Anaerobic degradation of microcrystalline cellulose: kinetics and micro-scale structure evolution

The degradation kinetics and micro-scale structure change of microcrystalline cellulose during anaerobic biodegradation were investigated. A modified Logistic model was established to properly describe the kinetics, which showed good fitness and wide applicability for cellulose degradation. A maximum degradation rate of 0.14 g L⁻¹ h⁻¹ was achieved after cultivating for 51.5 h. This result was in good agreement with the scanning electron microscope and X-ray diffraction analysis. Channels of 400-500 nm size started to occur on the crystalline surface of cellulose at around the inflexion time. Accordingly, the crystallinity significantly decreased at this point, indicating a degradation of the crystalline structure zones by anaerobic bacteria. This study offers direct morphological evidence and quantitative analysis of the biodegradation process of cellulose, and is beneficial to a better understanding of the cellulose degradation mechanism.     

Treatment and skin decontamination of sarin intoxicated mice

Abstract

This study aimed at evaluating the efficacy of oral treatment and skin decontamination with the mineral cationic carrier in sarin-intoxicated mice. Mice were contaminated with increasing percutaneous sarin doses and decontaminated. Furthermore, the surviving mice were treated per os. The behavioral patterns of the surviving animals were monitored for 72?h, including the animals’ posture, desire for food and water, and approach and touch response. The results showed the mineral cationic carrier to be capable of efficiently decontaminating animals percutaneous poisoned with triple lethal dose. The comparison of behavioral pattern of control animals against those treated per os showed statistically significant differences. Oral treatment with mineral cationic carrier may be a detoxification tool against nerve agents’ poisoning, and this merits further research.