Short term inhalation toxicity of a liquid aerosol of glutaraldehyde-coated CdS/Cd(OH)2 core shell quantum dots in rats.

Quantum dots exhibit extraordinary optical and mechanical properties, and the number of their applications is increasing. In order to investigate a possible effect of coating on the inhalation toxicity of previously tested non-coated CdS/Cd(OH)2 quantum dots and translocation of these very small particles from the lungs, rats were exposed to coated quantum dots or CdCl2 aerosol (since Cd(2+) was present as impurity), 6h/d for 5 consecutive days. Cd content was determined in organs and excreta after the end of exposure and three weeks thereafter. Toxicity was determined by examination of broncho-alveolar lavage fluid and microscopic evaluation of the entire respiratory tract. There was no evidence for translocation of particles from the respiratory tract. Evidence of a minimal inflammatory process was observed by examination of broncho-alveolar lavage fluid. Microscopically, minimal to mild epithelial alteration was seen in the larynx. The effects observed with coated quantum dots, non-coated quantum dots and CdCl2 were comparable, indicating that quantum dots elicited no significant effects beyond the toxicity of the Cd(2+) ion itself. Compared to other compounds with larger particle size tested at similarly low concentrations, quantum dots caused much less pronounced toxicological effects. Therefore, the present data show that small particle sizes with corresponding high surfaces are not the only factor triggering the toxic response or translocation.

Uso de pinças ópticas para avaliação do potencial zeta de hemácias em EDTA, CPD-SAGM e estocadas / Use of optical tweezers for evaluation of szeta potential of red blood cells in EDTA, CPD-SAGM and stored in blood banks

A hemácia é carregada negativamente, principalmente devido ao ácido siálico que gera um potencial elétrico denominado Potencial Zeta que impede a aglutinação intravascular. Os testes de hemaglutinação na rotina transfusional, necessitam de substâncias potencializadoras, das quais muitas agem diminuindo o Potencial Zeta para se ter maior sensibilidade. Através da pinça óptica, ferramenta capaz de capturar células utilizando a luz, foi proposta uma metodologia para quantificar o potencial zeta e aplicar em hemácias coletadas com EDTA e estocadas em CPD-SAGM (visando avaliar alterações de cargas da membrana relacionadas a lesões de armazenamento. Os potenciais zeta em CPD-CAGM foram superiores (-14,8 mV) aos em EDTA (-7,9 mV) e decrescentes a partir do primeiro dia de armazenamento, estabilizando-se a partir da terceira semana com potencial zeta -7,6 mV. Hemácias com CPD-SAGM apresentaram potencial zeta maior, pois possivelmente este conservante evitou lesões mais significativas da membrana que poderiam alterar as cargas. A redução do potencial zeta no armazenamento pode ser consequência de enzimas liberadas de leucócitos lisados que tenham alterado as glicoforinas da membrana. A metodologia permitiu avaliar o potencial zeta em diferentes condições e poderá contribuir na padronização de técnicas de hemaglutinação com diferentes meios potencializadores e no melhor conhecimento das lesões de estocagem para fins transfusionais.

Studying taxis in real time using optical tweezers: applications for Leishmania amazonensis parasites.

Beads trapped by an optical tweezers can be used as a force transducer for measuring forces of the same order of magnitude as typical forces induced by flagellar motion. We used an optical tweezers to study chemotaxis by observing the force response of a flagellated microorganism when placed in a gradient of attractive chemical substances. This report shows such observations for Leishmania amazonensis, responsible for leishmaniasis, a serious disease. We quantified the movement of this protozoan for different gradients of glucose. We were able to observe both the strength and the directionality of the force. The characterization of the chemotaxis of these parasites can help to understand the mechanics of infection and improve the treatments employed for this disease. This methodology can be used to quantitatively study the taxis of any kind of flagellated microorganisms under concentration gradients of different chemical substances, or even other types of variable gradients such as temperature and pressure.