An 81-year-old man suffering from autoimmune hepatitis, who had been on prednisolone (10–20 mg/day) and azathioprine (AZA) (50 mg/day) for about 5 months, was diagnosed with macrocytic anemia during a routine examination. Before treatment with prednisolone and AZA, complete blood count revealed a white blood cell count of 9,780/μL, hemoglobin level of 11.7 g/dL with a mean corpuscular volume of 91.9 fL (normal range, 80–99 fL), and platelet count of 18.4×104/μL. Five months after treatment with prednisolone and AZA, complete blood count revealed a white blood cell count of 6,180/μL, hemoglobin level of 7.2 g/dL with a mean corpuscular volume of 109.1 fL, and platelet count of 17.5×104/μL. Serological tests revealed iron level of 116 μg/dL (normal range, 40–190 μg/dL), free thyroxine level of 1.10 ng/dL (normal range, 0.9–1.70 ng/dL), vitamin B12 level of 462 pg/mL (normal range, 233–914 pg/mL), folic acid level of 7.4 ng/mL (normal range, 3.6–12.9 ng/mL), and anti-DNA antibody (Ab) level of <1.7 IU/mL (normal value, <6.0 IU/mL). The results of tests for antivirus immunoglobulin M (IgM) Ab were negative for anti-parvovirus B19 IgM Ab, anti-Epstein-Barr virus capsid antigen IgM Ab, and anti-cytomegalovirus IgM Ab. Bone marrow aspiration revealed a normocellular bone marrow. The aspiration smear revealed a neutrophil with hypersegmentation (Fig. 1), an erythroblast with a bilobulated nucleus (Fig. 2A), an erythroblast with abundant cytoplasm and a multilobulated nucleus (Fig. 2B), an erythroblast with a multilobulated nucleus and Howell-Jolly bodies (Fig. 2C), an erythrocyte with abundant cytoplasm and Howell-Jolly bodies (Fig. 2D), and a megakaryocyte with separated nuclei (Fig. 3). However, no chromosomal aberrations were observed. Based on these findings, vitamin B12 or folic acid deficiency, viral infections, and systemic lupus erythematosus that led to anemia with myelodysplasia were not diagnosed. Considering AZA-induced hematopoietic disorder, AZA treatment was discontinued, leading to normalization of macrocytic anemia over a 4-month period. Therefore, it appeared that AZA cessation alleviated the patient’s macrocytic anemia.
AZA, a recognized carcinogen, is widely used in patients with autoimmune diseases and is associated with the development of therapy-related myelodysplastic syndrome (MDS) and acute myeloid leukemia. It has been reported that AZA had been administered for 6 to 192 months (median, 65 months) to a cumulative dose of 19 to 750 g (median, 146 g), before therapy-related MDS and acute myeloid leukemia developed [1]. Moreover, MDS following treatment with AZA is associated with aberrations of chromosome 7 [2,3]. In the present case, AZA had been administered for only 5 months to a cumulative dose of 7.6 g. At the same time, no chromosomal aberrations were observed during this period. Based on these findings, the patient was finally diagnosed with AZA-induced myelodysplasia, not AZA-related MDS. Although bone marrow aspiration was not carried out again, this myelodysplasia was thought to be transient.
Thus, clinicians should take notice of AZA-induced myelodysplasia mimicking MDS because it can be safely treated with drug withdrawal.
