Cyto-histological and morpho-physiological responses of common duckweed (Lemna minor L.) to chromium.

Along with cadmium, lead, mercury and other heavy metals, chromium is an important environmental pollutant, mainly concentrated in areas of intense anthropogenic pressure. The effect of potassium dichromate on Lemna minor populations was tested using the growth inhibition test. Cyto-histological and physiological analyses were also conducted to aid in understanding the strategies used by plants during exposure to chromium. Treatment with potassium dichromate caused a reduction in growth rate and frond size in all treated plants and especially at the highest concentrations. At these concentrations the photosynthetic pathway was also altered as shown by the decrease of maximum quantum yield of photosystem II and the chlorophyll b content and by the chloroplast ultrastructural modifications. Starch storage was also investigated by microscopic observations. It was the highest at the high concentrations of the pollutant. The data suggested a correlation between starch storage and reduced growth; there was greater inhibition of plant growth than inhibition of photosynthesis, resulting in a surplus of carbohydrates that may be stored as starch. The investigation helps to understand the mechanism related to heavy metal tolerance of Lemna minor and supplies information about the behavior of this species widely used as a biomarker.

Antioxidant therapy in critically septic patients.

Critical illness and particularly sepsis are associated with a significant redox imbalance resulting from an increased production of oxidant species and a decrease in endogenous antioxidant defences. In critical patients sources of oxidative stress include the mitochondrial respiratory electron transport chain, xanthine oxidase activation, the respiratory burst associated with neutrophil activation, and arachidonic acid metabolism. Several endogenous antioxidants have been identified including enzymes, like superoxide dismutases and glutathione peroxidase, vitamins and other molecules such as uric acid and bilirubin. Recent studies pointed out the correlations between oxidative stress, systemic inflammatory response and apoptosis. Prospective randomized clinical trials regarding antioxidant therapy in critical illness provide increasing evidence in support of selenium, glutamine and omega-3 fatty acids. In particular selenium seems to improve clinical outcome in terms of infections and organ failure, glutamine has been associated with a significant reduction in infectious complications and omega-3 fatty acids could be particularly efficacious in sepsis. Melatonin is a promising molecule that deserves the attention of future research, as well as vitamin C. Further studied should also try to establish the more beneficial combination of antioxidants, as well as the doses, and the timing of administration. When such problems will be resolved hopefully results about antioxidant therapy in critical illness will be more univocal and promising.