Quantification and viability analyses of Pseudokirchneriella subcapitata algal cells using image-based cytometry

This work aims to evaluate the feasibility of using image-based cytometry (IBC) in the analysis of algal cell quantification and viability, using Pseudokirchneriella subcapitata as a cell model. Cell concentration was determined by IBC to be in a linear range between 1 × 105 and 8 × 106 cells mL−1. Algal viability was defined on the basis that the intact membrane of viable cells excludes the SYTOX Green (SG) probe. The disruption of membrane integrity represents irreversible damage and consequently results in cell death. Using IBC, we were able to successfully discriminate between live (SG-negative cells) and dead algal cells (heat-treated at 65 °C for 60 min; SG-positive cells). The observed viability of algal populations containing different proportions of killed cells was well correlated (R 2 = 0.994) with the theoretical viability. The validation of the use of this technology was carried out by exposing algal cells of P. subcapitata to a copper stress test for 96 h. IBC allowed us to follow the evolution of cell concentration and the viability of copper-exposed algal populations. This technology overcomes several main drawbacks usually associated with microscopy counting, such as labour-intensive experiments, tedious work and lack of the representativeness of the cell counting. In conclusion, IBC allowed a fast and automated determination of the total number of algal cells and allowed us to analyse viability. This technology can provide a useful tool for a wide variety of fields that utilise microalgae, such as the aquatic toxicology and biotechnology fields.

Effects of Chlorophenoxy Herbicides and Their Main Transformation Products on DNA Damage and Acetylcholinesterase Activity

Persistent pesticide transformation products (TPs) are increasingly being detected among different environmental compartments, including groundwater and surface water. However, there is no sufficient experimental data on their toxicological potential to assess the risk associated with TPs, even if their occurrence is known. In this study, the interaction of chlorophenoxy herbicides (MCPA, mecoprop, 2,4-D and dichlorprop) and their main transformation products with calf thymus DNA by UV-visible absorption spectroscopy has been assessed. Additionally, the toxicity of the chlorophenoxy herbicides and TPs was also assessed evaluating the inhibition of acetylcholinesterase activity. On the basis of the results found, it seems that AChE is not the main target of chlorophenoxy herbicides and their TPs. However, the results found showed that the transformation products displayed a higher inhibitory activity when compared with the parent herbicides. The results obtained in the DNA interaction studies showed, in general, a slight effect on the stability of the double helix. However, the data found for 4-chloro-2-methyl-6-nitrophenol suggest that this transformation product can interact with DNA through a noncovalent mode.

Protective effect of C. sativa leaf extract against UV mediated-DNA damage in a human keratinocyte cell line

Toxic effects of ultraviolet (UV) radiation on skin include protein and lipid oxidation, and DNA damage. The latter is known to play a major role in photocarcinogenesis and photoaging. Many plant extracts and natural compounds are emerging as photoprotective agents. Castanea sativa leaf extract is able to scavenge several reactive species that have been associated to UV-induced oxidative stress. The aim of this work was to analyze the protective effect of C. sativa extract (ECS) at different concentrations (0.001, 0.01, 0.05 and 0.1 μg/mL) against the UV mediated-DNA damage in a human keratinocyte cell line (HaCaT). For this purpose, the cytokinesis-block micronucleus assay was used. Elucidation of the protective mechanism was undertaken regarding UV absorption, influence on 1O2 mediated effects or NRF2 activation. ECS presented a concentration-dependent protective effect against UV-mediated DNA damage in HaCaT cells. The maximum protection afforded (66.4%) was achieved with the concentration of 0.1 μg/mL. This effect was found to be related to a direct antioxidant effect (involving 1O2) rather than activation of the endogenous antioxidant response coordinated by NRF2. Electrochemical studies showed that the good antioxidant capacity of the ECS can be ascribed to the presence of a pool of different phenolic antioxidants. No genotoxic or phototoxic effects were observed after incubation of HaCaT cells with ECS (up to 0.1 μg/mL). Taken together these results reinforce the putative application of this plant extract in the prevention/minimization of UV deleterious effects on skin.

