Search Results (206)

Soil–Forage–Livestock systems (SFL-systems) integration is fundamental for sustainable land management in arid lands, where conventional crop production is often unfeasible. Aridisols dominate dryland agroecosystems and their edaphic constraints, together with climatic limitations, constitute a major bottleneck for fertility and productivity in key arid regions worldwide. This narrative review provides a taxonomic and edaphic framework to guide sustainable SFL-systems and integrates current approaches and technological applications for forage production in arid environments, focusing on an edaphic-digital scheme that combines organic and inorganic soil amendments with AI-based decision support to improve Aridisols productivity and resilience. Searches of the literature (ScienceDirect, EBSCOhost, Clarivate Web of Science; English, 2021–2025) screened 309 records and selected 169 references; seminal older works were consulted for context. Representative quantitative outcomes from the reviewed literature include SOC increases of ~15–30% after multi-year organic inputs; forage biomass gains of ~10–25% following amendments that correct sodicity; and water-productivity improvements up to ~30% with hydrogels or biochar. AI tools can improve soil diagnostics and amendment selection (diagnostic accuracy improvements of ~15–30% in recent studies) and generate predictive models of amendment–response that facilitate optimization of application rates and water use. The novel contribution of this review is the explicit linkage of SFL-systems and amendment-based soil restoration with AI-driven diagnostics and decision support, providing actionable metrics and research priorities to translate digital diagnostics into measurable forage gains in arid and semi-arid regions. Overall, the evidence suggests that targeted soil restoration, reinforced by AI-based support systems, is a feasible strategy to increase forage availability and ecosystem service provision in drylands. Full article

Breast carcinoma is a major cause of cancer-related mortality among women worldwide. Identifying novel molecular targets remains essential, particularly for aggressive triple-negative breast cancer (TNBC). Leucine-rich alpha-2-glycoprotein 1 (LRG1) has been linked to tumor progression and angiogenesis, but its molecular mechanisms in breast cancer are poorly defined. We evaluated the effects of recombinant human LRG1 (rhLRG1) on cell viability and migration in MDA-MB-231 TNBC cells and performed transcriptomic profiling followed by functional enrichment analyses using GenArise, Cytoscape, and R-based tools. RhLRG1 treatment significantly increased cell viability and migration. Transcriptomic analysis revealed activation of key oncogenic cascades, including the PI3K/AKT, MAPK, and RAS signaling pathways. Hub-gene analysis identified upregulated genes involved in proliferation (NRAS, STAT5B, IGF2), angiogenesis (PGF, ANGPT2), and apoptosis (CASP8, BAD), whereas downregulated genes were associated with apoptotic resistance (BCL2, MCL1) and adhesion (LAMB1, ITGB4). Functional enrichment highlighted LRG1’s role in the bioinformatic analysis of differentially expressed genes that were obtained from microarray assays. LRG1 remodels the tumor microenvironment by promoting proliferation, angiogenesis, and apoptotic sensitivity while repressing resistance-related genes. These findings position LRG1 as a potential diagnostic biomarker and therapeutic target for advanced breast carcinoma. Full article

Climate change and variable rainfall are pushing the wine industry to assess grapevine adaptability, as water deficit alters volatile compounds and understanding these processes is key to maintaining wine quality. A total of 64 compounds, free and glycosidically bound fractions, were analyzed using HS-SPME-GC×GC/ToFMS in Macabeo and Chardonnay grapes under two water irrigation regimes. Results showed that water availability significantly influenced aroma composition. Macabeo showed a strong response to rainfed conditions, with higher levels of monoterpenes, norisoprenoids and sesquiterpenes, mainly in the bound fraction, suggesting a metabolic adaptation to preserve aromatic potential. Chardonnay showed a more stable bound fraction and moderate changes in specific volatiles. These findings indicate that this advanced chromatographic technique allows a detailed evaluation of aroma precursors and their modulation by water availability. Full article

