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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The influence of
starvation
on the lipid metabolism was studied on male rabbits under usual conditions and in the presence of pyroxidine deficiency (4-deoxypyridoxine administration) and of thiamine (oxythiamine administration), and also in administration of neurotropic preparations (phenamine, seduxen).
Starvation
for 7 to 10 days led to increase of cholesterol and beta-lipoproteins level in the serum.
Pyridoxine deficiency
and phenamine administration caused a greater increase of cholesterol and especially or beta-lipoproteins. On the other hand, thiamine deficiency and seduxen administration limited an increase of cholesterol and beta-lipoproteins during hungry stress. Administration of aerovit for prophylactic purpose promoted a decrease of the metabolic shifts. The amount of cholesterol increased in the liver of hungry animals, especially after the phenamine administration and in the presence of pyridoxine deficiency; aerovit administration prevented increased cholesterol accumulation in the liver. The differences in the cholesterol level in the serum and and the liver can be explained by the changes of its biosynthesis during hungry stress.
...
PMID:[Factors influencing the serum levels of cholesterol and beta-lipoproteins in starving rabbits]. 19 49
Studies were made on whether glucose
starvation
causes fatty liver in pyridoxine-deficient male Wistar rats.
Pyridoxine deficiency
resulted in significantly lower levels of liver glucose than in pair-fed controls but no significant change in the serum glucose concentration. In non-starving animals, serum immuno-reactive insulin (IRI) was significantly lower in pyridoxine-deficient rats than in pair- or ad libitum-fed controls. Liver glucokinase activity in pyridoxine-deficient rats was also significantly lower than in ad libitum-fed controls. The extent of insulin deficiency was evaluated by examining the effect of administration of insulin on pyridoxine-deficient rats. Administration of insulin had no effect on the activity of liver glucokinase in pyridoxine-deficient rats, but induced the enzyme in ad libitum-fed controls. In response to a decrease in the activity of liver glucokinase or hexokinase in the deficient group, glycolytic activity, estimated as lactate production from glucose in the liver supernatant spun at 100,000 X g, was reduced to half the control level in pyridoxine-deficient rats. The effects of glucose administration on the liver lipid content, serum insulin and serum glucose were investigated. The serum glucose concentration was not significantly different in pyridoxine-deficient and control rats at any time after the glucose load. The level of serum IRI after the load was similar in the two groups after 30 min but then gradually decreased in the deficient group. The liver lipid content of the deficient rats tended to decrease whereas that of the controls remained unchanged throughout the experiment. Thus glucose
starvation
in pyridoxine-deficient rats is one factor responsible for fatty liver formation. Possible mechanisms of this phenomenon are discussed.
...
PMID:Role of glucose on fatty liver formation in pyridoxine-deficient rats. 675 93
