Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The principle of iron conservation is the basis of iron metabolism; the normal basal loss of iron from the body is about 1 mg daily in a 70 kg man and 0.8 mg in a 55 kg woman. Iron is lost mainly by the menstrual and gastrointestinal routes. The total iron requirement during pregnancy is 800 mg; in the last month the requirement may amount to 7 to 8 mg/day. Supplementary iron is recommended for many menstruating women, and during the latter part of pregnancy. Correct fetal iron metabolism is ensured by proper maternal iron status, although there are contradictory opinions and findings about the relationship between maternal and fetal iron metabolism. Preterm infants fed on breast milk have a negative iron balance, and require an iron intake of about 0.6 mg/kg/day, and 3.4 mg/1 g haemoglobin, to compensate for intestinal and venesection iron losses, respectively. The absorption of supplementary iron by the preterm infant is a linear function of intake. Preterm infants do not require iron supplements when given repeated blood transfusions. During lactation the total iron losses of the mother are 1 mg/day, and thus no supplementary iron is needed if the iron metabolism has been in balance during the pregnancy. Serum
ferritin
concentration decreases continuously when iron stores in the body are reduced, and totally empty iron stores are the only known reasons for low serum
ferritin
concentration. Despite depleted iron stores, serum
ferritin
concentration can be normal or higher than normal in protein-energy malnutrition, up to 3 months after major surgery, in acute liver damage, in some patients with prolonged hyperglycaemia due to diabetes mellitus, in acute
lobar pneumonia
, active pulmonary tuberculosis and rheumatoid arthritis on gold therapy, in sepsis secondary to marrow hypoplasia induced by chemotherapy, in heavy drinkers and for a few days after myocardial infarction. In haemochromatosis, iron is deposited in liver (producing fibrosis), pancreas, endocrine glands and heart. The rise in the level of iron in the body is due to increased absorption and/or increased intake. This pathology may occur in transfusions, in alcoholism (especially when alcoholic beverages are contaminated with iron and the diet is low-protein), in several liver diseases, in congenital transferrin deficiency and in idiopathic disease. Patients susceptible to haemochromatosis should receive a low-iron diet. Serum
ferritin
determination may be helpful in early identification of susceptible members of a family with idiopathic familial haemochromatosis, but transferrin saturation is not a good indicator of either iron depletion or iron overload.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Clinical pharmacokinetics of iron preparations. 267 7
The interrelationships between various components of the non-immune inflammatory response (white cell count, plasma lactoferrin, C-reactive protein,
ferritin
, iron and iron-binding capacity), were studied serially in a variety of inflammatory conditions including acute
lobar pneumonia
, active pulmonary tuberculosis, rheumatoid arthritis on gold therapy and sepsis in the face of marrow hypoplasia induced by chemotherapy. Lactoferrin concentrations paralleled the white count in all groups. They were highest in pneumonia and tuberculosis, mildly elevated in rheumatoid arthritis and markedly decreased in neutropenic sepsis. Very high initial lactoferrin concentrations were associated with a poor prognosis in acute pneumonia. C-reactive protein and
ferritin
concentrations remained elevated through the period of study in acute pneumonia and neutropenic sepsis, while they gradually normalised over weeks in subjects with tuberculosis or rheumatoid arthritis on therapy. In pneumonia and tuberculosis moderate hypoferraemia and a reduced iron-binding capacity were evident. In contrast, a raised percentage saturation was present in neutropenic sepsis, probably related to erythroid marrow suppression. Comparisons between
ferritin
, lactoferrin and C-reactive protein in the various groups supported the concept that
ferritin
behaves in part as an acute phase reactant and that hypoferraemia in inflammation is due to deviation of iron into
ferritin
stores. The suggestion that lactoferrin is responsible for the hypoferraemia and hyperferritinaemia was not supported by the present data. Iron deficiency appeared to limit the hyperferritinaemic response in rheumatoid arthritis, while erythropoietic inhibition by chemotherapy dampened the hypoferraemic response in neutropenic sepsis.
...
PMID:The non-immune inflammatory response: serial changes in plasma iron, iron-binding capacity, lactoferrin, ferritin and C-reactive protein. 378 68
The microorganisms, outcome of infections and the risk factors were evaluated in 39 patients with beta-thalassemia who received frequent blood transfusions. Among these patients, thirteen developed 22 episodes of infections, and bacteremia accounted for 72.7% (16/22) of all infections. Three patients developed meningitis, two patients had liver abscesses, three patients had soft tissue infections, one patient had a urinary tract infection and one patient had
lobar pneumonia
. Interestingly, a large proportion of the patients were infected by Gram-negative bacteria. Patients who were implanted with intravascular catheters were most susceptible to bacterial infection (1.70 episodes/patient) (P = 0.0069). So were patients with
ferritin
levels over 2,000 ng/mL (1.18 episodes/patient) (P = 0.028). The frequency of bacterial infections in patients with splenectomies (1.08 episode/patient) was also significantly higher than that of the average patient (P = 0.025). In conclusion, three major risk factors for bacterial infection were identified in this group of patients: intravascular catheterization, high serum
ferritin
levels (> or = 2,000 ng/mL) and splenectomy. The infection rate of these patients (0.45 episode/100 patient-year) is about 20-fold higher than that of general pediatric patients (0.023 episode/100 patient-year).
...
PMID:Bacterial infection in patients with transfusion-dependent beta-thalassemia in central Taiwan. 1119 38