Healthcare-associated infections remain a central hospital challenge, particularly in critical areas where invasive procedures and microbial contamination overlap. The hospital environment, including air and high-touch surfaces, acts as a persistent microorganism source that favors stability and spread. UV-C disinfection systems have become complementary tools to conventional cleaning. This study evaluated the disinfectant efficacy of a 254 nm multiemitter UV-C system under in situ and in vitro conditions. A 254 nm UV-C multiemitter system was deployed to eight hospital areas selected for epidemiological relevance. Air and surface sampling were conducted before and after standardized UV-C cycles. The bacterial and fungal aerobiome was quantified (CFU/m³) and surfaces were characterized by MALDI-TOF mass spectrometry. In vitro assays tested efficacy against planktonic cultures and mature biofilms of clinical ESKAPE isolates and C. albicans. The UV-C intervention achieved mean aerobiome reductions above 91.5%, with complete elimination in multiple critical zones. Surface contamination was reduced by 96.1%, including total disinfection across several sampled points. In vitro testing showed ≥99.99% to 100% elimination of planktonic microorganisms. Mature biofilms exhibited full loss of viability after UV-C exposure, independent of biofilm architecture and structural complexity. Therefore, the 254 nm UV-C multiemitter system significantly reduced environmental microbial burden in critical hospital areas, supporting its integration within infection-prevention programs and reinforcing environmental biosafety through the control of the microbial sources involved in transmission dynamics. Full article

Bruxism is increasingly recognized as a psychosomatic behavior influenced by stress, anxiety, and sleep disturbances, which generates occlusal forces of non-physiological magnitude, potentially compromising the stability of dental implants. This narrative review examines the causal pathway linking psychological factors, bruxism, and implant complications. The literature from PubMed, Scopus, and Cochrane (2000–2025) was analyzed. Evidence consistently associates psychosocial stressors with increased mechanical complications, while biological outcomes remain heterogeneous. Digital occlusal analysis, finite element modeling, and AI-based monitoring show promise for early overload detection. An interdisciplinary model integrating dentistry, psychology, and sleep medicine is proposed to optimize implant outcomes and guide future research. Full article

This study aimed to quantify horizontal and vertical bone gain using superimposition of preoperative and postoperative cone beam computed tomography (CBCT) in severe alveolar ridge defects treated with a modified guided bone regeneration (GBR) technique based on customized titanium occlusive barriers with a window design, combined with autologous blood clot and β-tricalcium phosphate (β-TCP). In this prospective case series, 13 patients (28 defects) were treated. Customized titanium barriers were digitally designed based on CBCT data and manufactured by laser sintering. The barriers were fixed over the defects and filled with a mixture of an autologous blood clot and β-TCP, providing an osteoconductive scaffold within a stable regenerative compartment. A standardized window-based follow-up protocol was applied during healing, including irrigation and controlled deepithelialization. Primary outcomes were horizontal and vertical bone gain, assessed by pre- and postoperative CBCT superimposition. Histological evaluation was performed at the time of implant placement. After 8 months, significant bone gain was observed, with a mean horizontal gain of 4.50 ± 2.02 mm and a mean vertical gain of 4.40 ± 2.82 mm (p < 0.0001), confirmed by linear mixed-effects models and patient-level sensitivity analyses (p < 0.001). Histological analysis revealed well-vascularized newly formed bone with active osteoblasts and no inflammatory response. Keratinized gingiva formation was observed at all sites. One minor complication (mild screw loosening) was recorded and successfully resolved. This study is presented as a prospective case series; therefore, the results should be interpreted as exploratory evidence and do not allow direct comparisons or conclusions regarding equivalence or superiority over other GBR techniques. The present report specifically evaluates the regenerative phase prior to functional loading; therefore, although implants were placed according to protocol, implant survival and long-term functional outcomes were not assessed and cannot be inferred from these data. Within the limitations of this prospective case series, customized titanium occlusive barriers with a window design demonstrated promising results for horizontal and vertical bone augmentation and keratinized gingiva formation, without the need for autologous bone grafts or primary wound closure. Full article

