Most AEFIs occurred within 24 h post-vaccination. Conclusions: The overall reported incidence of AEFIs following HPV vaccination in Anhui Province from 2017 to 2024 was low, with serious rare adverse reaction occurring infrequently. These findings suggest that the HPV vaccine has a favorable safety profile. Full article

In this paper, a systematic study on performance degradation of a 0.18 μm BCD-process DCAP (Direct connection to the output CAPacitor) power chip under a total-dose radiation environment is carried out. The effects of total-dose radiation on the electrical characteristics of an MOS device are analyzed through device-level simulation. Based on the simulation results, a total-dose fault injection model is established and applied to a circuit-level simulation of the DCAP power chip. Our simulation modeling and analysis results show that total-dose radiation degrades output voltage accuracy and switching frequency, to which the bandgap reference circuit is identified as the most sensitive module. The findings presented in this paper provide theoretical support for total-dose radiation hardening designs for the DCAP power chip. Full article

Background/Objectives: As a noninvasive indicator of liver fibrosis and stiffness, liver stiffness measurement (LSM) has also shown significant value in differentiating focal liver lesions (FLLs). This study aimed to assess the characteristics of LSM values across different liver lesions and explore their value in differential diagnosis. Methods: A total of 8817 individuals with FLLs were assessed using liver stiffness measurements (LSMs). We evaluated the LSM characteristics across different FLL categories and further compared these values within subgroups based on their alpha-fetoprotein (AFP) and hepatitis B surface antigen (HBsAg). The LSM was visualized graphically. We compared two logistic regression models (with the LSM and without the LSM) in a cohort of 2271 patients who were both AFP-normal (<20 ng/mL) and HBsAg-negative. The differentiation value of the LSM was quantified by comparing the models’ area under the curves (AUCs) and through decision curve analysis (DCA). Results: The LSM showed significant differences (p < 0.001) among malignant lesions, benign lesions, and cirrhotic nodules (CN). Among benign lesions, only focal nodular hyperplasia (FNH) and simple hepatic cysts (SHC) showed a significant difference (p < 0.05). Among malignant lesions, significant differences in the LSM were observed between all pairs (p < 0.001) except between hepatocellular carcinoma (HCC) and combined hepatocellular-cholangiocarcinoma (cHCC-CC). Patients with elevated AFP levels exhibited significantly higher LSM across most lesion types. HBsAg-positive patients also showed significantly increased LSM in all five lesion types, except for CN and cHCC-CC. The full model (with LSM) for differentiating primary malignant lesions from benign ones was built using six variables. The AUCs of the full model were 0.897 and 0.896 in the training and validation sets, significantly outperforming the comparison model (AUC: 0.882, p = 0.0002; 0.879, p = 0.017). Conclusions: The LSM can provide additional information on focal liver lesions. Full article

Anaerobic digestion (AD) is a sustainable and widely adopted technology for the treatment of organic solid wastes (OSWs). However, AD efficiency varies significantly across different substrates, primarily due to differences in the microbial community and metabolic pathways. This review provides a comprehensive summary of the AD processes for four types of typical OSWs (i.e., sewage sludge, food waste, livestock manure, and straw), with an emphasis on their universal characteristics across global contexts, focusing mainly on the electron transfer mechanisms, essential microbial communities, and key metabolic pathways. Special attention was given to the mechanisms by which substrate-specific structural differences influence anaerobic digestion efficiency, with a focused analysis and discussion on how different components affect microbial communities and metabolic pathways. This study concluded that the hydrogenotrophic methanogenesis pathway, TCA cycle, and the Wood–Ljungdahl pathway serve as critical breakthrough points for enhancing methane production potential. This research not only provides a theoretical foundation for optimizing AD efficiency, but also offers crucial scientific insights for resource recovery and energy utilization of OSWs, making significant contributions to advancing sustainable waste management practices. Full article

