Search Results (2,283)

Bacteriophages, often referred to as “bacteria eaters,” have gained renewed interest as a powerful alternative to traditional antibiotics, particularly in addressing antibiotic-resistant bacterial infections. The present review summarizes data collected in Bulgaria during the 1960s, 1970s, and 1980s, drawing connections between past findings and present-day understanding of cytotoxicity and the clinical validation of bacteriophage applications. Its sections describe phage structure, mechanisms of action, and historical findings both globally and within the Bulgarian context, while also highlighting emerging trends and applications. The cited studies delve into the past through contemporary research contributions related to “Bulgarian phages”, a topic that remains underexplored in existing literature. The role of phages in medical microbiology is discussed alongside the challenges of therapeutic implementation, with particular focus on insights gained from the Bulgarian experience. In conclusion, by fostering international collaborations, investing in infrastructure, and establishing supportive policies, bacteriophage therapy can emerge as a critical tool for managing bacterial infections and reducing the global burden of antibiotic resistance in the future. Full article

This study demonstrates the complete transformation of almond shell waste into a high-performance carbon material for carbon paste electrode (CPE) fabrication. The biocarbon was synthesized via carbonization at 800 °C and subsequently activated with CO₂, resulting in a semicrystalline structure rich in carbonyl groups—consistent with its lignocellulosic origin (34.25% cellulose, 13.48% hemicellulose, 48.03% lignin). Carbonization increased the total pore volume of carbonized almond (CAR_ALD) by nearly 13-fold and the specific surface area by over two orders of magnitude compared to raw almond (RAW_ALD), while CO₂ activation further enhanced activated almond’s (ACT_ALD) surface area (~19%) and pore volume (~35%). To improve electrochemical performance, Bi₂O₃ doped with Sm was applied as a surface modifier. Comprehensive characterization (N₂ physisorption X-Ray Diffraction (XRD), Fourier Transform Infrared Spectroscopic Analysis (FTIR), X-Ray Photoelectron Spectroscopic Analysis (XPS), Thermogravimetric and Differential Thermal Analysis (TG-DTA), Cyclic voltammetry (CV), Electrochemical impedance spectroscopy (EIS)) confirmed the material’s structural integrity, graphitic features, and successful modifier incorporation. Electrochemical testing revealed the highest current response (48 µA) for the CPE fabricated from CAR_ALD/Bi₂O₃-Sm, indicating superior electrocatalytic activity and reduced charge transfer resistance. Notably, this is the first report of a fully functional CPE working electrode fabricated entirely from waste material. Full article

Flexible pressure sensors have garnered significant attention over the past few decades owing to their indispensable role in electronic skin and health monitoring, and there is an urgent demand for high sensitivity to meet the requirements of large-scale applications. In this work, we demonstrate a resistive pressure sensor with self-assembled MXene/MWCNTs complex conductive networks, whose hollow substrate is achieved via designed molds and thermally expandable microspheres. Herein, the pressure sensor exhibits the desired performances, including a high sensitivity of 2.63 kPa⁻¹, an ultra-low detection limit of ~0.25% relative resistance change, and rapid response times of 340 ms. The high performance enables promising prospects for detecting diverse human body movements. More importantly, it has been applied in numerical classification based on machine learning with the Hidden Markov Model, achieving an impressive accuracy of ~99.2%. Our research offers novel insights for enhancing the performance of pressure sensors, which hold great potential for practical applications. Full article

This study provides a detailed assessment of groundwater salinization in the Quaternary aquifer of the Samba Dia region, Senegal, using an integrated approach that combines hydrochemical, stable isotopic (δ²H, δ¹⁸O), and electrical resistivity tomography (ERT) techniques. Fourteen high-resolution ERT profiles, along with comprehensive chemical and isotopic analyses, were performed to identify the main causes of salinity and their spatial distribution. Results show that groundwater salinization in the area is primarily driven by three mechanisms: seawater intrusion, surface salt leaching, and ion exchange. Hydrochemical facies evolution diagrams, ionic ratios, and isotopic signatures helped differentiate marine-influenced zones from inland salinization areas. ERT imaging also mapped the three-dimensional extent and geometry of saline interfaces, confirming zone-specific mixing of seawater and freshwater. The findings indicate that salinization of the coastal aquifer has worsened over the past twenty years, mainly due to human activities and climate variability. This study recommends a sustainable monitoring strategy to support aquifer management, focusing on accurately identifying vulnerable zones and enabling adaptive resource planning in semi-arid Senegal. Full article

