Search Results (6,856)

The Eastern Kazakhstan Gold Belt is a major black-shale-hosted gold province in Central Asia where the main types of deposits comprise mineralized zones with auriferous sulfides (micro- and nano-inclusions of gold and refractory gold) and quartz veins with visible gold. The quartz vein deposits are economically less important but may potentially represent the upper parts of bigger ore systems concealed at depth. In this work, the mineralogy of the quartz vein deposits and related wall rock alteration zones was studied using microscopy and SEM-EDS analysis, and the geochemical dispersion of the ore elements in primary alteration haloes was documented utilizing spatial distribution maps and statistical treatment methods. The studied auriferous quartz veins are classified as epizonal black-shale-hosted orogenic gold deposits. The veins generally have linear shapes with an average width of ca. 1 m and length up to 150 m and contain high-grade native gold with minor amounts of sulfides. In supergene oxidation zones, the native gold is closely associated with Fe-hydroxide minerals cementing brecciated zones within the veins. The auriferous quartz veins are usually enclosed by the wall rock alteration envelopes, where two types of alteration are distinguished. Proximal phyllic alteration (sericite-albite-pyrite ± chlorite, Fe-Mg-Ca carbonates, arsenopyrite, and pyrrhotite) develops as localized alteration envelopes, and pervasive carbonation accompanied by chlorite ± sericite and albite is the dominant process in the distal alteration zones. The rocks within the alteration zones are enriched in Au and chalcophile elements, and three groups of chemical elements showing significant positive mutual correlation have been identified: (1) an early geochemical assemblage includes V, P, and Co (±Ni), which are the chemical elements characteristic for black shale formations, (2) association of Au, As, and other chalcophile elements is distinctly overprinting, and manifests the main stage of sulfide-hosted Au mineralization, and (3) association of Bi and Hg (±Sb and U) includes the chemical elements that are mobile at low temperatures, and can be explained by activity of the late-stage hydrothermal or supergene fluids. The chalcophile elements show negative slopes from proximal to distal alteration zones and form overlapping positive anomalies on spatial distribution mono-elemental maps. Thus, the geochemical methods can provide useful tools to delineate the ore elemental associations and to outline reproducible anomalies for subsequent regional gold prospecting. Full article

Gel-type electrofluorochromic (EFC) devices, which reversibly modulate photoluminescence under electrical stimuli, have emerged as versatile platforms for advanced optoelectronic applications. By integrating redox-active luminophores with soft, ion-conductive gel matrices, these systems combine the structural robustness of solids with the ionic mobility of liquids, enabling a high-contrast, flexible, and multifunctional operation. This review provides a comprehensive overview of gel-based EFC technologies, outlining fundamental working principles, device architectures, and key performance metrics such as contrast ratio, switching time, and cycling stability. Gel matrices are categorized into ionogels, organogels, and hydrogels, and their physicochemical properties are discussed in relation to EFC device performance. Recent advances are highlighted across applications ranging from flexible displays and rewritable electronic paper to strain and biosensors, data encryption, smart windows, and hybrid energy-interactive systems. Finally, current challenges and emerging strategies are analyzed to guide the design of next-generation adaptive, intelligent, and energy-efficient optoelectronic platforms. Full article

Multiple sclerosis (MS) is a chronic, immune-mediated neurological disorder with increasing global prevalence. Emerging evidence underscores the role of lifestyle interventions (particularly diet and physical activity) in modulating disease progression and improving quality of life. This narrative review synthesizes current scientific literature on the effects of dietary interventions, including the Mediterranean, ketogenic, Swank, Wahls, gluten-free, and fasting-based diets, alongside various physical activity regimens. The Mediterranean and ketogenic diets show promise in reducing inflammation, enhancing neuroprotection, and improving metabolic health. Similarly, structured physical activity (including aerobic, resistance, sensorimotor, and mind–body exercises) demonstrates benefits in mobility, fatigue, and mental well-being. The review highlights the need for personalized, sustainable approaches that integrate nutritional and exercise-based strategies for optimal MS management in the long term. Full article

