Your search keyword '"Manihot toxicity"' showing total 3 results

1. Strategies for elimination of cyanogens from cassava for reducing toxicity and improving food safety.

Author

Nambisan B

Subjects

Cyanides toxicity, Food Handling, Glucosides metabolism, Hydrolysis, Nitriles metabolism, Plants, Genetically Modified chemistry, Plants, Genetically Modified toxicity, beta-Glucosidase metabolism, Cyanides analysis, Food Safety, Manihot chemistry, Manihot toxicity, Nitriles analysis, Plant Leaves chemistry

Abstract

Toxicity of cassava arises due to the presence of the cyanoglucosides linamarin and lotaustralin which are hydrolysed by endogenous enzyme linamarase to acetonecyanohydrin (ACN) and cyanide (CN) which are toxic. Major research efforts to eliminate/reduce cyanoglucosides have focused on (i) development of acyanogenic cassava varieties by breeding; (ii) controlling its metabolism; and (iii) processing to remove cyanogens. The cyanoglucoside (CNG) content in cassava is genetically controlled and cultivars may be classified as low (<50 μg/g), medium (50-100 μg/g) and high CN (>100 μg CN eq./g) varieties. Molecular techniques for reducing tuber CNG have focused on development of transgenic plants with reduced expression of cyt P 450 in leaves, or increased expression of hydroxynitrilelyase in tuber. For immediate solution, CNG content can be reduced using several processing methods. Traditional methods used for processing include boiling, drying, parboiling and drying, baking, steaming, frying and preparation of flour. These processes result in CN losses ranging from 25% to 98%. The cyanogen level in the final product is influenced both by the tuber CNG and the method of processing. In order to achieve safe levels of 10 μg/g in cassava products, new methods of processing, especially for cassava containing more than 250 μg CN eq./g, remains a challenging problem., (Copyright © 2010. Published by Elsevier Ltd.)

Published

2011

2. Cassava starch fermentation wastewater: characterization and preliminary toxicological studies.

Author

Avancini SR, Faccin GL, Vieira MA, Rovaris AA, Podestá R, Tramonte R, de Souza NM, and Amante ER

Subjects

Animals, Dose-Response Relationship, Drug, Drug Administration Schedule, Female, Male, Mice, Rats, Rats, Wistar, Starch chemistry, Fermentation, Manihot chemistry, Manihot toxicity, Starch toxicity, Waste Disposal, Fluid

Abstract

Cassava starch fermentation wastewater is an industrial residue composed mainly of lactic acid bacteria with predominance of the genera Lactobacillus, and organic acids. To evaluate the safety of this residue for possible production of probiotic beverages, acute in mice and sub-chronic (28-day repeated dose) toxicity studies in rats were carried. The administration of a single dose of 5 g/kg/body weight did not produce mortality in mice. Rats treated with water containing 0 (control), 25%, 50%, and 100% of the residue for 28 days, did not present alterations in behaviour or in food and water consumption. There were no treatment-related changes of toxicological significance in the relative weight of the organs neither in the haematological nor in the biochemical parameters. Histopathologic alterations observed in the small intestine did not seem to be associated with the treatment.

Published

2007

3. Effect of Cassava on motor co-ordination and neurotransmitter level in the albino rat.

Author

Mathangi DC, Mohan V, and Namasivayam A

Subjects

Analysis of Variance, Animals, Dopamine metabolism, Homovanillic Acid metabolism, Indoles metabolism, Levodopa metabolism, Male, Rats, Rats, Wistar, Serotonin metabolism, Solanum tuberosum, Brain physiopathology, Manihot toxicity, Motor Skills physiology, Neurotransmitter Agents metabolism, Protein-Energy Malnutrition physiopathology

Abstract

The root of Cassava, a tropical plant, is consumed in the tropics and has been attributed as the cause for various tropical neuropathies. This study aims to discover the neurotoxic effects of chronic cassava consumption of Indian origin and the effect of malnutrition. The assessment is based on the motor co-ordination and brain neurotransmitters in rats. Cassava consumption reduced the motor co-ordination, but the changes in neurotransmitter levels due to cassava consumption (except for 5HT in corpus striatum) was identical with malnutrition-induced changes, indicating that the toxicity of chronic cassava consumption (of Indian origin) is mainly due to the associated protein calorie malnutrition (PCM).

Published

1999