This study assessed the physicochemical properties and digestibility of starches derived from five varieties of water caltrop, focusing on their multi-scale structure. Water caltrop starch granules exhibited round, oval, or polygonal shapes with smooth surfaces, exhibiting unimodal particle size distributions and A-, C-, or C/A-type crystal patterns. T.qR‘Green’ exhibited the highest amylose content (30.93%), the lowest peak viscosity and breakdown, and the highest setback. T.bR‘Green’ had the highest crystallinity (29.04%) and endothermic enthalpy (15.39 J/g), with a more ordered internal structure. T.bR‘Red’ had the lowest crystallinity (24.94%), gelatinization temperature, and endothermic enthalpy (8.08 J/g), while showing the highest peak viscosity and breakdown, the lowest setback, and the highest resistant starch content (47.2%), thus possessing stronger resistance to digestion. Pearson correlation analysis revealed that the thermal properties of water caltrop starches were mainly influenced by the amylopectin B-chains and short-range order, while pasting properties were mainly affected by amylopectin B-chains and crystallinity. Amylose content positively influenced solubility but negatively affected swelling power. Additionally, water caltrop starch digestibility showed a negative correlation with granule size and short-range order. These findings indicated the significant impact of starch multi-scale structure on physicochemical properties and digestibility. Full article

This paper explores racialization as a historical-sociological concept and an ongoing, contemporary material praxis, using a Global Critical Race and Racism (GCRR) framework. Racialization is an ideological and material practice of colonial conquest that requires constant reification and maintenance. This paper examines how racialization and racial practices are positioned within Egyptian state tourism campaigns, through a media content and discourse analysis, as a function of contemporary national-racial identity formation. Histories of colonial archaeology, race science, and the European colonial domination and imagination of Egypt heavily contextualize this analysis. First, the paper outlines how the identity of ancient Egyptians was a racing project fundamental to white supremacy and global race and racism in the eighteenth and nineteenth centuries in ways that are intricately tied to contemporary nationalism, national identity formation, and nation-building in modern Egypt. The focus of this paper is Egypt’s agency in its national identity formation practices, wherein it acknowledges, negotiates, and markets aspects of its racialization that are economically and geopolitically advantageous, specifically within the tourism industry and in relation to Pharaonic Egypt. In this way, Egypt’s racialization is not simply externally imposed; the Egyptian state is engaging with global structures of race and racism by maintaining racial mythologies for Western imaginaries. Egypt’s contemporary national identity formation includes an engagement with its past that negotiates its position within a global hierarchy of nations across the racial-modern world system. This study explores notions of autonomy, acquiescence, and resistance under racialization by examining how nation-states engage with, resist, or leverage racialization. Full article

This study aims to evaluate the corrosion inhibition performance of different types of inhibitors for steel reinforcement in cement paste under accelerated carbonation conditions. Electrochemical methods, including electrochemical impedance spectroscopy EIS, linear polarization resistance LPR, and open-circuit potential OCP measurements, were utilized on specimens with various inhibitor formulations during exposure to a high-CO₂ environment. The results indicate that composite inhibitors provide the greatest protection, significantly outperforming single-component anodic or cathodic inhibitors. Among anodic inhibitors, sodium molybdate showed more effective corrosion inhibition than sodium chromate, and among cathodic inhibitors, BTA was more effective than DMEA, as evidenced by higher polarization resistance and more stable passivation. After 120 days of carbonation, the specimen with the optimal composite inhibitor remained passive with a low corrosion rate and a relatively noble steel potential, whereas the uninhibited specimen exhibited active corrosion. Full article

Background: Vaspin (also known as serpinA12) is a recent discovery among adipokines. It plays a significant role in obesity-related conditions, many of which are classified as chronic, inflammatory or lifestyle diseases. Due to its anti-inflammatory and insulin-sensitizing properties, vaspin has been investigated as a biomarker and potential therapeutic agent. Methods: A literature review was conducted using the MEDLINE and SCOPUS databases using the phrases “vaspin” and “serpinA12” to summarize the most recent and influential research concerning vaspin’s mechanisms and influence on various tissues. Results and Conclusions: Vaspin is notably involved in metabolic syndrome, and it is generally associated with mitigating conditions like insulin resistance and obesity-related chronic inflammation. In addition, its beneficial effects on endothelial and smooth muscle cells under hyperglycemic and hyperlipidemic conditions are also well documented. There is growing evidence that vaspin positively impacts cardiovascular health, reducing the risk of ischemic stroke and the development of atherosclerosis. Moreover, some studies suggest a direct influence of vaspin on the central nervous system, with its administration shown to reduce the expression of neuropeptide Y, a key regulator of food intake. Many of the reviewed sources highlight vaspin not only as a possible biomarker but also as a promising therapeutic candidate. However, despite intensive research on vaspin over the past 20 years, there are significant disparities between animal and in vitro studies versus human studies. A further limitation in the field is the lack of standardization in research methodologies, which contributes to inconsistent and sometimes contradictory results. Full article

