Catalytic effects of different redox mediators on the reductive decolorization of azo dyes.

The catalytic effects of redox mediators, with distinct standard redox potentials (E'0), were evaluated on the first-order rate constant of decolorization (Kd) of recalcitrant azo dyes by an anaerobic granular sludge. The dyes studied included mono-azo (Reactive Orange 14, RO14), di-azo (Direct Blue 53, DB53), and tri-azo (Direct Blue 71, DB71) compounds. Toxicity and auto-catalytic aspects seemed to play a role in determining the rate of decolorization. Addition of riboflavin, anthraquinone-2,6-disulphonate (AQDS) or lawsone as a redox mediator, increased the Kd value for all dyes studied, although their impact varied in every case. Kd values were increased from 1.1-fold up to 3.8-fold depending on the redox mediator applied. Moreover, catalysts with moderately similar E'0 value caused distinct stimulation on the rate of decolorization. These results should be considered for selecting the proper redox mediator to be applied during the anaerobic treatment of textile wastewaters and effluents containing electron-withdrawing pollutants, such as nitro-aromatic and polychlorinated compounds.

The role of sulphate reduction on the reductive S decolorization of the azo dye reactive orange 14.

The aim of this study was to investigate the impact of a broad range of sulphate concentrations (0-10g SO4(-2) L(-1)) on the reduction of an azo dye (reactive orange 14 (RO14)) by an anaerobic sludge. An increase in the sulphate concentration generally stimulated the reduction of RO14 by sludge incubations supplemented with glucose, acetate or propionate as electron donor. Sulphate and azo dye reductions took place simultaneously in all incubations. However, there was a decrease on the rate of decolorization when sulphate was supplied at 10g SO4(-2) L(-1). Abiotic incubations at different sulphide concentrations (0-2.5 g sulphide L(-1)) promoted very poor reduction of RO14. However, addition of riboflavin (20 microM), as a redox mediator, accelerated the reduction of RO14 up to 44-fold compared to a control lacking the catalyst. Our results indicate that sulphate-reduction may significantly contribute to the reduction of azo dyes both by biological mechanisms and by abiotic reductions implicating sulphide as an electron donor. The contribution of abiotic decolorization by sulphide, however, was only significant when a proper redox mediator was included. Our results also revealed that sulphate-reduction can out-compete with azo reduction at high sulphate concentrations leading to a poor decolorising performance when no sufficient reducing capacity is available.

Medication mishaps. Avoiding inappropriate use of prehospital meds.

Although we believe in the usefulness and effectiveness of certain medications used in prehospital care, there actually have been few studies conducted that prove the efficacy of medications in this environment. Use of prehospital medications should be carefully considered by EMS providers. Medications should be used when the diagnosis or cause of symptoms is clear, the medication is clearly effective in treating them, the side effects or complications are minimal, and the transport time is sufficient to allow the medication to take effect.

Restriction fragment length polymorphism of the human insulin gene region among type II diabetic Mexican-Americans and Tunisians.

The human insulin gene is flanked by a polymorphic locus that is located approximately 500 base pairs (bp) from the 5' end of the point where transcription begins (Bell et al. 1981; Bell et al, 1982). Its occurrence is due to an insertion-deletion region which gives rise to two major classes of alleles: those containing small insertions of 0-600 bp and those containing larger insertions of 1,600-2,200 bp (Owerbach and Nerup, 1982). Insertions of 600-1,600 bp are rare (Rotwein et al., 1983). The larger insertions have previously been reported to be associated with type 2 diabetes (Owerbach and Nerup, 1982). We have conducted studies on a Mexican-American population in Starr County, Texas (98% Mexican-American) and a Tunisian population in Tunis, Tunisia, to determine if the frequency distribution of these classes of insulin gene alleles are similar to the previously reported frequency distributions and if any of the classes of alleles are associated with type 2 diabetes in these populations. We conclude that none of the classes of insulin gene alleles are associated with type II diabetes among Mexican-Americans or Tunisians, and that the frequency distributions of the insulin gene alleles do not vary significantly between the Tunisians, Mexican-Americans, or the aggregate data resulting from combining the insulin gene frequencies of several of the populations described thus far (Bell et al., 1984).