Effects of astaxanthin supplementation during vitrification and liquid nitrogen vapor freezing on motility, morphology, survival, reactive oxygen species (ROS), and DNA fragmentation of post-cryopreserved human sperm.

OBJECTIVE: To investigate the effect of astaxanthin supplementation in cryopreservation media on post-thawed sperm motility, viability, morphology, reactive oxygen species (ROS), and DNA fragmentation in two cryopreservation techniques using vitrification and liquid nitrogen vapor freezing. METHODS: Thirty normozoospermic semen samples were used in the study. Post-prepared semen samples were divided into 1) non-cryopreserved control, 2) and 3) vitrified without (V) and with astaxanthin 0.5 µM (V+ATX), 4) and 5) frozen in liquid nitrogen vapor without (L) and with astaxanthin 0.5 µM (L+ATX). RESULTS: Cryopreservation using vitrification and liquid nitrogen vapor freezing significantly decreased sperm motility and viability and increased ROS levels. However, no changes were seen in sperm morphology or DNA fragmentation. The addition of astaxanthin in cryopreservation media significantly increased post-thawed motility in both vitrification (77.6±8.9% vs. 69.0±9.5% in V+ATX and V) and vapor freezing (57.0±13.3% vs. 47.7±14.6% in L+ATX and L); it significantly increased sperm viability in vitrification (75.0±11.9% vs. 65.9±11.1% in V+ATX and V), and significantly decreased ROS level in both vitrification (4.7 (2.6-8.3) RLU/sec/106 vs. 10.6 (9.4-16.0) RLU/sec/106 in V+ATX and V) and vapor freezing (4.6 (3.3-10.5) RLU/sec/106 vs. 10.3 (7.9-18.6) RLU/ sec/106 in L+ATX and L). Astaxanthin supplementation in cryopreservation media did not affect sperm morphology or DNA fragmentation. CONCLUSIONS: Astaxanthin supplementation improved post-cryopreserved sperm motility, decreased ROS levels in both vitrification and liquid nitrogen vapor freezing and improved sperm viability only in the vitrification technique.

The Impact of Green Physical Crosslinking Methods on the Development of Sericin-Based Biohydrogels for Wound Healing.

Silk sericin (SS)-based hydrogels show promise for wound healing due to their biocompatibility, moisture regulation, and cell proliferation properties. However, there is still a need to develop green crosslinking methods to obtain non-toxic, absorbent, and mechanically strong SS hydrogels. This study investigated the effects of three green crosslinking methods, annealing treatment (T), exposure to an absolute ethanol vapor atmosphere (V.E), and water vapor (V.A), on the physicochemical and mechanical properties of SS and poly (vinyl alcohol) (PVA) biohydrogels. X-ray diffraction and Fourier-transform infrared spectroscopy were used to determine chemical structures. Thermal properties and morphological changes were studied through thermogravimetric analysis and scanning electron microscopy, respectively. The water absorption capacity, mass loss, sericin release in phosphate-buffered saline (PBS), and compressive strength were also evaluated. The results showed that physical crosslinking methods induced different structural transitions in the biohydrogels, impacting their mechanical properties. In particular, V.A hydrogen presented the highest compressive strength at 80% deformation owing to its compact and porous structure with crystallization and bonding sites. Moreover, both the V.A and T hydrogels exhibited improved absorption capacity, stability, and slow SS release in PBS. These results demonstrate the potential of green physical crosslinking techniques for producing SS/PVA biomaterials for wound healing applications.

Lesión pulmonar asociada al vapeo: informe de un caso / Lung injury associated with vaping: A case report

