malnutrition, severe burns, hemochromatosis, anemia caused by infections and chronic diseases, cirrhosis of the liver, and kidney disease.
malnutrition, severe burns, hemochromatosis, anemia caused by infections and chronic diseases, cirrhosis of the liver, and kidney disease.
Total Iron Binding Capacity
iron deficiency anemia, polycythemia vera, pregnancy, blood loss, severe hepatitis, and the use of birth control pills.
While the normal range for Total Iron Binding Capacity (TIBC) laboratory test may differ slightly between labs, an acceptable normal range is 210 - 390 ug/dL.
Iron binding capacity refers to the ability of a substance, usually transferrin in the blood, to bind and transport iron. It is a measure of the total amount of iron that can be bound to transferrin. High levels of iron binding capacity may indicate iron deficiency, while low levels may suggest iron overload.
The total iron binding capacity (TIBC) test typically uses a lavender or royal blue top tube, as it requires an EDTA anticoagulant to prevent clotting and preserve the sample for analysis.
Tests such as serum iron, ferritin, transferrin saturation, and total iron-binding capacity (TIBC) are commonly used to measure the body's iron levels and storage. These tests help diagnose conditions like iron deficiency anemia or iron overload.
Total Iron Binding Capacity see: http://en.wikipedia.org/wiki/Total_iron-binding_capacity
A lavender or royal blue tube is typically used for collecting a TIBC (total iron-binding capacity) test.
The total iron binding capacity (TIBC) test is typically collected in a lavender or royal blue top tube, which contains the anticoagulant EDTA. It is essential to follow the specific lab requirements for sample collection.
Iron saturation refers to the percentage of iron-binding sites in your blood that are occupied by iron. This measurement indicates how much of your body's iron-binding capacity is being utilized. Low iron saturation levels may indicate iron deficiency, while high levels could be a sign of conditions like hemochromatosis. It is typically calculated by dividing the serum iron level by the total iron-binding capacity and multiplying by 100.
To find the total binding energy Use this formula: B= (number of neutrons)(neutron mass)+ (number of protons)(proton mass) - (Atomic Mass of helium). Then to keep the units correct, multiply that entire expression by 931.5 MeV/u. This is the TOTAL binding energy, and the binding energy per nucleon can be found by dividing the number you calculate above by the total number of protons and neutrons.