%0 Journal Article %T Multivariable Discriminant Analysis for the Differential Diagnosis of Microcytic Anemia %A Elo¨ªsa Urrechaga %A Urko Aguirre %A Silvia Izquierdo %J Anemia %D 2013 %I Hindawi Publishing Corporation %R 10.1155/2013/457834 %X Introduction. Iron deficiency anemia and thalassemia are the most common causes of microcytic anemia. Powerful statistical computer programming enables sensitive discriminant analyses to aid in the diagnosis. We aimed at investigating the performance of the multiple discriminant analysis (MDA) to the differential diagnosis of microcytic anemia. Methods. The training group was composed of 200 ¦Â-thalassemia carriers, 65 ¦Á-thalassemia carriers, 170 iron deficiency anemia (IDA), and 45 mixed cases of thalassemia and acute phase response or iron deficiency. A set of potential predictor parameters that could detect differences among groups were selected: Red Blood Cells (RBC), hemoglobin (Hb), mean cell volume (MCV), mean cell hemoglobin (MCH), and RBC distribution width (RDW). The functions obtained with MDA analysis were applied to a set of 628 consecutive patients with microcytic anemia. Results. For classifying patients into two groups (genetic anemia and acquired anemia), only one function was needed; 87.9% ¦Â-thalassemia carriers, and 83.3% ¦Á-thalassemia carriers, and 72.1% in the mixed group were correctly classified. Conclusion. Linear discriminant functions based on hemogram data can aid in differentiating between IDA and thalassemia, so samples can be efficiently selected for further analysis to confirm the presence of genetic anemia. 1. Introduction Iron deficiency anemia (IDA) and ¦Â-thalassemia are the most common causes of microcytic anemia. The differentiation between IDA and microcytosis due to genetic cause has important clinical implications. As all chronic diseases, prevention is important in the overall management of the disease: an appropriate screening, detection of patients, and counsel of couples at risk are the most important procedures for the reduction of morbidity and mortality of the patients [1]. The presumptive identification of hemoglobin disorders must rely on inexpensive methods of detection, to allow an efficient use of the resources: a good method for screening can help, allowing selection of samples for further analysis to confirm the disease. Definitive methods for diagnosis of thalassemia trait include quantitative analysis of HbA2 and DNA studies for specific deletions and mutations. Increased HbA2 is considered to be confirmatory for ¦Â-thalassemia trait. Low or normal values and no evidence of iron deficiency suggest ¦Á-thalassemia; definitive diagnosis requires molecular methods to detect gene deletions. While being accurate, these tests are too expensive for initial mass screening [2]. The availability of computer, %U http://www.hindawi.com/journals/anemia/2013/457834/