Assessment of variations in air quality in cities of Ecuador in relation to the lockdown due to the COVID-19 pandemic

This study analyzes the effect of lockdown due to COVID-19 on the spatiotemporal variability of ozone (O3), sulfur dioxide (SO2), and nitrogen dioxide (NO2) concentrations in different provinces of continental Ecuador using satellite information from Sentinel - 5P. The statistical analysis includes data from 2018 to March 2021 and was performed based on three periods defined a priori: before, during, and after lockdown due to COVID-19, focusing on the provinces with the highest concentrations of the studied gases (hotspots). The results showed a significant decrease in NO2 concentrations during the COVID-19 lockdown period in all the study areas: the Metropolitan District of Quito (DMQ) and the provinces of Guayas and Santo Domingo de los Ts & PRIME;achilas. In the period after lockdown, NO2 concentrations increased by over 20% when compared to the pre-lockdown period, which may be attributable to a shift towards private transportation due to health concerns. On the other hand, SO2 concentrations during the lockdown period showed irregular, non-significant variations; however, increases were observed in the provinces of Chimborazo, Guayas, Santa Elena, and Morona Santiago, which could be partly attributed to the eruptive activity of the Sangay volcano during 2019-2020. Conversely, O3 concentrations increased by 2-3% in the study areas; this anomalous behavior could be attributed to decreased levels of NOx, which react with ozone, reducing its concentration. Finally, satellite data validation using the corresponding data from monitoring stations in the DMQ showed correlation values of 0.9 for O3 data and 0.7 for NO2 data, while no significant correlation was found for SO2.info:eu-repo/semantics/publishedVersio

Cytotoxic and Antiproliferative Effects of Nanomaterials on Cancer Cell Lines: A Review

Cell models for the study of antiproliferative and/or cytotoxic properties of engineered nanoparticles are valuable tools in cancer research. Several techniques and methods are readily available for the study of nanoparticles’ properties regarding selective toxicity and/or antiproliferative effects. Setting up of those techniques, however, needs to be carefully monitored. Harmonization of the wide range of methods available is necessary for assay comparison and replicability. Although individual or core laboratory capabilities play a role in selection and availability of techniques, data arising from cancer cell models are useful in guiding further research. The variety of cell lines available and the diversity of metabolic routes involved in cell responses make in vitro cell models suitable for the study of the biological effect of nanoparticles at the cell level and a valid approach for further in vivo and clinical studies. The present systematic review looks at the in vitro biological effects of different types of nanoparticles in cancer cell models

Ascorbic Acid-assisted Green Synthesis of Silver Nanoparticles: pH and Stability Study

In this chapter, eco-friendly in situ synthesis of silver nanoparticles (AgNPs) using a mixture of ascorbic acid and citric acid is introduced. The synthesis conditions of the AgNPs were optimized by adjusting the pH of the reaction mixture. Different spectroscopic and microscopic techniques have been used to characterize the physico-chemical properties of AgNPs. The synthesis of AgNPs was primarily identified by the appearance of yellow colour and confirmed by showing λmax = 409 nm in UV-visible spectroscopy. All characterization techniques reveal that the generated AgNPs were non-aggregated, quasi-spherical shapes with an average size of 22.4 ± 13.2 nm, and face-centred cubic crystalline structures. Infrared spectroscopy confirms the surface of AgNPs covered with -COOH group and shows peaks at 1733, 1759, 3262 and 3633 cm−1. Moreover, synthesized AgNPs at pH 10 were stable for one month with a slight change in size. A straightforward, facile and environmentally-friendly synthesis of highly stable AgNPs may contribute to future engineering applications

Molecular and Cellular Effects of Hydrogen Peroxide on Human Lung Cancer Cells: Potential Therapeutic Implications

Lung cancer has a very high mortality-to-incidence ratio, representing one of the main causes of cancer mortality worldwide. Therefore, new treatment strategies are urgently needed. Several diseases including lung cancer have been associated with the action of reactive oxygen species (ROS) from which hydrogen peroxide (H2O2) is one of the most studied. Despite the fact that H2O2 may have opposite effects on cell proliferation depending on the concentration and cell type, it triggers several antiproliferative responses. H2O2 produces both nuclear and mitochondrial DNA lesions, increases the expression of cell adhesion molecules, and increases p53 activity and other transcription factors orchestrating cancer cell death. In addition, H2O2 facilitates the endocytosis of oligonucleotides, affects membrane proteins, induces calcium release, and decreases cancer cell migration and invasion. Furthermore, the MAPK pathway and the expression of genes related to inflammation including interleukins, TNF-α, and NF-κB are also affected by H2O2. Herein, we will summarize the main effects of hydrogen peroxide on human lung cancer leading to suggesting it as a potential therapeutic tool to fight this disease. Because of the multimechanistic nature of this molecule, novel therapeutic approaches for lung cancer based on the use of H2O2 may help to decrease the mortality from this malignancy