Resumen El vapeo es la práctica de inhalar un aerosol creado al calentar un líquido con cigarrillo electrónico. Estos aerosoles contienen tóxicos, compuestos cancerígenos y nicotina, sustancia adictiva. En nuestro país está pro hibida la comercialización del cigarrillo electrónico. La lesión pulmonar aguda asociada al vapeo (EVALI) es una enfermedad respiratoria aguda potencialmente mortal. Se presenta el caso de un varón de 18 años, tabaquis ta, que consultó por falta de aire y fiebre. Presentaba insuficiencia respiratoria hipoxémica y leucocitosis, refiriendo reciente inicio de utilización de cigarrillo electrónico. En la tomografía computarizada de tórax (TC) se observaban extensas áreas en "vidrio esmerilado" bilaterales y áreas de consolidación con broncograma aéreo. Se inició tratamiento antibiótico y se realizó una fibrobroncoscopia que mostró restos hemáticos sin lesiones endoluminales. Se interpretó como EVALI y se indicaron corticoides sistémicos. El paciente evolu cionó favorablemente y egresó a las 48 h de finalizado el tratamiento. En TC de control se observó mejoría de las lesiones. El diagnóstico de EVALI es de exclusión. Existen dife rentes scores que describen la probabilidad de un EVALI. Los Centers for Disease Control and Prevention (CDC), pro pusieron en 2019 una definición de caso confirmado de EVALI basado en la exposición al vapeo, las imágenes, la presentación clínica y los antecedentes. La primera notificación de un caso de EVALI en la Argentina fue en el año 2019. Es importante conocer los criterios diagnós ticos para poder iniciar un tratamiento preciso y precoz, considerando el aumento exponencial del uso de ciga rrillo electrónico, principalmente en la población joven.

Abstract Vaping is the practice of inhaling an aerosol cre ated by heating a liquid with an electronic cigarette. These aerosols contain toxic, carcinogenic compounds and nicotine, an addictive substance. In Argentina, the commercialization of electronic cigarettes is prohibited. Acute lung injury associated with vaping (EVALI) is an acute respiratory disease that can be life threatening. An 18-year-old male patient, smoker, consulted for shortness of breath and fever. He presented with hypox emic respiratory failure, and leukocytosis. The patient reported use of electronic cigarettes. Chest computed tomography (CT) showed extensive areas of ground glass opacities with areas of consolidation with air bronchogram. Antibiotic treatment was started and a fibrobronchoscopy was performed, which showed he matic debris, without endoluminal lesions. A diagnosis of EVALI was done and high doses systemic corticoste roids were prescribed. The patient evolved favorably, hewas discharged 48 hours after the end of treatment. In the control ambulatory CT was observed an improve ment of the lesions.561 EVALI is an exclusion diagnosis, so it is necessary to rule out infectious diseases and pulmonary inflamma tory processes. There are different scores that describe the probability of EVALI. The Centers for Disease Control and Prevention (CDC), developed in 2019 a definition of confirmed case based on vape exposure, imaging, clinical presentation and history. In 2019 was first reported an EVALI in Argentina. It is important to know the criteria for a confirmed case to initiate accurate and early treat ment, considering the exponential increase in electronic cigarette use, mainly in the young population.

Preserving isohydricity: vertical environmental variability explains Amazon forest water-use strategies.

Increases in hydrological extremes, including drought, are expected for Amazon forests. A fundamental challenge for predicting forest responses lies in identifying ecological strategies which underlie such responses. Characterization of species-specific hydraulic strategies for regulating water-use, thought to be arrayed along an 'isohydric-anisohydric' spectrum, is a widely used approach. However, recent studies have questioned the usefulness of this classification scheme, because its metrics are strongly influenced by environments, and hence can lead to divergent classifications even within the same species. Here, we propose an alternative approach positing that individual hydraulic regulation strategies emerge from the interaction of environments with traits. Specifically, we hypothesize that the vertical forest profile represents a key gradient in drought-related environments (atmospheric vapor pressure deficit, soil water availability) that drives divergent tree water-use strategies for coordinated regulation of stomatal conductance (gs) and leaf water potentials (ΨL) with tree rooting depth, a proxy for water availability. Testing this hypothesis in a seasonal eastern Amazon forest in Brazil, we found that hydraulic strategies indeed depend on height-associated environments. Upper canopy trees, experiencing high vapor pressure deficit (VPD), but stable soil water access through deep rooting, exhibited isohydric strategies, defined by little seasonal change in the diurnal pattern of gs and steady seasonal minimum ΨL. In contrast, understory trees, exposed to less variable VPD but highly variable soil water availability, exhibited anisohydric strategies, with fluctuations in diurnal gs that increased in the dry season along with increasing variation in ΨL. Our finding that canopy height structures the coordination between drought-related environmental stressors and hydraulic traits provides a basis for preserving the applicability of the isohydric-to-anisohydric spectrum, which we show here may consistently emerge from environmental context. Our work highlights the importance of understanding how environmental heterogeneity structures forest responses to climate change, providing a mechanistic basis for improving models of tropical ecosystems.