Background: Pediatric lymphomas comprise a heterogeneous group of malignancies with substantial variation in their clinical presentation. In Mexico, detailed case-based characterization remains limited. This study summarizes the demographic and clinical characteristics of pediatric lymphomas diagnosed at a national referral center over an 11-year period. Methods: We conducted a retrospective review of lymphoma cases in children aged 0–17 years diagnosed at the Children’s Hospital of Mexico between 2004 and 2014. Cases were classified according to the ICCC-3 system and further described by histopathological subtype, age group, sex, and clinical outcomes. Results: Hodgkin lymphoma (HL) was the most frequent diagnosis, followed by non-Hodgkin lymphoma (NHL). Among HL cases, nodular sclerosis and mixed cellularity predominated, particularly in school-age children and adolescents. Within NHL, precursor T-cell lymphoma represented the largest subgroup, whereas mature B-cell lymphomas, such as diffuse large B-cell lymphoma, were less common than typically reported in high-income settings. Burkitt lymphoma occurred mainly among younger children. HL showed high survival, while some NHL subtypes exhibited poorer outcomes. Conclusions: This large hospital-based case series provides characterization of pediatric lymphomas in a major Mexican referral center. While HL subtype patterns resembled global trends, the predominance of precursor T-cell lymphomas within NHL contrasts with observations from high-income regions. These findings highlight the value of institutional case registries and the need for more comprehensive outcome reporting in future studies. Full article

The trematode Clinostomum marginatum, secretes excretory-secretory products (ESPs) which have the potential to increase the viability and antioxidant activity of probiotic strains. The aim of this study was to identify the ESP profile of C. marginatum and to evaluate its anti-inflammatory activity in RAW 264.7 macrophages, as well as its effect on the viability and antioxidant activity of a consortium of bacteria comprising Lactobacillus and/or Bifidobacterium. C. marginatum was maintained in RPMI-1640 medium for ESP collection. Anti-inflammatory activity was assessed in LPS-stimulated RAW264.7 cells treated with 800 µg/mL of ESPs, measuring cell viability, nitric oxide production, and the relative expression of pro-inflammatory cytokines (IL-6, TNF-α, INF-γ) and the COX-2 gene by qPCR. The influence of ESPs (800–1600 µg/mL) on probiotic viability and antioxidant activity was determined using MTT, DPPH, hydroxyl, and superoxide radical scavenging assays. C. marginatum showed 74% survival in vitro, and SDS-PAGE analysis revealed three major protein bands in the ESPs (47, 54, and 58 kDa). ESP treatment significantly reduced nitric oxide and the mRNA expression of pro-inflammatory markers in LPS-activated macrophages. ESPs supplemented at 1200 µg/mL optimized the growth kinetics of Lactobacillus (specific growth rate μ_L = 1.12 h⁻¹, doubling time t_d = 0.62 h) and Bifidobacterium (μ_B = 1.09 h⁻¹, t_d = 0.63 h) compared to control conditions. In conclusion, ESPs from C. marginatum exhibited significant anti-inflammatory and antioxidant effects while enhancing bacterial viability, which positions them as promising candidates for biotherapeutics agents in the management of inflammatory control and gut microbiota modulation. Full article

Contamination of heavy metals, particularly chromium from industrial activities, represents a critical challenge for public health and the environment. The aim of this study is to evaluate the adsorption performance of green mesoporous silica (GMS-24 h), synthesized through a sustainable process from industrial sodium silicate, and its derivative functionalized with amino groups (GMS-24 h–NH₂) for the removal of Cr(III) in aqueous systems. FTIR and CP–MAS NMR characterization confirmed the surface modification and textural property improvement of green mesoporous silica. The adsorption experiments, carried out under varying pH and Cr(III) concentration conditions, were fitted to the Langmuir and Freundlich models. The results showed that GMS-24 h reached a maximum capacity of 303 mg·g⁻¹ at pH 3, while GMS-24 h–NH₂ achieved 370 mg·g⁻¹ at pH 5. The evaluated adsorbents showed up to a 44% increase in efficiency. Preliminary kinetic studies indicated that the pseudo-second-order model accurately describes the process (R² > 0.99), with the rapid stabilization of the system. Diffusion analysis indicated combined mechanisms, with an additional chelation step (N → Cr) in GMS-24 h–NH₂. These findings suggest that GMS–NH₂ has the potential to be a sustainable and economical adsorbent for the remediation of wastewater from the tanning industry in León, Guanajuato, Mexico. Full article