Detección de Mycobacterium tuberculosis, linaje Beijing, en Ecuador

Introduction: Mycobacterium tuberculosis Beijing lineage isolates are considered to be especially virulent, transmissible and prone to acquire resistances. Beijing strains have been reported worldwide, but studies in Latin America are still scarce. The only multinational study performed in the region indicated a heterogeneous distribution for this lineage, which was absent in Chile, Colombia and Ecuador, although further studies found the lineage in Chile and Colombia.Objective: To search for the presence of the Beijing lineage in Ecuador, the only country in the region where it remains unreported.Materials and methods: We obtained a convenience sample (2006-2012) from two hospitals covering different populations. The isolates were genotyped using 24-MIRU-VNTR. Lineages were assigned by comparing their patterns to those in the MIRU-VNTRplus platform. Isolates belonging to the Beijing lineage were confirmed by allele-specific PCR.Results: We identified the first Beijing isolate in Ecuador in an unexpected epidemiological scenario: A patient was infected in the Andean region, in a population with low mobility and far from the borders of the neighboring countries where Beijing strains had been previously reported.Conclusion: This is the first report of the presence of the Beijing lineage in Ecuador in an unusual epidemiological context that deserves special attention.Introducción. Los aislamientos de Mycobacterium tuberculosis pertenecientes al linaje Beijing se consideran especialmente virulentos y transmisibles, y con mayor tendencia a la adquisición de resistencia. El linaje Beijing se ha reportado en todo el mundo; sin embargo, en Latinoamérica los estudios al respecto son más escasos. En el único estudio multinacional llevado a cabo en la región, se detectó una distribución heterogénea del linaje, y no se le encontró en Chile, Colombia y Ecuador,aunque en estudios nacionales posteriores se identificaron aislamientos en Chile y Colombia.Objetivo. Rastrear la presencia del linaje Beijing de M. tuberculosis en Ecuador, único país en la región en el que aún no se reporta.Materiales y métodos. Se analizó una muestra de conveniencia (2006-2012) en dos hospitales que atendían poblaciones diferentes. La genotipificación de los aislamientos de M. tuberculosis se hizo mediante la plataforma 24-MIRU-VNTR. La asignación de linajes se hizo mediante la comparación de los patrones genotípicos con los incluidos en la plataforma MIRU-VNTRplus, y aquellos pertenecientes al linaje Beijing fueron confirmados mediante reacción en cadena de la polimerasa específica de alelo.Resultados. Se detectó el primer aislamiento Beijing en Ecuador, en una circunstancia epidemiológica inesperada: un paciente de la región andina, proveniente de una comunidad con escasa movilidad y alejada de las fronteras con los países limítrofes, Perú y Colombia, en los que ya se han identificado aislamientos de M. tuberculosis pertenecientes al linaje Beijing.Conclusiones. En este trabajo se reporta por primera vez la presencia del linaje Beijing de M. tuberculosis en Ecuador en un contexto epidemiológico inusual que merece especial atención

Target product profile for a test for the early assessment of treatment efficacy in Chagas disease patients: An expert consensus.

Six to 7 million people are estimated to be infected by Trypanosoma cruzi, the parasite causing Chagas disease. Thirty to 40% of them, i.e., 1.8 to 2.4 million people, will suffer cardiac disorders and/or digestive clinical manifestations if they are not treated early during the course of the infection [1, 2]. However, only a small fraction of patients are properly diagnosed and treated [3]. Current clinical guidelines recommend treating T. cruzi–infected people if they are asymptomatic or present early symptoms of the disease (Table 1) [4, 5]. Benznidazole (BNZ) and nifurtimox (NFX) are the first-line antiparasitic treatments currently available, both with long administration regimens (60 days) that can produce adverse side effects [6–8]. Despite the fact they are not 100% effective in patients with chronic disease [9–12], they are the only drugs currently registered, and the benefits of their administration have been confirmed in several clinical studies. Currently, clinical trials with new compounds, using alternative regimens that aim to maintain efficacy whilst reducing toxicity, are ongoing and could lead to new therapeutic opportunities and/or policy change

Serological reactivity against T. cruzi-derived antigens: Evaluation of their suitability for the assessment of response to treatment in chronic Chagas disease.