[Lung injury associated with vaping: A case report]. / Lesión pulmonar asociada al vapeo: informe de un caso.

Vaping is the practice of inhaling an aerosol created by heating a liquid with an electronic cigarette. These aerosols contain toxic, carcinogenic compounds and nicotine, an addictive substance. In Argentina, the commercialization of electronic cigarettes is prohibited. Acute lung injury associated with vaping (EVALI) is an acute respiratory disease that can be life threatening. An 18-year-old male patient, smoker, consulted for shortness of breath and fever. He presented with hypoxemic respiratory failure, and leukocytosis. The patient reported use of electronic cigarettes. Chest computed tomography (CT) showed extensive areas of ground glass opacities with areas of consolidation with air bronchogram. Antibiotic treatment was started and a fibrobronchoscopy was performed, which showed hematic debris, without endoluminal lesions. A diagnosis of EVALI was done and high doses systemic corticosteroids were prescribed. The patient evolved favorably, hewas discharged 48 hours after the end of treatment. In the control ambulatory CT was observed an improvement of the lesions. EVALI is an exclusion diagnosis, so it is necessary to rule out infectious diseases and pulmonary inflammatory processes. There are different scores that describe the probability of EVALI. The Centers for Disease Control and Prevention (CDC), developed in 2019 a definition of confirmed case based on vape exposure, imaging, clinical presentation and history. In 2019 was first reported an EVALI in Argentina. It is important to know the criteria for a confirmed case to initiate accurate and early treatment, considering the exponential increase in electronic cigarette use, mainly in the young population.

El vapeo es la práctica de inhalar un aerosol creado al calentar un líquido con cigarrillo electrónico. Estos aerosoles contienen tóxicos, compuestos cancerígenos y nicotina, sustancia adictiva. En nuestro país está prohibida la comercialización del cigarrillo electrónico. La lesión pulmonar aguda asociada al vapeo (EVALI) es una enfermedad respiratoria aguda potencialmente mortal. Se presenta el caso de un varón de 18 años, tabaquista, que consultó por falta de aire y fiebre. Presentaba insuficiencia respiratoria hipoxémica y leucocitosis, refiriendo reciente inicio de utilización de cigarrillo electrónico. En la tomografía computarizada de tórax (TC) se observaban extensas áreas en "vidrio esmerilado" bilaterales y áreas de consolidación con broncograma aéreo. Se inició tratamiento antibiótico y se realizó una fibrobroncoscopia que mostró restos hemáticos sin lesiones endoluminales. Se interpretó como EVALI y se indicaron corticoides sistémicos. El paciente evolucionó favorablemente y egresó a las 48 h de finalizado el tratamiento. En TC de control se observó mejoría de las lesiones. El diagnóstico de EVALI es de exclusión. Existen diferentes scores que describen la probabilidad de un EVALI. Los Centers for Disease Control and Prevention (CDC), propusieron en 2019 una definición de caso confirmado de EVALI basado en la exposición al vapeo, las imágenes, la presentación clínica y los antecedentes. La primera notificación de un caso de EVALI en la Argentina fue en el año 2019. Es importante conocer los criterios diagnósticos para poder iniciar un tratamiento preciso y precoz, considerando el aumento exponencial del uso de cigarrillo electrónico, principalmente en la población joven.

The stomatal response to vapor pressure deficit drives the apparent temperature response of photosynthesis in tropical forests.

As temperature rises, net carbon uptake in tropical forests decreases, but the underlying mechanisms are not well understood. High temperatures can limit photosynthesis directly, for example by reducing biochemical capacity, or indirectly through rising vapor pressure deficit (VPD) causing stomatal closure. To explore the independent effects of temperature and VPD on photosynthesis we analyzed photosynthesis data from the upper canopies of two tropical forests in Panama with Generalized Additive Models. Stomatal conductance and photosynthesis consistently decreased with increasing VPD, and statistically accounting for VPD increased the optimum temperature of photosynthesis (Topt) of trees from a VPD-confounded apparent Topt of c. 30-31°C to a VPD-independent Topt of c. 33-36°C, while for lianas no VPD-independent Topt was reached within the measured temperature range. Trees and lianas exhibited similar temperature and VPD responses in both forests, despite 1500 mm difference in mean annual rainfall. Over ecologically relevant temperature ranges, photosynthesis in tropical forests is largely limited by indirect effects of warming, through changes in VPD, not by direct warming effects of photosynthetic biochemistry. Failing to account for VPD when determining Topt misattributes the underlying causal mechanism and thereby hinders the advancement of mechanistic understanding of global warming effects on tropical forest carbon dynamics.