Guide dogs are primarily seen as mobility aids for people with visual impairments, but they may also influence users’ psychological well-being and social lives. Benefits of being partnered with a guide dog have been found in several countries but Scandinavian studies are sparse. This qualitative study explores the lived experiences of six Danish guide dog partners through semi-structured interviews. A reflexive thematic analysis found six primary benefits: improved mobility, increased physical activity, enhanced freedom and independence, new social interactions, a strong emotional bond with the dog, and better mental well-being. Users also reported challenges, including frequent distractions caused by the public interacting with the dog, difficulties during the initial adjustment period, increased cleaning, and occasional trouble finding care for the dog. Participants unanimously emphasized the irreplaceable value of their guide dogs and positive socioemotional dimensions of guide dog partnerships. The findings add Scandinavian voices that support existing international research and note three areas of potential improvement: better public education about guide dog etiquette, enhanced support during the adjustment period, and improved care-sharing arrangements. The study underscores the importance of considering guide dogs as both functional aids and sources of emotional and social support. Full article

In resource-constrained edge environments—such as mobile devices, IoT systems, and electric vehicles—energy-efficient Convolution Neural Network (CNN) accelerators on mobile Field Programmable Gate Arrays (FPGAs) are gaining significant attention for real-time object detection tasks. This paper presents a low-power implementation of the Tiny YOLOv4 object detection model on the Xilinx ZCU104 FPGA platform by using Register Transfer Level (RTL) optimization techniques. We proposed three RTL techniques in the paper: (i) Local Explicit Clock Enable (LECE), (ii) operand isolation, and (iii) Enhanced Clock Gating (ECG). A novel low-power design of Multiply-Accumulate (MAC) operations, which is one of the main components in the AI algorithm, was proposed to eliminate redundant signal switching activities. The Tiny YOLOv4 model, trained on the COCO dataset, was quantized and compiled using the Tensil tool-chain for fixed-point inference deployment. Post-implementation evaluation using Vivado 2022.2 demonstrates around 29.4% reduction in total on-chip power. Our design supports real-time detection throughput while maintaining high accuracy, making it ideal for deployment in battery-constrained environments such as drones, surveillance systems, and autonomous vehicles. These results highlight the effectiveness of RTL-level power optimization for scalable and sustainable edge AI deployment. Full article

This study explores the antioxidant potential and delivery performance of five structurally distinct cannabinoids, with a particular focus on cannabinol (CBN). Comprehensive structural characterization using mass spectrometry (MS) and nuclear magnetic resonance (NMR) revealed key molecular features relevant to antioxidant function. Among the tested compounds, CBN exhibited the most potent and balanced radical scavenging activity against 2,2-diphenyl-1-picrylhydrazyl (DPPH), hydroxyl, and superoxide radicals. Based on these findings, CBN was selected for formulation into soy lecithin liposomes. The resulting CBN-loaded liposomes displayed favorable colloidal properties, with an average size of approximately 122.9 ± 0.4 nm. Results indicating increased membrane order upon CBN incorporation suggest enhanced stability of the liposomal bilayer. Antioxidant activity assays showed that CBN-loaded liposomes retain significant radical scavenging capacity, though with a moderate reduction compared to free CBN. EPR imaging further demonstrated superior diffusion of liposomal CBN through a gelatin-based semi-solid model compared to the control solution. While the current model does not replicate skin architecture, it provides a cost-effective and reproducible platform for early-stage screening of formulation mobility. These results position CBN-loaded liposomes as a promising candidate for dermal antioxidant applications, combining favorable physicochemical properties with enhanced diffusion behavior. Full article

