Microbial decontamination study of medicinal plants by plasma preatment

In the present work the microbial decontamination of some medicinal plants by plasma treatment using oxygen gas or a mixture of oxygen and hydrogen peroxide was investigated. The efficiency of the decontamination process was analyzed by the count of heterotropic microorganisms and pathogenic research. The results showed a reduction in the microorganism number such as 3 and 4 logarithmic cycles for ginkgo and artichoke, while it was not efficient for samples containing hard and thick cells, and mucilage, such as guarana and chamomile.Colegio de Farmacéuticos de la Provincia de Buenos Aire

Microbial Decontamination Study of Medicinal Plants by Plasma Treatment

In the present work the microbial decontamination of some medicinal plants by plasma treatment using oxygen gas or a mixture of oxygen and hydrogen peroxide was investigated. The efficiency of the decontamination process was analyzed by the count of heterotropic microorganisms and pathogenic research. The results showed a reduction in the microorganism number such as 3 and 4 logarithmic cycles for ginkgo and artichoke, while it was not efficient for samples containing hard and thick cells, and mucilage, such as guarana and chamomile.CNPqFAPES

Microbial decontamination study of medicinal plants by plasma preatment

In the present work the microbial decontamination of some medicinal plants by plasma treatment using oxygen gas or a mixture of oxygen and hydrogen peroxide was investigated. The efficiency of the decontamination process was analyzed by the count of heterotropic microorganisms and pathogenic research. The results showed a reduction in the microorganism number such as 3 and 4 logarithmic cycles for ginkgo and artichoke, while it was not efficient for samples containing hard and thick cells, and mucilage, such as guarana and chamomile.Colegio de Farmacéuticos de la Provincia de Buenos Aire

Contemporary insights into the extraction, functional properties, and therapeutic applications of plant proteins

Recently, plant proteins have received notable attention as food and medicine. Further, plant proteins are used to produce and isolate peptides to treat and prevent diseases in humans and animals. Plant proteins can be extracted from various sources, including industrial waste materials. Conventional and nonconventional methods are used to carry out the protein extraction. This review aims to overview the advanced protein extraction methods and the therapeutic functionalities of plant proteins and peptides. It was observed that the advanced protein extraction methods, i.e., ultrasound-assisted and microwave-assisted, are more efficient, eco-friendly, and less energy-consuming. The advanced protein extraction methods will help to face the challenges of using protein in food processing. In addition to the food functionality, plant-based proteins and peptides show potential therapeutic activity. It includes antidiabetic activity, anticancer activity, and anti-inflammatory activity. The pharmaceutical and nutraceutical industries will likely rely heavily on plant-derived peptides because of their benefits as functional ingredients

Electron beam irradiation of Matricaria chamomilla L. for microbial decontamination

Wild chamomile (Matricaria chamomilla L.) is one of the most popular herbal materials with both internal and external use to cure different health disturbances. As a consequence of its origin, chamomile could carry various microbial contaminants which offer different hazards to the final consumer. Reduction of the microbial load to the in force regulation limits represents an important phase in the technological process of vegetal materials, and the electron beam treatment might be an efficient alternative to the classical methods of hygienic quality assurance. The purpose of the study was to analyze the potential application of the electron beam treatment in order to assure the microbial safety of the wild chamomile. Samples of chamomile dry inflorescences were treated in electron beam (e-beam) of 6 MeV mean energy, at room temperature and ambient pressure. Some loss of the chemical compounds with bioactive role could be noticed, but the number of microorganisms decreased as a function on the absorbed dose. Consequently, the microbial quality of studied vegetal material inflorescences was improved by e-beam. irradiation. (C) 2008 Elsevier B.V. All rights reserved