A medida que aumenta la temperatura, disminuye la absorción neta de carbono en los bosques tropicales, sin embargo, aún no se conocen bien los mecanismos que la subyacen. Las altas temperaturas pueden limitar la fotosíntesis directamente, por ejemplo, reduciendo la eficiencia de los procesos bioquímicos, pero también de forma indirecta a través del aumento del déficit de presión de vapor (DPV) que resulta en el cierre estomático. Para explorar los efectos independientes de la temperatura y el DPV en la fotosíntesis, analizamos datos de la absorción neta de carbono del dosel de dos bosques tropicales en Panamá utilizando modelos aditivos generalizados. La conductancia estomática y la fotosíntesis disminuyó consistentemente con el aumento de DPV, y considerando el DPV en modelas estadísticas, la temperatura óptima de la fotosíntesis (Topt) aumentó, de un Topt aparente influida por la DVP de c. 30­31°C a un Topt independiente del DPV de c. 33­36°C. Los árboles y las lianas mostraron respuestas similares a la temperatura y a la DVP en ambos bosques, a pesar de la diferencia de 1500 mm en la precipitación media anual. La fotosíntesis en los bosques tropicales está limitada en gran medida por los efectos indirectos del aumento de la temperatura, a través de cambios en el DPV y no por los efectos directos en los procesos bioquímicos. Si no se tiene en cuenta el DPV al determinar el Topt, se atribuye erróneamente el mecanismo causal subyacente y, por lo tanto, se obstaculiza el avance en la comprensión de los efectos del calentamiento global en la dinámica del carbono.

Carvacrol and thymol effect in vapor phase on Escherichia coli and Salmonella serovar Typhimurium growth inoculated in a fresh salad.

This study aimed to evaluate the antimicrobial effect of thymol and carvacrol in inhibiting Escherichia coli and Salmonella serovar Typhimurium inoculated on a fresh green salad through the vapor phase. A film-forming solution was prepared by dissolving starch, sorbitol, and variying concentrations of carvacrol, thymol, and a mixture of both. The film-forming solution containing the respective antimicrobial agent was then added lid, which was sealed rigidly and hermetically to achieve different concentrations (105 mg/L of air of carvacrol, 105 mg/L of air of thymol, and a mixture of 52 mg/L of air of carvacrol and 52 mg/L of air of thymol). Each active package contained fresh green salad inoculated with E. coli or Salmonella serovar Typhimurium. The active packages were then sealed and refrigerated at a temperature of 6 °C for 48 h. Growth/inhibition curves were modelled using the Weibull equation, and consumer acceptance was evaluated. Carvacrol can reduce up to 0.5 log-cycles, while thymol can reach almost 1 log cycle. Blending the components with half the concentration has a synergistic effect, inhibiting up to 2.5 log cycles. Consumer ratings revealed no significant differences between the packages. However, the average score was 5.4 on a 9-point hedonic scale, evaluators' comments did not indicate dislike or a strong taste characteristic of thymol and carvacrol.

Evaluation of the CH4/CO2 separation by adsorption on coconut shell activated carbon: Impact of the gas moisture on equilibrium selectivity and adsorption capacity.

