Subject(s)
Coffee/adverse effects , Flavonoids , Plants, Edible , Tea/adverse effects , Thiamine/antagonists & inhibitors , Animals , Ascorbic Acid , Biological Transport, Active/drug effects , Caffeic Acids/adverse effects , Caffeine/adverse effects , Erythrocytes/enzymology , Humans , Phenols/adverse effects , Polymers/adverse effects , Polyphenols , Structure-Activity Relationship , Tannins/adverse effects , Thiamine/urine , Thiamine Deficiency/etiology , Transketolase/bloodABSTRACT
Carcinogens naturally occurring in food include metabolites of microorganisms which infect plants during harvesting and storage; products of the normal metabolism of plants and products of chemical changes occurring during processing, preservation, preparation or which are picked up from the environment, including contaminated water or soil. Some examples of these types of carcinogens are: fungal metabolites such as aflatoxins in peanuts stored under improper conditions; safrol from the oil of various plants; tannin in tea, grain and grapes; and polycyclic hydrocarbons including benzo (a) pyrene formed by smoking meat and fish. Epidemiological studies indicate that there is a high incidence of gastric cancer in the areas of the world where smoked fish are common in diets. Vitamin A may play a role in preventing the carcinogenic action of polycyclic hydrocarbons.
Subject(s)
Carcinogens/analysis , Food Contamination/analysis , Food Microbiology , Mutagens/analysis , Animals , Benzo(a)pyrene , Benzopyrenes/analysis , Cooking , Food Preservation , Fungi/metabolism , Meat/analysis , Plants/analysis , Plants/metabolism , Tannins/analysisSubject(s)
Feeding Behavior , Lactose Intolerance/etiology , Milk , Adult , Animals , Child , Hawaii , Humans , Infant , Lactose Intolerance/epidemiology , Students , UniversitiesABSTRACT
Thiamin deficiency could result either from inadequate intake of thiamin or consumption of food containing antithiamin factors. Dietary surveys conducted in northeastern Thailand indicated that both thiamin and caloric intake of subjects under studies were sufficient. In Thailand, correlation exists between the consumption of food containing antithiamin factors and the prevalence of thiamin deficiency. Betel nuts and raw fermented fish possess antithiamin activity. Abstention from both betel nut chewing and raw fermented fish consumption resulted in a significant reduction of thiamin pyrophosphate effect. The thiamin pyrophosphate effect again increased significantly when the subjects resume their chewing habits. Cooking of fermented fish destroyed thiaminase, resulted in a significant decrease of thiamin pyrophosphate effect of the subjects. Thiamin supplementation (10 mg/day) could further reduce their thiamin pyrophosphate effect. This amount of thiamin could counteract the effect of raw fermented fish consumption but was not sufficient to neutralize the effect of betel nut chewing.
