Serum Ferritin Iron, a New Test, Measures Human Body Iron Stores Unconfounded by Inflammation

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Serum Ferritin Iron, a New Test, Measures Human Body Iron Stores Unconfounded by Inflammation

Victor Herbert^a, Elizabeth Jayatilleke^a, Spencer Shaw^a, Alan S. Rosman^a, Patricia Giardina^b, Robert W. Grady^b, Barbara Bowman^c, Elaine W. Gunter^c

^a Departments of Medicine, Mount Sinai School of Medicine, New York, New York, USA and Bronx VA Medical Center, Bronx, New York, USA;
^b Department of Pediatrics, New York Hospital-Cornell Medical Center, New York, New York, USA;
^c Nutritional Biochemistry Branch, Centers for Disease Control, Atlanta, Georgia, USA

Key Words. Ferritin iron • Iron stores • Inflammation • Hemochromatosis • Iron overload

Dr. Victor Herbert, 130 West Kingsbridge Road, Bronx, NY 10468-3922, USA.

Serum ferritin protein is an acute phase reactant. We hypothesizedthat serum ferritin protein generated in response to an inflammatoryprocess would have much less iron (Fe) in it than would "normal"ferritin protein, and therefore measuring serum ferritin ironwould assess human body iron status unconfounded by inflammation.

Basic Methods. We measured serum ferritin iron in 140 clinicalsamples obtained from the serum banks of Bronx VA Medical CenterHematology and Nutrition Laboratory (Bronx, NY), the CDC NutritionalBiochemistry serum sample bank (Atlanta, GA), and the samplebank from patients with thalassemia and iron overload treatedat New York Hospital (New York, NY). Each was analyzed for threeconventional criteria of iron status: serum iron, percentageof transferrin saturation and ferritin protein. In addition,tests for inflammation were also performed: C-reactive protein,WBC and transaminases. Seventy-seven patients' sera from 140screened met each of three consistent criteria for stages ofiron status.

Serum ferritin was immobilized by immunoprecipitation with rabbitantihuman polyclonal antibody bound to agarose and separatedfrom other iron-containing proteins, digested with 0.2 ml of3N nitric acid and analyzed for iron content by atomic absorptionspectroscopy.

Results. Serum ferritin iron ranged in normal controls from10 ng to 35 ng Fe/ml. The patients with iron deficiency (4/4)and those in negative iron balance (5/6) had values $<=$ 10 ng. Positiveiron balance (8/9) and iron overload (22/22) values were >35ng/ml, in contrast to 11/19 with inflammation. Seventeen oftwenty-two with overload had values >100 ng/ml while only1/19 with inflammation had such a value. Ferritin iron in ferritinprotein was >15% by weight in 14/22 with iron overload butin 0/19 with inflammation.

Implications of the Work. Serum ferritin iron is a simple, directmeasure of iron stores that we propose, in conjunction withmeasuring serum ferritin protein, as a minimally invasive screeningprocedure for accurately assessing the whole range of humanbody iron status, unconfounded by inflammation.

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