The rapid rise of antimicrobial resistance (AMR) has emerged as a critical global health crisis, driven by the widespread emergence of multidrug-resistant (MDR) and extensively drug-resistant (XDR) pathogens. This growing threat, coupled with the stagnation in the development of novel antibiotics, necessitates the investigation of alternative antimicrobial strategies. Plant-derived essential oils (EOs) have emerged as promising candidates due to their broad-spectrum antibacterial activity, multi-targeted mechanisms, and capacity to enhance the efficacy of existing antibiotics. Recent studies have underscored the potential of EOs in disrupting biofilms, inhibiting quorum sensing, modulating efflux pumps, and reversing resistance in a variety of bacterial pathogens, including those listed as priorities by the World Health Organization. Notably, many of these effects have been demonstrated against resistant strains isolated directly from clinical samples, thereby enhancing the translational significance of EOs. In addition to their antimicrobial properties, advances in analytical, omics-based, and microfluidic technologies have further elucidated the mechanisms of EOs and may accelerate their therapeutic development. Nevertheless, challenges such as variability in composition, lack of standardized testing protocols, and limited in vivo data continue to impede clinical application. Therefore, the aim of this scoping review is to critically examine the advances over the past decade in the antibacterial activity of plant EOs against clinical isolates, with a particular focus on their efficacy against resistant bacterial pathogens and their potential role in combating AMR. Full article

The objective of this study was to evaluate whether any coating material would have a beneficial influence on maintaining color stability and surface roughness and to what extent an uncoated resin composite can keep its original color. The study evaluated three direct composite resins (Gradia Direct Anterior A2, Tetric EvoCeram A2, Filtek Z550 A2) using 30 samples per material (1 mm thick, 14 × 10 × 1 mm). Samples were prepared in 3D-printed molds, light-cured for 40 s, and initially smoothed with abrasive paper (grit 400–2000). The surface treatments applied were as follows: group 1—polished with a brush and Compo + polishing paste, group 2—conditioned with 37% phosphoric acid, ScotchBond adhesive applied, light-cured. All samples were cleaned ultrasonically for 5 min. Initial surface roughness and color were measured with a profilometer and spectrophotometer. Samples were then immersed in distilled water (control at 37 °C), Coca-Cola and red wine (at 10 °C) with surface roughness and color changes measurements taken on days 1, 7, 14 and 90. Immersion media were refreshed weekly. The most notable color changes after immersion in coloring solutions were observed in the groups treated with Coca-Cola and red wine compared with the control group in distilled water. Tetric EvoCeram sealed and Gradia sealed maintained the greatest resistance to perceptible coloration over 90 days, while Filtek Z550 performed the poorest. Tetric EvoCeram sealed maintained the greatest color stability (ΔE < 3.5 at 90 days), whereas Filtek Z550 sealed showed early degradation. Roughness is often decreased by surface sealing. As immersion time rises, unsealed surfaces often become noticeably rougher than sealed ones. This study simulates the oral environment and the exposure of restorative materials to staining agents. As the loss of esthetic properties over time is a continuous problem, the clinical significance of this research lies in demonstrating how a restorative material could resist pigmentation, when in contact with well-known high staining beverages, in order to maintain its esthetic properties and remain suitable for long-term use in the oral cavity. Moreover, the hypothesis that a coating material would protect the resin composite surface and reduce discoloration and surface roughness was tested. Full article

Circular RNAs (circRNAs) emerge as alternate regulators of gene expression. CircRNAs are generated by back-splicing processes, are highly conserved, and are resistant to degradation. Recent advances in sequencing and computational tools have led to the discovery of the critical regulatory roles of these molecules in different physiological and pathological processes. Different functions of circRNAs in many physiological processes have been reported in the past few years, such as miRNA sponge activity, protein decoy/sponge/recruiter activity, deviation from parental gene expression, and encoding proteins/peptides. Additionally, circRNAs are being used clinically as biomarkers. Technological advances in molecular biology over the past few years have led to the development of various techniques for detecting, quantifying, manipulating, and analyzing the functions of circRNAs. This article summarizes different wet lab techniques for preparing, detecting, validating, localizing, and interacting with circRNAs, as well as determining miRNA sponge activity and functional analysis. Full article

Coconut (Cocos nucifera L.) plays a vital economic and cultural role in many tropical and subtropical regions. A comprehensive review of the existing literature underscores that advanced biotechnologies are pivotal in unlocking the full potential of coconut germplasm exchange, which is crucial for the future sustainability of this crop. While traditional exchange methods are hampered by phytosanitary risks and logistical burdens, biotechnological interventions such as in vitro conservation and cryopreservation present targeted solutions to overcome these bottlenecks. The exchange, facilitated by these technologies, allows for the efficient introduction of desirable traits. We indicate that diversification and germplasm exchange hold the key to improving coconut quality and yield, developing varieties resistant to pests and diseases, and ensuring long-term conservation of coconut genetic diversity. This review highlights the potential to overcome the challenges faced by regional breeding programs often hindered by restricted genetic resources. Furthermore, by examining past successes and challenges in coconut germplasm identification and exchange, we offer perspectives on optimizing strategies to conserve diversity. This work emphasizes that germplasm exchange paves the way for coconut varieties that can thrive under changing environmental conditions, securing the future of this highly valuable crop. Full article