Background: Obesity is characterized by chronic low-grade inflammation and metabolic disturbances, including an altered tryptophan (Trp) catabolism through the kynurenine pathway (KP). Since the KP is closely linked to immune activity, energy metabolism, and hepatic function, modulating its flux through lifestyle interventions has gained interest as a potential therapeutic strategy. Objective: This exploratory study aimed to investigate the impact of a structured 12-week weight loss program (WLP) on serum KP metabolites in a sample of Mexican women with obesity. Methods: This study involved a pre–post-intervention design conducted in twenty-four women with clinically diagnosed obesity from the Mexican Navy who underwent a structured 12-week weight loss program combining a hypocaloric diet with moderate-intensity aerobic exercise; no control group was included. Anthropometric parameters, serum biochemistry, and circulating levels of Trp, kynurenine (KYN), kynurenic acid (KYNA), and 3-hydroxykynurenine (3-HK) were assessed before and after intervention. Psychological assessments of anxiety and depression were also conducted in a subset of participants. Results: The WLP significantly reduced body weight, BMI, fat mass, fasting insulin, and C-reactive protein levels. Serum concentrations of Trp, KYN, and KYNA decreased, while 3-HK showed a non-significant upward trend. Enzymatic indexes revealed a significant increase in the 3-HK/KYN ratio and a decrease in the KYNA/3-HK ratio, suggesting a shift toward kynurenine monooxygenase (KMO) branch. Notably, higher KYNA-related ratios were inversely associated with depressive symptoms. Conclusions: These findings position the KP as a responsive metabolic interface potentially linking improvements in body composition, liver function, and psychological status during structured weight loss efforts. Full article

Protozoa use iron to grow, feed, and cause harm through elaborate mechanisms to obtain it from the host. In addition, expression of virulence genes is affected by iron. In Entamoeba histolytica, the parasite that causes amoebic dysentery and complications in human organs, our group have previously reported the presence of an IRE/IRP-like (Iron Responsive Element/Iron Regulatory Protein) mechanism. Giardia duodenalis is another parasite of medical interest that causes giardiasis, including nutrient malabsorption syndrome and dysbiosis, among other complications, such as anemia in children with giardiasis. Moreover, expression of many putative giardial virulence factors by free-iron levels has been reported. Recently, we have reported stem-loop structures in some mRNAs coding virulence proteins from both parasites. However, much remains to be studied about the role of iron in pathogenesis. In this review, we summarize several aspects of gene expression regulation by iron in these protozoa as well as an iron regulatory mechanism in E. histolytica and discuss the possibility of an iron regulatory IRE/IRP-like mechanism in G. duodenalis. Full article

The use of satellite-based remote sensing imagery for water quality monitoring of inland and coastal waters has become widespread over the last few decades, with the expansion of, and investment in, operational Earth-observing missions. Satellite-based sensors are uniquely suited to provide synoptic, system-wide water quality parameter estimates that supplement traditional field-based sampling methods. The remote sensing of water quality parameter estimates is particularly valuable in systems with high temporal and spatial variability, as well as in areas that are difficult to access, or where agencies lack funding for routine monitoring. However, optically complex inland and coastal waters pose additional challenges for developing robust remote sensing retrieval models for optical properties and water quality parameters. One of the biggest challenges is collecting high quality field measurements that are used to calibrate and validate the retrieval algorithms. Here, we present the current status of satellite missions, field methods that include instruments used and commonly measured parameters, and repositories of historical field data that are relevant to inland and coastal water studies. We then present data requirements for model validation and highlight gaps in validation coverage. Finally, we provide considerations for future field campaigns to improve coordination with remote sensing data collection and ensure that field data is well suited for use in model or algorithm development. Full article