Chagas disease, caused by the protozoan Trypanosoma cruzi, affects more than 6 million people worldwide. Following a mostly asymptomatic acute phase, the disease progresses to a long-lasting chronic phase throughout which life-threatening disorders to the heart and/or gastrointestinal tract will manifest in about 30% of those chronically infected. During the chronic phase, the parasitemia is low and intermittent, while a high level of anti-T. cruzi antibodies persist for years. These two features hamper post-chemotherapeutic follow-up of patients with the tools available. The lack of biomarkers for timely assessment of therapeutic response discourages a greater use of the two available anti-parasitic drugs, and complicates the evaluation of new drugs in clinical trials. Herein, we investigated in a blinded case-control study the serological reactivity over time of a group of parasite-derived antigens to potentially address follow up of T. cruzi chronically infected subjects after treatment. We tested PFR2, KMP11, HSP70, 3973, F29 and the InfYnity multiplexed antigenic array, by means of serological assays on a multi-national retrospective collection of samples. Some of the antigens exhibited promising results, underscoring the need for further studies to determine their potential role as treatment response biomarkers.We thank Dr. A. Egui, Dr A. Fernández-Villegas and A. López-Barajas from IPBLNsingle bondCSIC (Granada, Spain), Carme Subirá from ISGlobal (Barcelona, Spain), and Suelene B. N. Tavares from Hospital das Clínicas (Goiás, Brazil) for their technical assistance. We also want to thank Dr. B. Carrilero from Hospital Virgen de la Arrixaca (Murcia, Spain), Dr. Dayse E.C. de Oliveira from Hospital das Clínicas (Goiás, Brazil), and Dr. Raúl Chadi from Hospital General de Agudos “Dr. I. Pirovano” for their clinical follow up of patients. ISGlobal authors thanks the support by the Departament d'Universitats i Recerca de la Generalitat de Catalunya, Spain (AGAUR; 2017SGR00924), funding by the Instituto de Salud Carlos III project PI18/01054 and RICET Network for Cooperative Research in Tropical Diseases (RD12/0018/0010) and FEDER, and the support to ISGlobal from the Spanish Ministry of Science Innovation and Universities through the “Centro de Excelencia Severo Ochoa 2019–2023″ Program (CEX2018–000806-S), and from the Generalitat de Catalunya through the CERCA Program. IPBLN work was financially supported by grants SAF2016–81003-R and SAF2016–80998-R from the Programa Estatal I + D + i (MINECO) and ISCIII RICET (RD16/0027/0005) and FEDER. MJP research is supported by the Ministry of Health, Government of Catalunya (PERIS 2016–2010 SLT008/18/00132). TAJ thanks the support of Conselho Nacional de Pesquisa e Desenvolvimento Tecnologico (CNPq/ 313011/2018–4) and Fundação Oswaldo Cruz/MS (25380.001603/2017–89). Authors also thank Drugs for Neglected Diseases initiative and Fundacion Mundo Sano for financial support. For this project, DNDi received financial support from the following donors: UK Aid, UK; Directorate-General for International Cooperation (DGIS), The Netherlands; Swiss Agency for Development and Cooperation (SDC), Switzerland; Médecins Sans Frontières (MSF), International. The donors had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

Modeling Disease Vector Occurrence when Detection Is Imperfect: Infestation of Amazonian Palm Trees by Triatomine Bugs at Three Spatial Scales

Blood-sucking bugs of the genus Rhodnius are major vectors of Chagas disease. Control and surveillance of Chagas disease transmission critically depend on ascertaining whether households and nearby ecotopes (such as palm trees) are infested by these vectors. However, no bug detection technique works perfectly. Because more sensitive methods are more costly, vector searches face a trade-off between technical prowess and sample size. We compromise by using relatively inexpensive sampling techniques that can be applied multiple times to a large number of palms. With these replicated results, we estimate the probability of failing to detect bugs in a palm that is actually infested. We incorporate this information into our analyses to derive an unbiased estimate of palm infestation, and find it to be about 50% – twice the observed proportion of infested palms. We are then able to model the effects of regional, landscape, and local environmental variables on palm infestation. Individual palm attributes contribute overwhelmingly more than landscape or regional covariates to explaining infestation, suggesting that palm tree management can help mitigate risk locally. Our results illustrate how explicitly accounting for vector, pathogen, or host detection failures can substantially improve epidemiological parameter estimation when perfect detection techniques are unavailable