Upgrading biogas to biomethane is of great interest to change the energy matrix by feeding the renewable fuel produced from biomass waste into natural gas grids or directly using it to replace fossil fuels. The study aimed to assess the adsorption equilibrium of CH4, CO2, and H2O on a coconut-shell activated carbon (CAC 8X30) to provide data for further studies on its efficiency in upgrading biogas by Pressure Swing Adsorption (PSA). The adsorbent was characterized, and equilibrium parameters were estimated from monocomponent CH4, CO2, and H2O equilibrium isotherms. Binary and ternary equilibrium isotherms were simulated, and the selectivity and adsorption capacity of the CAC 8X30 were calculated in dry and wet conditions and then compared with zeolite 13X as a reference material. Regarding characterization, Nitrogen and Hydrogen Physisorption results indicated that 94 % of the pore volume is concentrated in the region of micropores. The adsorption affinity with CAC 8X30 estimated from monocomponent isotherms was in the order KH20>KCO2>KCH4. IAST-Langmuir model simulations presented good agreement with experimental binary equilibrium data. Further simulations indicated equilibrium selectivity for CO2 over CH4 (e.g., 4.7 at 1 bar and 298 K for a mixture of CH4/CO2, 60/40 vol%), which increased in the presence of moisture, indicating its suitability for upgrading humid biogas. Simulations for zeolite 13X suggested that the material is unsuitable in the presence of water vapor but presents higher selectivity than the CAC 8X30 in dry conditions. Hence, the integration of both materials might be helpful for biogas upgrading.

Development of a green and low-cost method to determine mercury content in sediments affected by oil spill on the Brazilian coast.

Tons of crude oil were found on the Brazilian coast in 2019, and studies assessing its chemical composition are still scarce. This study aimed to develop a new and simple technique of cold vapor generation using infrared irradiation coupled with atomic absorption spectrometry to determine mercury content in sediments contaminated by crude oil. Experimental conditions were evaluated, including formic acid concentration, reactor temperature, and carrier gas flow rate. The accuracy of the method was validated by comparison with mercury contents in a certified reference material (PACS-2). The detection limit was found to be 0.44 µg kg-1. The developed method was applied to determine the total mercury content in marine sediment samples collected from beaches in Ceará State. Mercury concentrations ranged from 0.41 to 0.95 mg kg-1. The proposed method is efficient, simple, low-cost, and adequate for its purpose.

Prediction of the Physical-Mechanical Properties of Roller-Compacted Concrete Pavements under Different Service and Mix Conditions Based on Cement and Water Content.

Roller-compacted concrete (RCC) for pavements has experienced problems with its physical-mechanical performance over extended periods due to ambient and in situ curing conditions. Accordingly, this study aimed to present multiple regression equations for calculating the physical-mechanical properties of RCC for pavements under different service and mix conditions. For this purpose, the research included two cement and two water contents, one reduced with admixture, and four combinations of temperature and relative humidity. For model calibration and definition of the equations, cubic and beam samples were fabricated to carry out physical-mechanical tests, such as moisture content, shrinkage, and modulus of rupture. Laboratory-obtained data were studied with the Response Surface Methodology (RSM) to determine the best regression equations. The main findings determined that the behavior of a mixture of RCC at a prolonged ambient exposure time is possible because the surface models and the RSM were consistent with the different service and mix conditions. The models showed an accuracy of 98.99% in detecting shrinkage changes from 12 to 16% cement with 5.65% water in dry to wet ambient conditions. Similarly, moisture content and modulus of rupture had a 98.27 to 98.88% fit. Finally, the drying shrinkage, with mixes of 12% cement and water content variations with water-reducing admixture and superplasticizer effects, had an adjustment of 94.87%.

The Synthesis of Sponge-like V2O5/CNT Hybrid Nanostructures Using Vertically Aligned CNTs as Templates.

The fabrication of sponge-like vanadium pentoxide (V2O5) nanostructures using vertically aligned carbon nanotubes (VACNTs) as a template is presented. The VACNTs were grown on silicon substrates by chemical vapor deposition using the Fe/Al bilayer catalyst approach. The V2O5 nanostructures were obtained from the thermal oxidation of metallic vanadium deposited on the VACNTs. Different oxidation temperatures and vanadium thicknesses were used to study the influence of these parameters on the stability of the carbon template and the formation of the V2O5 nanostructures. The morphology of the samples was analyzed by scanning electron microscopy, and the structural characterization was performed by Raman, energy-dispersive X-ray, and X-ray photoelectron spectroscopies. Due to the catalytic properties of V2O5 in the decomposition of carbonaceous materials, it was possible to obtain supported sponge-like structures based on V2O5/CNT composites, in which the CNTs exhibit an increase in their graphitization. The VACNTs can be removed or preserved by modulating the thermal oxidation process and the vanadium thickness.

