MON-481 Remarkable Euthyroid Hyperthyroxinemia Mistaken for Thyrotoxicosis

CLINICAL CASE A 46 year old caucasian female with past medical history of menorrhagia was referred from primary care for evaluation of thyrotoxicosis. Thyroid function was assessed in the context of menometrorrhagia. She did not have any history of thyroid disorder or abnormal thyroid function tests. Per outside records, recent labs demonstrated TSH 0.88 uIU/mL (0.36-3.74), Free T4 > 8.00 ng/dL (0.76-1.46), Free T3 2.9 pg/mL (2.18-3.98). All other labs were within normal limits. Thyroid ultrasound revealed normal parenchyma and volume. She did not take any medications or supplements including biotin. She denied heat intolerance, anxiety, palpitations, dyspnea, tremors, hyperdefecation, or change in hair, skin, or mood. No epiphora, diplopia, or eye irritation was reported. Her father had been diagnosed with hyperthyroidism, mother with hypothyroidism. Repeat labs at our visit revealed normal TSH of 1.05 uIU/mL (0.358- 3.74), normal Free T3 2.58 pg/mL (2.18- 3.98), normal Total T3 136 ng/dL (80-200), elevated Free T4 >8.00 ng/dL (0.76-1.46) and elevated Total T4 11.6 ug/dL (4.5-10.5). These lab values were not consistent with patient’s euthyroid clinical status, prompting assessment of Free T4 by dialysis, normal at 1.5 ng/dL (0.9-2.2) and T3 uptake, high at 40% (24-39%). This picture was consistent with Familial Dysalbuminemic Hyperthyroxenemia (FDH). The decision was made not to treat the patient with anti-thyroid medications and to perform a confirmatory genetic testing to test for mutations in the ALB (albumin) gene. DISCUSSION The free T4 assay used by our institution is performed on the Siemens Dimension Vista platform using a two-step chemiluminescent immunoassay. While in theory two-step assays should not yield abnormal results in FDH, several two-step assays are known to yield falsely high results in patients with FDH (1, 2, 3). Other potential etiologies for discordant Free T4 levels include thyroid hormone autoantibodies, heterophile antibodies, biotin use, and anti-streptavidin antibodies (3). CONCLUSION Recognition of laboratory error in the workup of thyroid disease is essential. Clinicians must ensure thyroid function labs are consistent with each other and with the patient’s presentation. In such cases misdiagnosis of hyperthyroidism or thyroid hormone resistance may lead to unnecessary testing and inappropriate treatment (3). References 1. Cartwright D et al. Familial dysalbuminemic hyperthyroxinemia: a persistent diagnostic challenge. Clin Chem. 2009 May;55(5):1044-6 2. Ross HA et al. Spuriously high free thyroxine values in familial dysalbuminemic hyperthyroxinemia. Clin Chem. 2011 Mar;57(3):524-5 3. Favresse J et al. Interferences With Thyroid Function Immunoassays: Clinical Implications and Detection Algorithm. Endocr Rev. 2018 Oct 1;39(5):830-850.