Background: Cervical cancer poses a threat to the health of women globally. Adolescent girls are the primary target population for HPV vaccination, and guardians’ attitude towards the HPV vaccine plays a significant role in determining the vaccination status among adolescent girls. Objectives: This study aimed to explore the factors influencing guardians’ HPV vaccine acceptance for their girls and provide clues for the development of health intervention strategies. Methods: Combining the health belief model as a theoretical framework, a questionnaire-based survey was conducted. A total of 2157 adolescent girls and their guardians were recruited. The multivariable logistic model was applied to explore associated factors. Results: The guardians had a high HPV vaccine acceptance rate (86.7%) for their girls, and they demonstrated a relatively good level of awareness regarding HPV and HPV vaccines. Factors influencing guardians’ HPV vaccine acceptance for girls included guardians’ education background (OR = 0.57, 95%CI = 0.37–0.87), family income (OR = 1.94, 95%CI = 1.14–3.32), risk of HPV infection (OR = 3.15, 95%CI = 1.40–7.10) or importance of the HPV vaccine for their girls (OR = 6.70, 95%CI = 1.61–27.83), vaccination status surrounding them (OR = 2.03, 95%CI = 1.41–2.92), awareness of negative information about HPV vaccines (OR = 0.59, 95%CI = 0.43–0.82), and recommendations from medical staff (OR = 2.32, 95%CI = 1.65–3.25). Also, guardians preferred to get digital information on vaccines via government or CDC platforms, WeChat platforms, and medical knowledge platforms. Conclusions: Though HPV vaccine willingness was high among Chinese guardians, they preferred to vaccinate their daughters at the age of 17–18 years, later than WHO’s recommended optimal age period (9–14 years old), coupled with safety concerns. Future work should be conducted based on these findings to explore digital intervention effects on girls’ vaccination compliance. Full article

Timely detection of pathogen spores is fundamental to ensuring early intervention and reducing the spread of corn diseases, like northern corn leaf blight, corn head smut, and corn rust. Traditional spore detection methods struggle to identify spore-level targets within complex backgrounds. To improve the recognition accuracy of various maize disease spores, this study introduced the YOLOv8s-SPM model by incorporating the space-to-depth and convolution (SPD-Conv) layers, the Partial Self-Attention (PSA) mechanism, and Minimum Point Distance Intersection over Union (MPDIoU) loss function. First, we combined SPD-Conv layers into the Backbone of the YOLOv8s to enhance recognition performance on small targets and low-resolution images. To improve computational efficiency, the PSA mechanism was incorporated within the Neck layer of the network. Finally, MPDIoU loss function was applied to refine the localization performance of bounding boxes. The results revealed that the YOLOv8s-SPM model achieved 98.9% accuracy on the mixed spore dataset. Relative to the baseline YOLOv8s, the YOLOv8s-SPM model yielded a 1.4% gain in accuracy. The improved model significantly improved spore detection accuracy and demonstrated superior performance in recognizing diverse spore types under complex background conditions. It met the demands for high-precision spore detection and filled a gap in intelligent spore recognition for maize, offering an effective starting point and practical path for future research in this field. Full article

Depression is a common mental disorder with high economic burden, characterized by high disability and mortality rates. The etiology of depression remains unclear to date, and there are various hypotheses regarding the pathogenesis of depression in clinical practice, including the monoamine neurotransmitter hypothesis, the hypothalamic–pituitary–adrenal (HPA) axis dysregulation hypothesis, the inflammatory cytokine hypothesis, and the neurotrophic factor hypothesis. These theories offer specific directional aid in the clinical management of individuals suffering from depression. Medicinal intervention stands as a critical approach within the spectrum of depression treatments, and this article reviews the specific mechanisms of different hypotheses on the pathogenesis of depression in recent years, as well as the research progress on related therapeutic drugs. Full article

Lotus (Nelumbo nucifera Gaertn.) is a quintessential medicinal and edible plant, exhibiting marked differences in therapeutic effects among its various parts. The lotus seed constitutes a key component of this plant. Notably, the entire seed and the plumule display distinct medicinal properties. To investigate the “homologous plants with different effects” phenomenon in traditional Chinese medicine, this study established a Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry Imaging (MALDI-MSI) method. This study employed immature lotus seeds as the experimental material, diverging from the mature seeds conventionally used. Conductive double-sided tape was employed for sample preparation, and complete longitudinal sections of the seeds were obtained, followed by MALDI-MSI analysis to identify and visualize the spatial distribution of characteristic secondary metabolites within the entire seeds. The results unveiled the diversity of metabolites in lotus seeds and their differential distribution across tissues, with pronounced distinctions in the plumule. A total of 152 metabolites spanning 13 categories were identified in lotus seeds, with 134, 89, 51, and 98 metabolites discerned in the pericarp, seed coat, cotyledon, and plumule, respectively. Strikingly, young lotus seeds were devoid of liensinine/isoliensinine and neferine, the dominant alkaloids of mature lotus seed plumule, revealing an early-stage alkaloid profile that sharply contrasts with the well-documented abundance found in mature seeds and has rarely been reported. We further propose a biosynthetic pathway to explain the presence of the detected benzylisoquinoline and the absence of the undetected bisbenzylisoquinoline alkaloids in this study. These findings present the first comprehensive metabolic atlas of immature lotus seeds, systematically exposing the pronounced chemical divergence from their mature counterparts, and thus lays a metabolomic foundation for dissecting the spatiotemporal mechanisms underlying the nutritional and medicinal value of lotus seeds. Full article