This study explored a competency-based soft-skills programme supporting evolving community pharmacy professionals’ roles and sustainable practice in Serbia. Four researchers with academic and practice backgrounds developed the programme using healthcare guidelines and the International Pharmaceutical Federation’s competency framework. The process involved defining objectives, selecting methods, designing and organising activities, accreditation, and evaluating outcomes based on the Kirkpatrick model. From January 2021 to March 2025, the “Galenika Academy” was implemented through webinars, accredited tests, onsite courses, and a mobile application. Satisfaction was assessed via a validated online questionnaire among participants attending ≥80% of sessions, following evaluation of attendance and test performance. The programme reached 5107 participants, 10,427 webinar views, and 8252 test completions. The “Galiverse” mobile app, launched in February 2023, had 5558 users by March 2025. The most attended webinar was “Burnout” (787). Average test success was 82.9%, with 95.3% for “Resilience” and 61.0% for “Team Management.” Satisfaction was 95.5% for content, 94.2% for quality, 92.3% for materials, 77.1% for the application, and 96.3% would recommend it. Among those reporting improved resilience, 96.9% believed it could positively impact pharmacy operations. Pharmacists found the programme relevant and effective. Further research is needed to evaluate its impact on practice and patient outcomes. Full article

Background/Objectives. Heart rate variability (HRV) is the variability in the beat-by-beat heart period. Primary focal hyperhidrosis (PFHH) is a disease characterized by excessive sweat production, strongly affecting social life. Several authors define this condition as a dysautonomic disorder, mainly driven by exaggerated sympathetic activity. The aim of the study was to demonstrate a possible cardiac involvement in the disease. Other outcomes were the occurrence of dysautonomic disorders after surgery and its possible correlation with baseline characteristics. Methods. This observational, controlled trial enrolled patients with a confirmed clinical diagnosis of severe PFHH candidates to thoracoscopic sympathetic chain clamping. Before and after surgery, ECG was obtained using KardiaMobile 6L (AliveCor^®, Mountain View, CA, USA) device with a five-minute recording and HRV was analyzed using Kubios HRV Premium (Kubios©) software. Results. 111 patients were compared to 222 healthy control subjects. No differences were seen in HRV analysis between the two groups at baseline (time-domain p > 0.05, frequency-domain p > 0.05, autonomic indexes p > 0.05). When comparing autonomic function indexes in patients before and after the surgical procedure, no differences were seen in frequency-domain HRV analysis, but a blunted increase in SNS index (0.2 vs. 1.38, p 0.02). No development of systemic dysautonomic disorders nor significant compensatory hyperhidrosis were seen after the surgery. Conclusions. This study shows that PFHH is a peripheral autonomic nervous system derangement, rather than central. Sympathetic chain clamping resulted safe and effective in improving patients’ conditions, with no risks of dysautonomic disorders. Full article

Although chlorpromazine is primarily used in psychiatry, it has been shown since its introduction to influence the course of neoplastic diseases. According to the strategy of drug repurposing, chlorpromazine has been successfully tested for its potential antitumor effects on multiple cancer cell lines. This effect is consistent with the overlap of molecular pathways observed for years between schizophrenia and cancer. The main objective of this work was to evaluate the lipophilicity of 17 previously synthesized tetracyclic chlorpromazine analogues exhibiting diverse anticancer and antimicrobial activity using thin-layer chromatography and computational methods. For a compound to become an effective drug, it must have a favorable ADMET profile, which determines its pharmacokinetic properties as a drug candidate. Lipophilicity is one of the key parameters widely employed in designing new bioactive compounds as potential therapeutic agents. In this article, chromatographic plates precoated with silica gel 60 RP-18F₂₅₄ and a mixture of acetone and TRIS buffer were used as the mobile phase. The chromatographic parameter of lipophilicity (R_M0) of the investigated compounds determined by means of the Soczewinski–Wachtmeister formula was useful to obtain the values of the experimental lipophilicity parameter expressed as logP_TLC. The results of logP_TLC were compared with theoretical values of logP obtained using different algorithms (iLOGP, XLOGP3, WLOGP, MLOGP, SILCOS-IT, and ClogP). Furthermore, the online platforms, such as SwissADME and pkCSM, allowed the determination of the remaining ADME parameters of the quinoline derivatives of chlorpromazine. The study of lipophilicity and ADME factors enabled confirmation that the tested compounds demonstrated favorable properties. Therefore, they can be considered as promising starting structures for further studies. Full article

