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Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Severe
iron deficiency
in the suckling and weanling rat is associated with lipid accumulation in serum and liver, impaired ketogenesis in the suckling pup and low levels of carnitine in some tissues.
Carnitine
has been effective in reducing high triacylglycerol levels in humans and rats. This study examined tissue triacylglycerol concentrations of iron-deficient rats supplemented with carnitine or iron. Iron-adequate (C) and iron-deficient (D) pups were weaned to diets containing 38 ppm Fe (c) or 6 ppm Fe (d) with or without 0.2%
DL-carnitine
(Carn) resulting in six experimental treatments: CcCarn, DdCarn, Cc, Cd, Dc, Dd. Males received the diets for 2 wk and female littermates for 4. After 2 and 4 wk, carnitine supplementation significantly increased carnitine content in liver, heart and skeletal muscle by 30-60% in rats from control and Fe-deficient dams.
Carnitine
treatment significantly lowered the triacylglycerol level in liver of 49-d-old Fe-deficient females, but did not affect other tissues at either time point compared to other dietary treatments. Fe supplementation did not increase carnitine content in tissues, but did reduce triacylglycerol levels in liver by 4 wk and in skeletal muscle at both time points. Possible mechanisms by which iron and carnitine may lower lipids are discussed.
...
PMID:Postweaning carnitine supplementation of iron-deficient rats. 379 27
Severe
iron deficiency
was induced in rats by rearing nursing dams and their offspring on a diet comprising all the requisite nutrients and trace metals except iron. The iron deficient 5-week-old rats exhibited a severe anemia and a drastic decrease in iron content of the hepatic tissue and of the mitochondrial fraction. Cytochromes c + c1 and b were moderately but significantly reduced. A large increase in liver concentration was observed in iron-deficient animals; whereas there was no modification in total lipid, cholesterol, phospholipid and fatty acid composition of the mitochondrial membrane. Mitochondria from iron-deficient rats presented a partial uncoupling of the oxidative phosphorylation process. This functional derangement was completely reversed by the presence of either bovine serum albumin or
L-carnitine
plus ATP. This behaviour suggested that endogenous long-chain fatty acids could be primarily involved in the onset of mitochondrial dysfunction. The hepatic energy state of the liver appeared dramatically decreased under the pathological condition of severe iron-deficiency anemia. The possibility of a direct link between the partial loss of coupled functions observed in isolated mitochondria and the heavy energy deficit detected in the liver is discussed.
...
PMID:Dietary iron deficiency in the rat. I. Abnormalities in energy metabolism of the hepatic tissue. 794 4
Anaemia is a common problem in patients with renal failure, whether or not they are on dialysis. There is a continuum of declining renal function. In addition, the creatinine clearance at which dialysis is initiated varies widely between institutions and between studies. The term 'progressive renal insufficiency' is therefore preferable to 'pre-dialysis'. The adverse effects of renal anaemia on left ventricular mass become apparent early in the course of progressive renal insufficiency; 75% of patients starting dialysis already have left ventricular hypertrophy (LVH). Correction of anaemia in patients with progressive renal insufficiency has been shown to improve physical function and anaemia-related symptoms, but no controlled studies have yet been conducted to determine its effects on LVH. Although one animal study generated some concern that epoetin may exacerbate a decline in renal function, there is no evidence from human studies for any such effect. Treatment of anaemia with epoetin in anaemic patients with progressive renal insufficiency is therefore recommended, provided blood pressure is controlled. To date, however, there are insufficient data to determine whether normalization of haemoglobin is advisable in this patient group. Detection and correction of
iron deficiency
is important to achieve the full benefits of epoetin, though recommendations cannot yet be made regarding the optimum route and timing of iron supplementation in patients with progressive renal insufficiency. In these patients the role of other adjuvant therapies, such as
L-carnitine
, vitamin B6, vitamin B12 and folic acid, also requires further investigation.
...
PMID:How should anaemia be managed in pre-dialysis patients? 1033 70
Carnitine
is not only obtained from animal-derived foods but also synthesized in the body. It plays an important role in the energy metabolism of many tissues, including heart and skeletal muscles. Iron is known to be essential for the biosynthesis of carnitine. Although many conditions are well known to cause secondary carnitine deficiency,
iron deficiency
, which is a very common condition in children, is not well studied as a cause of secondary carnitine deficiency in humans. This study demonstrates the coexistence of
iron deficiency
and low carnitine levels in otherwise healthy children. The mean carnitine concentration of 18 otherwise healthy children with iron deficiency anemia was significantly lower compared to the mean carnitine concentration of healthy children without iron deficiency anemia. Based on the evidence about the effect of low iron on carnitine stores in experimental animals, we proposed that low serum carnitine levels in these children may be secondary to
iron deficiency
. However, further studies need to be done to further clarify this relationship.
...
PMID:Low serum carnitine concentrations in healthy children with iron deficiency anemia. 1176 98
Carnitine
is ingested through animal-derived foods as well as synthesized in vivo. It plays an important role in the energy metabolism of many tissues. Iron acts as a co-factor for the synthesis of carnitine. However, the importance of
iron deficiency
as a cause of secondary carnitine deficiency is not well established. The aim of this study was to investigate the serum levels of carnitine in children with iron-deficiency anemia compared to those of healthy children and to determine if serum carnitine levels in with or without pica differ. The mean serum carnitine concentration in the iron-deficiency group was significantly lower than that in healthy children (12.44+/- 5.09 and 32.48 +/- 7.92 micromol/L, respectively, p < .001). In the iron-deficient group, serum carnitine levels, ferritin levels, and other hematological parameters were lowest in patients with pica (p < .001). Pearson correlation test indicated a positive correlation between serum carnitine and ferritin levels in iron-deficient patients. Based on the evidence about the effect of low iron on carnitine stores in animal studies, the authors propose that low serum carnitine levels in these children may be secondary to iron-deficiency anemia. However, further large-scale studies are needed to establish the frequency of carnitine deficiency in children with iron-deficiency anemia.
...
PMID:Serum carnitine levels in children with iron-deficiency anemia with or without pica. 1672 58