Background: Mental health problems are increasingly common among children and adolescents, making schools a key setting for health promotion. Nurses can play a central role in prevention and support, but in Chile, the role of the school nurse has not yet been formally established. Understanding nursing students’ experiences in school-based mental health promotion can inform curriculum development and strengthen professional identity. Methods: A qualitative study with a phenomenological approach was conducted with third-year nursing students enrolled in a mental health course (N = 64). Data was collected through six individual interviews and one focus group, transcribed verbatim and analyzed using ATLAS.ti 25.0.1^®. To ensure rigor, the study was guided by the Consolidated Criteria for Reporting Qualitative Research (COREQ), and trustworthiness was ensured following Lincoln and Guba’s criteria. Results: Five main categories emerged: nursing’s role in mental health promotion; perceptions of health promotion as prevention; use of the educational process, with difficulties in formulating objectives; perceived self-efficacy, marked by initial uncertainty in working with children; and experiences in implementing projects, including reflections on the professional role, mixed feelings, facilitators, barriers, and coping strategies. Facilitators included faculty support, teacher collaboration, and group cohesion, while barriers were related to limited experience, challenges in managing children, and external conditions such as noise and unsuitable classroom conditions. Conclusions: School-based practicums in mental health promotion are valuable opportunities to integrate theory and practice, strengthen professional identity, and develop communication. Strengthening undergraduate curricula with systematic training in these areas is essential for preparing nurses for their role in school and community health. Integrating these experiences into clinical and assistive practice can enhance early detection, interprofessional collaboration, and the promotion of healthier school environments. Full article

The search for therapeutic bioactive peptides has led to the utilization of marine byproducts as collagen sources. This study evaluated the effect of collagen hydrolysates (CH) obtained from the swim bladder (SB) of Totoaba macdonaldi on breast (MCF-7) and colorectal (Caco-2) adenocarcinoma cells and on human dermal fibroblasts (CRL-1474), considering the need for less invasive and less toxic treatment alternatives. Two pretreatment methods for the SB were compared: (1) NaOH and butanol (SBPT), and (2) hexane (SBDF). The pretreated tissues underwent direct enzymatic hydrolysis using bromelain. The resulting hydrolysates were characterized by SDS-PAGE, Raman spectroscopy, and chromatographic profiling. Both pretreatments preserved the structure of type I collagen. Bromelain hydrolysis was efficient, yielding peptides with molecular weights below 20 kDa for CH-SBPT and below 10 kDa for CH-SBDF. CH of Totoaba macdonaldi significantly reduced MCF-7 and Caco-2 cells viability, particularly at 20 mg/mL. In CRL-1474 fibroblasts, CH-SBDF stimulated cell proliferation, while CH-SBPT had neutral effects. Hexane pretreatment is a viable alternative to NaOH, reducing processing steps without compromising yield or bioactivity. CH derived from Totoaba macdonaldi exhibit promising anticancer and regenerative properties, suggesting potential biomedical applications. Further research is needed to isolate specifically active peptides and elucidate their mechanisms of action. Full article

This paper presents the design, development, and testing of a smart home automation system that integrates a Siemens LOGO! programmable logic controller (PLC) with an ESP32 microcontroller to enable dual-mode control—manual and voice-activated. The system automates essential home functions such as lighting, irrigation, gate control, and ventilation. Through the use of the fauxmoESP library, the ESP32 communicates with Amazon Alexa, converting voice commands into GPIO signals interpreted by the PLC. Manual control is retained via pushbuttons, ensuring operational redundancy in case of network or hardware failure. The system architecture includes optocouplers and relays to ensure voltage compatibility and device protection between the 3.3 V microcontroller and the 12–24 V PLC inputs. Functional tests revealed a 100% success rate in manual operations and over 95% in voice-controlled actions, with notable differences in response times. A cost breakdown and risk analysis are also included to assess feasibility and sustainability. This prototype highlights a practical, low-cost solution for residential automation, with scalability potential for broader smart home applications and educational or industrial implementations. Full article