Strength and damage analysis of composite-aluminium adhesively-bonded single-lap joints

With the need to find an alternative way to mechanical and welding joints, and at the same time to overcome some limitations linked to these traditional techniques, adhesive bonds can be used. Adhesive bonding is a permanent joining process that uses an adhesive to bond the components of a structure. Composite materials reinforced with fibres are becoming increasingly popular in many applications as a result of a number of competitive advantages. In the manufacture of composite structures, although the fabrication techniques reduce to the minimum by means of advanced manufacturing techniques, the use of connections is still required due to the typical size limitations and design, technological and logistical aspects. Moreover, it is known that in many high performance structures, unions between composite materials with other light metals such as aluminium are required, for purposes of structural optimization. This work deals with the experimental and numerical study of single lap joints (SLJ), bonded with a brittle (Nagase Chemtex Denatite XNRH6823) and a ductile adhesive (Nagase Chemtex Denatite XNR6852). These are applied to hybrid joints between aluminium (AL6082-T651) and carbon fibre reinforced plastic (CFRP; Texipreg HS 160 RM) adherends in joints with different overlap lengths (LO) under a tensile loading. The Finite Element (FE) Method is used to perform detailed stress and damage analyses allowing to explain the joints’ behaviour and the use of cohesive zone models (CZM) enables predicting the joint strength and creating a simple and rapid design methodology. The use of numerical methods to simulate the behaviour of the joints can lead to savings of time and resources by optimizing the geometry and material parameters of the joints. The joints’ strength and failure modes were highly dependent on the adhesive, and this behaviour was successfully modelled numerically. Using a brittle adhesive resulted in a negligible maximum load (Pm) improvement with LO. The joints bonded with the ductile adhesive showed a nearly linear improvement of Pm with LO.

Proposta de solução de videovigilância para locais remotos

Desde tempos remotos que homens faziam a vigilância de bens e mercadorias e mais recentemente também de pessoas com o intuito de dissuadir roubos, atos de vandalismo e de violência. Nos últimos anos, com a evolução das novas tecnologias verificou-se a sua adoção para auxílio da vigilância. Os atos de terrorismo que têm acontecido um pouco por todo o mundo trouxeram um clima de insegurança à população mundial. Este fenómeno, juntamente com o elevado número de roubos e atos de violência levou à expansão de utilização dos meios de videovigilância de forma a dissuadir estes tipos de crime podendo mesmo, nalguns casos servir como prova para punir os autores dos mesmos. Em Portugal tem-se verificado uma escalada de crimes nas zonas mais rurais não só de bens como as alfaias agrícolas mas também de frutos e mesmo de animais. Estes crimes predominam em locais rurais, relativamente distantes das povoações e em locais onde não existem (ou são praticamente inexistentes) infraestruturas necessárias para implementar meios de videovigilância como a falta de rede elétrica e internet o que torna quase inviável a existência de sistemas de videovigilância nesses locais. Dotar esses locais das infra estruturas necessárias poderia tornar-se demasiado dispendioso e os vigilantes humanos poderiam correr riscos no meio dos montes ou noutros locais remotos para além dos seus elevados custos. Para além do problema dos roubos, existe um outro flagelo relacionado com os incêndios na floresta portuguesa, que todos os anos é dizimada pelo fogo devido a incêndios que surgem na sua maioria causados pelo homem sendo uma parte significativa os de origem criminosa. Para dar resposta a estes problemas e no sentido de vigiar e dissuadir estes tipos de crimes, iniciamos um estudo que pretende propor um protótipo de um sistema de videovigilância para locais remotos (SVR - Sistema de Videovigilância Remota) de baixo custo de forma a diminuir o número de crimes e assim minimizar os prejuízos económico e sociais causados pelos mesmos. Pretendemos estudar o problema e analisar tecnologias com potencial para propor uma solução que possa auxiliar a vigilância nesse tipo de locais com o pressuposto de poder vir a contribuir para a diminuição deste tipo de crimes devido ao seu efeito dissuasor pelo facto de se poder divulgar que estes locais já têm uma solução de vigilância oculta. A solução proposta contempla um sistema de videovigilância com uma camara construída com base num Raspberry Pi onde o vídeo é transmitido em streaming via Web através de comunicações móveis. A alimentação do sistema nestes espaços sem energia elétrica é feita através de um painel fotovoltaico. É proporcionado ao utilizador uma interface para visualizar o vídeo transmitido e um mecanismo de notificações por email. É ainda possível a visualização de imagens gravadas num cartão de memória relativas a ocorrências de deteção de movimentos. Foram realizados inúmeros testes ao protótipo SVR sendo os resultados obtidos aqui descritos.