Knee joint stiffness occurs and severely limits its range of motion (ROM) after facture around the knee. During mobility training, knee joints need to be flexed to the maximum angle position (maxAP) that can induce pain at an appropriate level in order to pull apart intra-articular adhesive structures while avoiding secondary injuries. However, the maxAP varies with training and is mostly determined by the pain level of patients. In this study, the feasibility of utilizing electromyogram (EMG) activities to detect maxAP was investigated. Specifically, the maxAP detection was converted into a binary classification between pain level three of the numerical rating scales (pain) and below (painless) according to clinical requirements. Firstly, 12 post-fracture patients with knee joint stiffness participated in Experiment I, with a therapist performing routine mobility training and EMG signals being recorded from knee flexors and extensors. The results showed that the extracted EMG features were significantly different between the pain and painless states. Then, the maxAP estimation performance was tested on a knee rehabilitation robot in Experiment II, with another seven patients being involved. The support vector machine and random forest models were used to classify between pain and painless states and obtained a mean accuracy of 87.90% ± 4.55% and 89.10% ± 4.39%, respectively, leading to an average estimation bias of 6.5° ± 5.1° and 4.5° ± 3.5°. These results indicated that the pain-induced EMG can be used to accurately classify pain states for the maxAP estimation in post-fracture mobility training, which can potentially facilitate the application of robotic techniques in fracture rehabilitation. Full article

Muscle wasting and weakness are critical clinical problems that limit mobility and independence, reduce health span, and increase the risk of physical disability. The molecular basis for this has not been fully determined. Klotho expression is downregulated in conditions associated with muscle wasting, including aging, chronic kidney disease, and myopathy. The objective of this study was to investigate a mechanistic role for Klotho in regulating muscle wasting and weakness. Body weight, lean mass, muscle mass, and myofiber caliber were reduced in Klotho-deficient mice. In the tibialis anterior muscle of Klotho-null mice, type IIa myofibers were resistant to changes in size, and muscle composition differed with a higher concentration of type IIb fibers to the detriment of type IIx fibers. Glycolytic GPDH enzymatic activity also increased. Klotho-deficient mice showed impaired muscle contractility, with reduced twitch force, torque, and contraction–relaxation rates. RNA sequencing revealed upregulation of synaptic and fetal sarcomeric genes, prompting us to examine muscle innervation. Klotho deficiency led to neuromuscular junction remodeling, myofiber denervation, and functional motor unit loss. Loss of motor units correlated with absolute torque. Collectively, these findings reveal a novel mechanism through which systemic Klotho deficiency disrupts muscle synapses and motor unit connectivity, potentially contributing to muscle wasting and weakness. Full article

Background/Objectives: Sedentariness is a common phenomenon among both the elderly and the young in modern society. Changes in work structure, leisure activities, and technological advancements have contributed to excessive sitting time. To address sedentary lifestyles across generations, this randomised controlled pilot trial aimed to investigate the effectiveness of the Connective Active Programme (CAP) in improving intergenerational relationships, psychological well-being, and physical fitness among older adults. Methods: Twenty dyads of older and younger adults from the same family were recruited and randomly allocated to an experimental group or a control group in a 1:1 ratio. The experimental group participated in six weekly 2-h dyadic walking sessions supported by digital information and mobile applications, whereas the control group received weekly digital pamphlets. Results: Compared to the control group, the experimental group showed significant improvements in younger participants’ intergenerational relationship quality, as well as in older participants’ 6-Minute Walk Test performance and WHOQOL-BREF scores. Conclusions: The CAP appears to be a viable strategy to enhance intergenerational relationships and promote healthy ageing among community-dwelling older adults in Hong Kong. Full article