QSPR predicting the vapor pressure of pesticides into high/low volatility classes.

In this work, the vapor pressure of pesticides is employed as an indicator of their volatility potential. Quantitative Structure-Property Relationship models are established to predict the classification of compounds according to their volatility, into the high and low binary classes separated by the 1-mPa limit. A large dataset of 1005 structurally diverse pesticides with known experimental vapor pressure data at 20 °C is compiled from the publicly available Pesticide Properties DataBase (PPDB) and used for model development. The freely available PaDEL-Descriptor and ISIDA/Fragmentor molecular descriptor programs provide a large number of 19,947 non-conformational molecular descriptors that are analyzed through multivariable linear regressions and the Replacement Method technique. Through the selection of appropriate molecular descriptors of the substructure fragment type and the use of different standard classification metrics of model's quality, the classification of the structure-property relationship achieves acceptable results for discerning between the high and low volatility classes. Finally, an application of the obtained QSPR model is performed to predict the classes for 504 pesticides not having experimentally measured vapor pressures.

Scanning Tunneling Spectroscopy Method for the Prediction of Semiconductor Heterojunction Performance as a Prequel for Device Development.

The prediction of semiconductor device performance is a persistent challenge in materials science, and the ability to anticipate useful specifications prior to construction is crucial for enhancing the overall efficiency. In this study, we investigate the constituents of a solar cell by employing scanning tunneling microscopy (STM) and spectroscopy (STS). Through our observations, we identify a spatial distribution of the dopant type in thin films of materials that were designed to present major p-doping for germanium sulfide (GeS) and dominant n-doping for tin disulfide (SnS2). By generating separate STS maps for each semiconductor film and conducting a statistical analysis of the gap and doping distribution, we determine intrinsic limitations for the solar cell efficiency that must be understood prior to processing. Subsequently, we fabricate a solar cell utilizing these materials (GeS and SnS2) via vapor phase deposition and carry out a characterization using standard J-V curves under both dark/illuminated irradiance conditions. Our devices corroborate the expected reduced efficiency due to doping fluctuation but exhibit stable photocurrent responses. As originally planned, quantum efficiency measurements reveal that the peak efficiency of our solar cell coincides with the range where the standard silicon solar cells sharply decline. Our STS method is suggested as a prequel to device development in novel material junctions or deposition processes where fluctuations of doping levels are retrieved due to intrinsic material characteristics such as the occurrence of defects, roughness, local chemical segregation, and faceting or step bunching.

Obtention and Study of Polyurethane-Based Active Packaging with Curcumin and/or Chitosan Additives for Fruits and Vegetables-Part I: Analysis of Morphological, Mechanical, Barrier, and Migration Properties.

Several polyurethane-formulated films with curcumin and/or chitosan additives for food packaging have been previously obtained. The study examines the effect of the additives on the film's morphological, mechanical, barrier, and migration properties. Fourier-transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), water contact angle, thermogravimetric and differential thermal analysis (TGA and DTGA), differential scanning calorimetry (DSC), dynamic mechanical thermal analysis (DMTA), oxygen transmission rate (OTR), water vapor transmission rate (WVTR), and the overall and specific migration tests were conducted. The results show that the presence of chitosan significantly increased the overall migration and mechanical properties, such as the elongation at break, tensile strength, and Young's modulus of most polyurethane formulations, while curcumin had a minor influence on the mechanical performance. Based on the results, formulations with curcumin but without chitosan are suitable for food packaging.

Antimicrobial Activity of Essential Oils in Vapor Phase In Vitro and Its Application in Combination with Lactic Acid to Improve Chicken Breast Shelf Life.

