Evaluation of metal accumulation in the forage grass Brachiaria decumbens Stapf grown in contaminated soils with iron tailings.

The biggest world tailing dam rupture occurred in Brazil in 2015, releasing approximately 32 million m3 of iron tailings in the Doce River watershed, along its 660 km trajectory, reaching the Atlantic Ocean. This disaster significantly altered water and soil properties, increasing the soil metal contents, mainly iron concentration. Little is known about the concentration of toxic elements in plants grown in these areas. Brachiaria decumbens stands out as the most cultivated grass in the affected areas and is widely used for cattle grazing. This study verified the metal contents in soils and in samples of B. decumbens grown in the initial pathway of the debris flow. It was noted that the tailing deposition altered the substrate chemically, increasing Fe by 181% and reducing Zn soil contents by 188%. However, the metal contents in the forage grass were below the toxic limit for cattle feed. In addition, the results suggest that the natural geological characteristics of the region also influenced the metal contents in plants since those plants grown in nonaffected areas also showed high metal concentrations. The impacted area soils had a slightly basic pH, which can reduce the metal availability. Considering that, in the future, these soils would return to their natural acid state, the metal contents in plants grown in the affected regions could probably increase. Thus, long-term studies are needed to ensure the food safety of the forage production in these areas. Integr Environ Assess Manag 2022;18:528-538. © 2021 SETAC.

Nano-Strategies to Fight Multidrug Resistant Bacteria-"A Battle of the Titans".

Infectious diseases remain one of the leading causes of morbidity and mortality worldwide. The WHO and CDC have expressed serious concern regarding the continued increase in the development of multidrug resistance among bacteria. Therefore, the antibiotic resistance crisis is one of the most pressing issues in global public health. Associated with the rise in antibiotic resistance is the lack of new antimicrobials. This has triggered initiatives worldwide to develop novel and more effective antimicrobial compounds as well as to develop novel delivery and targeting strategies. Bacteria have developed many ways by which they become resistant to antimicrobials. Among those are enzyme inactivation, decreased cell permeability, target protection, target overproduction, altered target site/enzyme, increased efflux due to over-expression of efflux pumps, among others. Other more complex phenotypes, such as biofilm formation and quorum sensing do not appear as a result of the exposure of bacteria to antibiotics although, it is known that biofilm formation can be induced by antibiotics. These phenotypes are related to tolerance to antibiotics in bacteria. Different strategies, such as the use of nanostructured materials, are being developed to overcome these and other types of resistance. Nanostructured materials can be used to convey antimicrobials, to assist in the delivery of novel drugs or ultimately, possess antimicrobial activity by themselves. Additionally, nanoparticles (e.g., metallic, organic, carbon nanotubes, etc.) may circumvent drug resistance mechanisms in bacteria and, associated with their antimicrobial potential, inhibit biofilm formation or other important processes. Other strategies, including the combined use of plant-based antimicrobials and nanoparticles to overcome toxicity issues, are also being investigated. Coupling nanoparticles and natural-based antimicrobials (or other repurposed compounds) to inhibit the activity of bacterial efflux pumps; formation of biofilms; interference of quorum sensing; and possibly plasmid curing, are just some of the strategies to combat multidrug resistant bacteria. However, the use of nanoparticles still presents a challenge to therapy and much more research is needed in order to overcome this. In this review, we will summarize the current research on nanoparticles and other nanomaterials and how these are or can be applied in the future to fight multidrug resistant bacteria.

Análise comparativa de três tipos de válvulas anti-refluxo associada à cirurgia de heller: estudo experimental em cães / Comparative analysis between three types of anti-reflux valves associated with heller's surgery: experimental study in dogs

OBJETIVO: Comparar experimentalmente, em cães, três técnicas de esofagogastrofundoplicatura - anterior, posterior e lateral - após cardiomiotomia ampla. MÉTODO: Os animais foram separados aleatoriamente em quatro grupos: Grupo A: Válvula anti-refluxo anterior (n=5); Grupo P: válvula anti-refluxo posterior (n=5); Grupo L: Válvula anti-refluxo lateral (n=5); Grupo C: Grupo controle, no qual não foi realizado nenhum tipo de fundoplicatura após a cardiomiotomia (n=10). A avaliação pré-operatória foi realizada através de endoscopia, biópsia da mucosa gastroesofágica, pHmetria e manometria esofágica. Após cinco semanas, realizou-se reavaliação, baseada em dados endoscópicos, pHmétricos, manométricos e histopatológicos. Os animais foram mortos e os segmentos esofagogástricos retirados para exame histopatológico RESULTADOS: Ao exame histopatológico detectou-se esofagite em todos os casos do grupo controle e em nove casos dos grupos com válvulas, e nestes, quando presente, a esofagite foi de menor extensão e de grau menos avançado do que no grupo controle. Através da manometria pré e pós-operatória, observou-se que: 1) o grupo controle apresentou uma redução na pressão na ZAP de 39,2mmHg para 23,4mmHg; 2) os grupos A, P, e L apresentaram uma variação da ZAP de 39,7, 39,9 e 39,7mmHg para 40,9, 44,8 e 41,3mmHg, respectivamente. CONCLUSÕES: 1) A cardiomiotomia ampla provoca refluxo gastroesofágico e conseqüente esofagite; 2) As três válvulas anti-refluxo estudadas restauram o segmento de alta pressão e diminuem a incidência de refluxo e de esofagite.

OBJECTIVE: To compare three techniques of esophagogastrofundoplication - anterior, posterior and lateral-post cardiomyotomy, in dogs. METHOD: Pre-operative assessment included esophagoscopy plus biopsy of the mucosa, pH determination and manometry. The animals were divided into four groups: Group A: anterior anti-reflux valve (n=5); group P: posterior valve (n=5); Group L: lateral valve (n=5); Group C: control group, no fundoplication (n=10). After five weeks, the animals were submitted to endoscopy plus biopsy, pHmetric and manometric examinations and histopathological analysis. RESULTS: Histophatological examination detected esophagitis in every case of the control group and in nine cases of the groups with fundoplication. When present, esophagitis was milder in the valve groups than in the control group. The average value of the pressure in high pressure zone (HPZ) detected by manometric examination in the control group, was significantly reduced after cardiomyotomy (39,2 to 23.4mmHg). In the groups with fundoplication, there was no significant difference between preoperative and postoperative mean values of the HPZ pressure. The values detected preoperatively in groups A, P and L were 39.7, 39.9, and 39.7mmHg respectively and 40.9, 44.8 and 41.3 mmHg postoperatively. CONCLUSIONS: 1) cardiomyotomy causes gastroesophageal reflux and esophagitis; 2) any type of fundoplication valve, added to the myotomy, restores the lenght and the pressure of the HPZ=ZAP and reduces the incidence of reflux and esophagitis.