Carotenoids are the most powerful nutrients (medicine) on earth due to their potent antioxidant properties. The ability of these tetraterpenoids in obviating human chronic ailments like cancer, cardiovascular disease, osteoporosis, and diabetes has drawn public attention toward these novel compounds. Conventionally, carotenoids have been extracted from plant materials and agro-industrial byproduct using different solvents, but these procedures result in contaminating the target compound (carotenoids) with extraction solvents. Furthermore, some utilized solvents are not safe and hence are harmful to the environment. This has attracted criticism from consumers, ecologists, environmentalists, and public health workers. However, there is clear consumer preference for carotenoids from natural origin without traces of extracting solvent. Therefore, this review seeks to discuss methods for higher recovery of pure carotenoids without contamination from a solvent. Methods such as enzyme-based extraction, supercritical fluid extraction, microwave-assisted extraction, Soxhlet extraction, ultrasonic extraction, and postextraction treatment (saponification) are discussed. Merits and demerits of these methods along with health concerns during intake of carotenoids were also considered.
Antitumor efficiencies of cytostatics dioxadet, cisplatin, mitomycin C, melphalan, and paclitaxel after a single intraperitoneal or intravenous injection in doses of 1.5, 4, 1.5, 2, and 5 mg/kg, respectively, were studied on the model of transplanted ovarian tumor in 124 rats. The antitumor effects were evaluated by the increase in median survival. Dioxadet, cisplatin, and melphalan injected intraperitoneally significantly prolonged the lifespan median - by 79, 88, and 114%, respectively, and were in fact ineffective, when injected intravenously. Intraperitoneal mitomycin C prolonged lifespan median by just 35%, intravenous - by 152%. Paclitaxel injected intraperitoneally and intravenously prolonged the lifespan median by 45 and 81%, respectively.
Barley and other cereal grains can be used in the production of ethanol. The quality and safety of the grains utilized have enormous effects on the overall yield and quality of the final product (ethanol). Therefore, the present paper seeks to elucidate the antimicrobial activities of ultradisperse humic sapropel suspensions (UDHSS) on barley, wort, fermentation, and the quality of the final product. A standard microbiological method was used to assess the biocidal activities. Physicochemical parameters and volatile compounds were determined. Treated samples exhibited least microbial growth (for grain: 1.145 ± 0.120 × 104 cfu/g) when compared to the control (3.425 ± 0.33 × 105 cfu/g). Mash from the treated sample had less Free Amino Nitrogen (35.14 ± 0.02 mg/L) than the control experiment (41.42 ± 0.01). However, the levels of °Brix and Free Amino Nitrogen (FAN) were unaffected by the UDHSS treatments. After the chromatographic analysis, it was revealed that the barley distillate obtained from treated grains had high volatiles concentration when compared to the control experiment. The volume of the methanol quantified in the distillate was low, and hence safe, and might find applications in the food industries or in domestic consumption after rectification.
Sosnovsky’s hogweed is an invasive species that suppresses natural meadow biocenoses, but at the same time it can be a source of various biological substances (raw materials). Hogweed can be processed to produce cellulose. The obvious advantage of cellulose from Sosnovsky’s hogweed is the unsuitability of the raw material for other uses, i.e., while valuable resources that are now being used to produce cellulose can be saved, the stems of Sosnovsky’s hogweed are waste products obtained because of getting rid of the plant. Despite this, there is an actual problem of including hogweed in the production chain. To solve this problem, business models can be built that are aimed at using the biproducts of processing hogweed. It is important that business models not only reflect the process of producing added value but also can solve the main problem of processing weed plants: the finiteness of the specified resource. Specifically, entrepreneurs starting such a business should not get into a situation where they destroy their only resource. This article is focused on a comparison of business models according to the following criteria: feasibility, profitability, and environmental impact. Business models that involve constructing a processing plant, using mobile laboratories, and industrial symbiosis models are presented. The overall result of this work is a business model that meets the specified criteria. Similar business models can be used for other plants with the possibility of obtaining valuable raw materials. Research shows how Sosnovsky hogweed can be processed into bioethanol or cellulose.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.