The effect of essential oils (EOs) incorporated in their vapor phase combined with lactic acid immersion pretreatment was studied on fresh refrigerated chicken breast shelf life. Among the several EOs assayed, the in vitro results obtained from the vapor diffusion test allowed mustard, oregano, and garlic EOs to be selected due to their higher antimicrobial activity. In addition, it was possible to determine the EO minimum inhibitory concentrations against Pseudomonas aeruginosa and Escherichia coli and to identify EO binary mixtures showing synergistic or additive effects. Based on the obtained results, a ternary mixture constituted by 0.073, 0.292, and 0.146 µL/mL of headspace of mustard, oregano, and garlic, respectively, was proposed for its application to chicken breasts. The ternary mixture inhibitory action was confirmed in vitro against P. aeruginosa and E. coli. Furthermore, the presence of numerous compounds with recognized antimicrobial and antioxidant activity was found in its volatile phase through gas chromatography. When applying an EO mixture in its vapor phase in combination with 1.0% v/v of lactic acid immersion pretreatment on refrigerated chicken breast, a decrease in mesophilic microorganisms' growth rate as well as in lipid oxidation was observed. Moreover, in a preliminary sensory test, the treated chicken breast was found to be acceptable to consumers and showed no significant differences compared to untreated chicken. In conclusion, the combined use of lactic acid immersion and EOs in their vapor phase was an effective alternative to increase chicken breast shelf life.

Dusting efficacy between the regular setting of holmium laser (Ho:YAG) versus Vapor Tunnel pulse modality for non-complex kidney stones.

The new pulse modality Vapor-Tunnel™ (VT) consists of a very long pulse that uses the minimum peak power, causing the energy to pass through a previously created vapor channel or tunnel. The first part of the pulse creates a vapor channel, whereas the remaining energy is discharged immediately after, passing straight through the previously created tunnel. The aim of this study is to compare the dusting efficacy between Ho:YAG laser with long pulse and Ho:YAG laser with VT for non-complex kidney stones. A retrospective comparative study of 236 patients who underwent retrograde intrarenal surgery using Ho:YAG laser (long pulse vs. VT) was performed. Stone size, stone density, laser settings, laser emission time, and total operative time were recorded. We also assessed the lithotripsy efficacy (J/mm3). The stone-free rate was defined as the absence of stone fragments in a non-contrast abdominal computed tomography 4 weeks after the procedure. A total of 118 patients were included in each group. There was no significant difference in age, gender, and body mass index. Median stone volume (737 mm3 vs. 636 mm3) and stone density (788 HU vs. 656 HU) were higher in the VT group. Total energy used (14.5 J vs. 18.2 J), the laser emission time (20 min vs. 26 min), and the total operative time (79.5 min vs. 95 min) were significantly lower in the VT group. The stone-free rate was comparable between both groups (74.5% for VT and 66.1% for the long-pulse group, p = 0.15). When we evaluated the efficacy of laser lithotripsy, a significantly lower difference was obtained in the VT group (median 12.5 J/mm3 vs. median 23.1 J/mm3). The VT pulse modality was associated with decreased laser time and operative time. Additionally, it increased lithotripsy efficacy compared to Ho:YAG long pulse laser, but with a comparable free-stone rate.

Efectos nocivos del cigarrillo electrónico para la salud humana. Una revisión / Harmful effects of electronic cigarette on human health. A review

El cigarrillo electrónico es un dispositivo electrónico capaz de liberar nicotina y algunas otras sustancias toxicas y carcinogénicas, sin embargo, existen dispositivos que no generan nicotina llamados Sistemas Electrónicos Sin Suministro de Nicotina (SSSN). Fue creado en el 2003 en China y posteriormente se ha ido comercializando en el resto del mundo, con diferentes generaciones y marcas del dispositivo. En realidad, existe una falsa percepción frente a este cigarrillo, porque no se ve expuesto a los efectos dañinos que tiene el cigarrillo de tabaco, lo que aumenta su uso en población adolescente quienes además se ven atraídos por la forma, los saborizantes y el color del dispositivo, volviéndolo incluso más aceptado socialmente. Además, existen países que aún no cuentan con políticas y normas para la comercialización del cigarrillo electrónico; razón por la cual el uso de este dispositivo es cada vez mayor. El dispositivo se comercializa con la idea de que es una herramienta eficaz para dejar de fumar, pero en realidad faltan estudios que avalen dicha información. Es muy importante que los usuarios de dichos dispositivos conozcan y sean conscientes de las enfermedades atribuibles a los compuestos tóxicos de los cigarrillos electrónicos. Este artículo es una adaptación del trabajo de grado presentado para la Maestría en Drogodependencia de la autora.