The article examines the role of art in the successful revitalisation of brownfield sites in Nantes. The city’s deindustrialization in the 1960s–80s caused a severe economic and social crisis. Significant areas were left behind by the abandoned factories, which were rapidly degrading, negatively affecting the entire city. Many of these were located on a river island in the city centre. Since the early 1990s, the Nantes authorities initiated a process of revitalising brownfield sites. They implemented several culture-led regeneration strategies. Nantes opened up to temporary events: street theatre shows and art festivals. The flagship project and symbol of renewal became Les Machines de Île, mobile, interactive machines that took over the previously degraded island and hark back to its industrial past. Site-specific art installations filled the city. The municipal authorities also started to implement the concept of a creative cluster, concentrating art colleges, cultural facilities, and creativity-related businesses on former wasteland. The use of a variety of strategies brought success, and the results went beyond the revitalised area. Cultural activities became an accelerator of change and contributed to the regeneration process of the city. Full article

Background/Objectives: The increasing emphasis on early mobilization in intensive care units (ICUs) has underscored the need for quick, simple, and reliable tools to assess patients’ mobilization levels. The ICU Mobility Scale (IMS) was developed to address this need and has been translated into a Japanese version. This study aimed to evaluate the construct and predictive validity of the Japanese version of the IMS in critically ill patients. Methods: This was a secondary analysis of the EMPICS study, which included patients who stayed in ICUs for at least 48 h. The Japanese version of the IMS and physical function were assessed at ICU discharge. At hospital discharge, outcomes such as walking ability, discharge destination, activities of daily living (ADL) dependency, ICU-acquired weakness, and physical impairment were evaluated. At 90-day follow-up, the presence of post-intensive care syndrome (PICS) was assessed using quality of life scores, and mortality data were collected. Construct and predictive validity were analyzed using Spearman’s rank correlation coefficients, the Mann–Whitney U test, and logistic regression analysis. Results: A total of 193 patients (mean age 68.2 years; 65.8% male) were included. The mean IMS score at ICU discharge was 5.6. The IMS score at ICU discharge showed significant correlations with the Barthel Index (ρ = 0.55, p = 0.001), Medical Research Council sum score (ρ = 0.45, p < 0.001), and grip strength (ρ = 0.44, p < 0.001), but not with body weight or sex. Logistic regression analyses demonstrated that a higher IMS score at ICU discharge was significantly associated with better physical outcomes at hospital discharge, a lower incidence of PICS, and reduced 90-day mortality. Conclusions: The Japanese version of the IMS demonstrated both construct and predictive validity in ICU patients. It is a useful tool for assessing daily mobilization levels in critical care settings. The findings may not be generalizable to all ICU patients due to the strict eligibility criteria. Full article

Decades of unregulated zinc mining activities in the Mae Tao watershed, located in Mae Sot District, Tak Province, northern Thailand, have resulted in the pervasive contamination of agricultural soils with heavy metals, particularly cadmium (Cd), zinc (Zn), lead (Pb), and manganese (Mn). This legacy pollution has significantly impacted multiple environmental compartments—including surface water, groundwater, and sediments—and poses chronic health risks to local populations. This study investigates the key geochemical and physicochemical factors governing the leachability and mobility of these metals from contaminated soils and evaluates the associated human health risks. Controlled leaching experiments demonstrated that ionic strength exerts a more pronounced influence on metal mobilization than pH or other tested variables, suggesting that the electrolyte composition of pore water plays a dominant role in heavy metal transport. Despite elevated total concentrations of Cd, Zn, Pb, and Mn in the soils, hazard quotient (HQ) calculations indicated no significant non-carcinogenic risk under typical exposure scenarios. However, Cd exhibited a carcinogenic risk above the acceptable threshold at both average and peak soil concentrations, underscoring its potential to adversely affect human health. These findings enhance the understanding of heavy metal behavior in contaminated agroecosystems and provide a scientific basis for targeted risk management and long-term monitoring strategies in the Mae Sot region. Full article