Prostate cancer (PCa) remains one of the most prevalent malignancies among men worldwide and continues to pose significant therapeutic challenges, especially in its metastatic and castration-resistant forms. Over the past two decades, the treatment paradigm has evolved from monotherapy with androgen deprivation therapy (ADT) to a multifaceted approach integrating chemotherapy, androgen receptor axis-targeted therapies (ARATs), radiopharmaceuticals, and precision medicine. This review explores the molecular underpinnings of PCa, including genetic and epigenetic alterations such as BRCA1/2, TP53, and PTEN mutations, and their role in disease progression and treatment resistance. We detail the evidence supporting the integration of systemic agents like abiraterone, enzalutamide, and darolutamide into both hormone-sensitive and castration-resistant settings. Furthermore, we highlight the expanding role of radioligand therapies, including radium-223 and Lutetium-177-labeled PSMA-617 (Lu-PSMA-617), as well as the growing impact of PARP inhibitors in genomically selected patients. The emergence of theranostic strategies and next-generation sequencing has paved the way for personalized treatment algorithms, moving toward a truly precision oncology model in PCa. This comprehensive review synthesizes current therapeutic strategies, clinical trial evidence, and future directions aimed at optimizing outcomes and quality of life for patients with advanced prostate cancer. Full article

This study investigated how amylopectin (AP) chain-length distribution (CLD) influences the structural and functional properties of ten waxy rice varieties through a multiscale analysis. The fitting CLD parameters revealed that varieties such as YN12 and GMN2 contained the highest proportions of intermediate chains (h_iii~14.5~10.2) and long chains (h_v~0.552~0.477), resulting in higher gelatinization temperatures, including onset temperatures (T_o~60.2~66.4 °C), temperature peak (T_p~72.0~72.2 °C), and the conclusion temperatures (T_c~80.8~79.4 °C). Sample YN12 exhibited the lowest breakdown viscosity (BDV~748 cP), indicating higher thermal stability and stable pasting behavior. All of the samples showed relative crystallinity (Rc%) ranging from 19.3 to 22.8% with lamellar spacing of 8.8~9.4 nm. Sample YN12 exhibited the lowest enzymatic digestion rate (k~1.48 × 10⁻² min⁻¹) and the highest resistant starch (C_res~9.81%), reflecting restricted enzyme accessibility. In contrast, sample SN9714 and ZN106, characterized by a higher proportion of shorter branches in the long-chain region of AP CLD (β_vi~3.75~2.53), exhibited greater BDV (1407 cP) and faster digestion kinetics (k~1.90 × 10⁻² min⁻¹). The Rc% (22.83%) of NGXN was positively correlated with gelatinization enthalpy (ΔH~14.8 J/g). These findings highlight the pivotal role of AP CLDs in determining the structural, thermal, pasting, and digestive properties of waxy rice starch, offering molecular-level guidance for the development of rice-based ingredients with tailored functional characteristics. Full article

Viral infections in humans and animals are increasing, and retrospective studies using formalin-fixed, paraffin-embedded (FFPE) samples reveal recurring outbreaks over past decades. However, the impact of pre-analytical factors like fixation and autolysis on immunohistochemistry (IHC) remains insufficiently understood. To examine how autolysis, fixation duration (6–72 h) and formalin concentration (2.5–25%) influence histology and IHC of canine distemper virus (CDV, Morbillivirus canis), interferon-β (IFN-β), and selected IFN-stimulated genes (ISGs), the study was conducted using an in vitro model based on persistently CDV-infected and non-infected DH82 cells (canine histiocytic sarcoma cell line). Autolysis led to a progressive loss of cell morphology, whereas formalin fixation had minimal impact. CDV nucleoprotein, ISG15, and myxovirus resistance protein (Mx) showed stable immunohistochemical signals across all fixation conditions and remained detectable after prolonged autolysis. CDV infection upregulated ISG15 and Mx. In contrast, IFN-β and phosphorylated protein kinase R (pPKR) exhibited variable staining and did not distinguish infected from non-infected samples. Overall, autolysis had a stronger negative impact on IHC signal quality than fixation parameters. Despite the limitations of the in vitro model, the robustness of CDV, ISG15, and Mx under suboptimal conditions highlights their potential utility as virus-sensing markers in FFPE material. Full article