The electronic cigarette is an electronic device capable of releasing nicotine and some other toxic and carcinogenic substances. However, they are devices that do not generate nicotine called SSSN. It was created in 2003 in China and has subsequently been marketed in the rest of the world, with different generations and brands of the device. There is a false perception of this cigarette, that it does not expose to the harmful effects of tobacco cigarettes, making it more socially accepted and increasing its use in the adolescent population, who are also attracted by the shape, flavors, and color of the device. In addition, some countries still do not have policies and regulations for the commercialization of electronic cigarettes, another reason for their increased usage. The device is marketed with the idea that it is an effective tool to quit smoking, but currently, more studies are needed to support this information. It is important that the users of such devices know and are aware of the diseases attributable to the toxic compounds of electronic cigarettes. This article is an adaptation of a degree work submitted for a master's degree in Drug Dependence by the author.

Total mercury and fatty acids content in selected fish marketed in Quito - Ecuador. A benefit-risk assessment.

Total mercury and fatty acids contents were determined in muscles of croaker, snapper, dolphinfish, blue marlin, and shark, from different markets in the Metropolitan District of Quito, Ecuador. Fifty-five samples were collected and analyzed for total mercury using cold vapor atomic fluorescence spectrometry, and the fatty acids were analyzed using gas chromatography equipped with a flame ionization detector. The lowest total mercury levels were found in snapper [0.041 µg·g-1 wet weight (ww)] while blue marlin showed the highest (5.883 µg·g-1 ww). EPA + DHA ranged from 1.0 mg·g-1 in snapper to 2.4 mg·g-1 in shark. A high omega-3/omega-6 ratio was found for all fish types; however, the HQEFA for the benefit-risk ratio was above 1, suggesting an evident risk to human health. Based on our results, consumption of croaker and dolphinfish is recommended up to one serving per week, considering the importance of EFAs intake and avoiding fish with elevated MeHg content. Therefore, Ecuadorian authorities could enhance public standards for seafood safety and develop consumer advice for pregnant women and young children to determine good fish choices or those to avoid.

CVD Growth of Hematite Thin Films for Photoelectrochemical Water Splitting: Effect of Precursor-Substrate Distance on Their Final Properties.

The development of photoelectrode materials for efficient water splitting using solar energy is a crucial research topic for green hydrogen production. These materials need to be abundant, fabricated on a large scale, and at low cost. In this context, hematite is a promising material that has been widely studied. However, it is a huge challenge to achieve high-efficiency performance as a photoelectrode in water splitting. This paper reports a study of chemical vapor deposition (CVD) growth of hematite nanocrystalline thin films on fluorine-doped tin oxide as a photoanode for photoelectrochemical water splitting, with a particular focus on the effect of the precursor-substrate distance in the CVD system. A full morphological, structural, and optical characterization of hematite nanocrystalline thin films was performed, revealing that no change occurred in the structure of the films as a function of the previously mentioned distance. However, it was found that the thickness of the hematite film, which is a critical parameter in the photoelectrochemical performance, linearly depends on the precursor-substrate distance; however, the electrochemical response exhibits a nonmonotonic behavior. A maximum photocurrent value close to 2.5 mA/cm2 was obtained for a film with a thickness of around 220 nm under solar irradiation.

Combining Soil Vapor Extraction and Electrokinetics for the Removal of Hexachlorocyclohexanes from Soil.

This paper focuses on the evaluation of the mobility of four hexachlorocyclohexane (HCH) isomers by soil vapor extraction (SVE) coupled with direct electrokinetic (EK) treatment without adding flushing fluids. SVE was found to be very efficient and remove nearly 70 % of the four HCH in the 15-days of the tests. The application of electrokinetics produced the transport of HCH to the cathode by different electrochemical processes, which were satisfactorily modelled with a 1-D transport equation. The increase in the electric field led to an increase in the transport of pollutants, although 15 days was found to be a very short time for an efficient transportation of the pollutants to the nearness of the cathode. Loss of water content in the vicinity of the cathode warns about the necessity of using electrokinetic flushing technologies instead of simple direct electrokinetics. Thus, results point out that direct electrokinetic treatment without adding flushing fluids produced low current intensities and ohmic heating that contributes negatively to the performance of the SVE process. No relevant differences were found among the removal of the four isomers, neither in SVE nor in EK processes.