Degradation of haloaromatic compounds

An ever increasing number of halogenated organic compounds has been produced by industry in the last few decades. These compounds are employed as biocides, for synthetic polymers, as solvents, and as synthetic intermediates. Production figures are often incomplete, and total production has frequently to be extrapolated from estimates for individual countries. Compounds of this type as a rule are highly persistent against biodegradation and belong, as "recalcitrant" chemicals, to the class of so-called xenobiotics. This term is used to characterise chemical substances which have no or limited structural analogy to natural compounds for which degradation pathways have evolved over billions of years. Xenobiotics frequently have some common features. e.g. high octanol/water partitioning coefficients and low water solubility which makes for a high accumulation ratio in the biosphere (bioaccumulation potential). Recalcitrant compounds therefore are found accumulated in mammals, especially in fat tissue, animal milk supplies and also in human milk. Highly sophisticated analytical techniques have been developed for the detection of organochlorines at the trace and ultratrace level

Sequential designs for clinical trials in amyotrophic lateral sclerosis

BACKGROUND: The objective of this paper is to discuss the sequential trial design and its advantages in clinical trials for ALS. The sequential trial design is an alternative to the classical trial design, which permits stopping a study as soon as a treatment effect can be significantly demonstrated or denied. METHODS: As an example of a sequential survival analysis, a recently completed clinical trial is described. A secondary outcome measure used in the same trial, the decline of the vital lung capacity, was re-analyzed sequentially, in order to illustrate the use of the sequential method for a non-survival variable. To compare the classical with the sequential trial design, the number of patients needed in trials aiming at survival effects ranging from 10% to 20% with a power of 80% or 90% was calculated for both designs. RESULTS: In the given examples the time needed to prove the null hypothesis in the survival analysis, and the number of patients needed to prove the null hypothesis in the analysis of the vital capacity is lower than would have been the case in a classical analysis. In 18 of 24 different situations, the chance is at least 90% that with a sequential trial design fewer patients are needed. CONCLUSIONS: We argue that, particularly for ALS trials, a sequential design may be superior to a classical trial design, as it most often requires fewer patients than classically designed trials of equal power, and more importantly may avoid unnecessary continuation

Periprocedural hemodynamic depression is associated with a higher number of new ischemic brain lesions after stenting in the international carotid stenting study-MRI substudy

Background and Purpose— Carotid artery stenting (CAS) is associated with a higher risk of both hemodynamic depression and new ischemic brain lesions on diffusion-weighted imaging than carotid endarterectomy (CEA). We assessed whether the occurrence of hemodynamic depression is associated with these lesions in patients with symptomatic carotid stenosis treated by CAS or CEA in the randomized International Carotid Stenting Study (ICSS)-MRI substudy. Methods— The number and total volume of new ischemic lesions on diffusion-weighted imaging 1 to 3 days after CAS or CEA was measured in the ICSS-MRI substudy. Hemodynamic depression was defined as periprocedural bradycardia, asystole, or hypotension requiring treatment. The number of new ischemic lesions was the primary outcome measure. We calculated risk ratios and 95% confidence intervals per treatment with Poisson regression comparing the number of lesions in patients with or without hemodynamic depression. Results— A total of 229 patients were included (122 allocated CAS; 107 CEA). After CAS, patients with hemodynamic depression had a mean of 13 new diffusion-weighted imaging lesions, compared with a mean of 4 in those without hemodynamic depression (risk ratio, 3.36; 95% confidence interval, 1.73–6.50). The number of lesions after CEA was too small for reliable analysis. Lesion volumes did not differ between patients with or without hemodynamic depression. Conclusions— In patients treated by CAS, periprocedural hemodynamic depression is associated with an excess of new ischemic lesions on diffusion-weighted imaging. The findings support the hypothesis that hypoperfusion increases the susceptibility of the brain to embolism. Clinical Trial Registration— URL: http://www.controlled-trials.com. Unique identifier: ISRCTN25337470. </p

Periprocedural hemodynamic depression is associated with a higher number of new ischemic brain lesions after stenting in the international carotid stenting study-MRI substudy

Background and Purpose— Carotid artery stenting (CAS) is associated with a higher risk of both hemodynamic depression and new ischemic brain lesions on diffusion-weighted imaging than carotid endarterectomy (CEA). We assessed whether the occurrence of hemodynamic depression is associated with these lesions in patients with symptomatic carotid stenosis treated by CAS or CEA in the randomized International Carotid Stenting Study (ICSS)-MRI substudy. Methods— The number and total volume of new ischemic lesions on diffusion-weighted imaging 1 to 3 days after CAS or CEA was measured in the ICSS-MRI substudy. Hemodynamic depression was defined as periprocedural bradycardia, asystole, or hypotension requiring treatment. The number of new ischemic lesions was the primary outcome measure. We calculated risk ratios and 95% confidence intervals per treatment with Poisson regression comparing the number of lesions in patients with or without hemodynamic depression. Results— A total of 229 patients were included (122 allocated CAS; 107 CEA). After CAS, patients with hemodynamic depression had a mean of 13 new diffusion-weighted imaging lesions, compared with a mean of 4 in those without hemodynamic depression (risk ratio, 3.36; 95% confidence interval, 1.73–6.50). The number of lesions after CEA was too small for reliable analysis. Lesion volumes did not differ between patients with or without hemodynamic depression. Conclusions— In patients treated by CAS, periprocedural hemodynamic depression is associated with an excess of new ischemic lesions on diffusion-weighted imaging. The findings support the hypothesis that hypoperfusion increases the susceptibility of the brain to embolism. Clinical Trial Registration— URL: http://www.controlled-trials.com. Unique identifier: ISRCTN25337470. </p