Biospas proyecto 2 : micorrizas, patógenos, meso-macro-fauna y biocontrol (Pae- pid-2007-0054)

El actual sistema agrícola de Argentina basa la mayor parte de su producción en la siembra directa y una limitada rotación de cultivos. En base a el paradigma de la sustentabilidad se pueden evaluar cambios en la asociación de Hongos Micorrícicos (HM) con raíces de diversos cultivos y las poblaciones presentes en el suelo; la incidencia de enfermedades en el cultivo y los niveles de inóculo presentes en los rastrojos y asimismo la supresividad de los suelos y por consiguiente la presencia de enfermedad de los cultivos y el efecto de control que pudieran proveer las Micorrizas Arbusculares (MA). El planteo de SD versus LT también plantea modificaciones tanto de la estructura del suelo como en el sistema y las comunidades de Meso y Macrofauna (MMF) que en él habitan. La hipótesis de trabajo plantea que la incidencia y severidad de las fitoenfermedades puede disminuirse por la rotación de cultivos y que las poblaciones de hongos micorrícicos se modifican según la secuencia de rotación. Esto a su vez implica que, incidencia y/o severidad de una enfermedad pueden ser modificadas por HM presentes en el suelo. Por otro lado, abundancia y atributos estructurales de la comunidad de MMF del suelo son afectados por los sistemas de manejo. En este proyecto se determinaran morfológica y molecularmente las especies integrantes de las poblaciones de HM en diferentes secuencias de cultivo. Se compararán las poblaciones de HM presentes en el suelo y las poblaciones en simbiosis activa con raíces de los diferentes cultivos. Se caracterizará y comparará cultivo, suelo y rastrojo desde el punto de vista fitopatológico en diferentes esquemas de rotación. Como resultado de esto se determinará la existencia de interacciones entre la incidencia de enfermedades y la presencia de determinadas micorrizas y evaluar el efecto de cada sistema de manejo sobre la abundancia y los atributos estructurales de la comunidad de MMF del suelo.Fil: Ducasse, Daniel Adrián. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; ArgentinaFil: Plazas, María Cristina. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; ArgentinaFil: De Rossi, Roberto Luis. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; ArgentinaFil: Guerra, Gustavo Darío. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; Argentin

Biospas Proyecto 2 : Micorrizas, Patógenos, Meso-Macro-Fauna y Biocontrol (PAE- PID-2007-0054)

El actual sistema agrícola de Argentina basa la mayor parte de su producción en la siembra directa y una limitada rotación de cultivos. En base a el paradigma de la sustentabilidad se pueden evaluar cambios en la asociación de Hongos Micorrícicos (HM) con raíces de diversos cultivos y las poblaciones presentes en el suelo; la incidencia de enfermedades en el cultivo y los niveles de inóculo presentes en los rastrojos y asimismo la supresividad de los suelos y por consiguiente la presencia de enfermedad de los cultivos y el efecto de control que pudieran proveer las Micorrizas Arbusculares (MA). El planteo de SD versus LT también plantea modificaciones tanto de la estructura del suelo como en el sistema y las comunidades de Meso y Macrofauna (MMF) que en él habitan. La hipótesis de trabajo plantea que la incidencia y severidad de las fitoenfermedades puede disminuirse por la rotación de cultivos y que las poblaciones de hongos micorrícicos se modifican según la secuencia de rotación. Esto a su vez implica que, incidencia y/o severidad de una enfermedad pueden ser modificadas por HM presentes en el suelo. Por otro lado, abundancia y atributos estructurales de la comunidad de MMF del suelo son afectados por los sistemas de manejo. En este proyecto se determinaran morfológica y molecularmente las especies integrantes de las poblaciones de HM en diferentes secuencias de cultivo. Se compararán las poblaciones de HM presentes en el suelo y las poblaciones en simbiosis activa con raíces de los diferentes cultivos. Se caracterizará y comparará cultivo, suelo y rastrojo desde el punto de vista fitopatológico en diferentes esquemas de rotación. Como resultado de esto se determinará la existencia de interacciones entre la incidencia de enfermedades y la presencia de determinadas micorrizas y evaluar el efecto de cada sistema de manejo sobre la abundancia y los atributos estructurales de la comunidad de MMF del suelo.Fil: Ducasse, Daniel Adrián. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; ArgentinaFil: Plazas, María Cristina. Universidad Católica de Córdoba. Facultad de Ciencias Agropecuarias; Argentin