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Tran sient Myeloproliferative Disorder: What’s Eosinophilia Got to Do With It?  Wade L. Schulz, PhD 1 , Malini B. DeSilva, MD 2  and R. Scott Velders, MD 3  University of Minnesota 1 Medical Scientist Training Program and 2 Departments of Internal Medicine and Pediatrics; 3 Hennepin County Medical Center Pediatrics  References 1. Gamis, A. S., & Smith, F. O. ( 2012). Transie nt myeloproliferative diso rder in children with Down syndrome: clarityto this enigmatic disorder.British journal of haematolo gy , 159(3), 277  87. 2. Ishigaki, H., Miyauchi, J., Yokoe, A., Nakayama, M., et al . (2011). Expression of megakaryocytic and myeloid markers in blasts of transient abnormal myelopoiesis in a stillbirth with Down syndrome: report of histopathological findi ngs of an autopsy case. Human  pathology , 42 (1), 141  5. 3. Kawase, K., Azuma, E., Ohshita, H., Tanaka, T., et al . (2012). Risk factors for early death in transient myeloproliferative disorder without phenotyp ic features of Down syndrome: a case report and literature review. Journal of pediatric hematology/onc ology , 34(6), 475  9. 4. Moiz, B., & Shafiq, M. (2012). Transient myelop roliferative disorder.Blood , 120 (24), 4672  4672. 5. Seewald, L., Taub, J. W., Maloney, K. W., & McCabe, E. R. B. (2012). Acute leukemias in children with Down syndrome. Molecular genetics and metabolism, 107 (1-2), 25  30. 6. Shimizu, R., & Yamamoto, M. (2012).Contribution of GATA 1 dysfunctionto multi-step leukemogenesis. Cancer science, 103(12), 2039  44. 7. Suda, J., Eguchi, M., Akiyama, Y., Iwama, Y., et al . (1987). Differentiationof blast cells from a Down’s syndrome patient with transient myeloprolifera tive disorder. Blood , 69(2), 508  12. 8. Webb, D., Roberts, I., & Vyas, P. (2007). Haematologyof Down syndrome.  Archives o f disease in childhood . Fetal and n eonatal ed ition , 92 (6), F503  7. 9. Zon, L. I., Yamag uchi, Y., Yee, K., Albee, E. a, Kimura, a, Bennett, J. C., Orkin, S. H., et al. (1993). Expressio n of mRNAf or the GATA-bindin g proteins in human eosinophils and basop hils: potential role in gene transcription. Blood , 81(12), 3234  41. Transient Myeloproliferative Disorder Occurs in 10% of newborns with Down syndrome Often asymptomatic and found incidentally In severe cases, TMD can cause respiratory distress, cardiovascular compromise, and liver failure Peripheral blood characterized by circulating blasts Case reports have also described basophilia Typical peripheral blood smear in a patient with transient myeloproliferative disorder. Note the predominance of blasts with a deeply basophilic cytoplasm. Genetics and Differentiation Proliferation due to mutation in GATA-1 that accompanies trisomy 21 No documented cases of eosinophilia Monocytes, eosinophils, and megakaryocytes derived from common myeloid progenitor Recent studies have shown GAT A-1 also regulates eosinophil differentiation Case Follow Up and Discussion Patient remained asymptomatic over hospital course Patien t’s white cell cou nt continued to decrea se spontane ously  Discharged on 6 th  day of life with close follow-up by PCP at outside facility Documented cases of TMD have shown circulating blasts or basophils in the peripheral blood; however, this case had an unusual presentation. Recent evidence has shown that the GATA-1 gene product implicated in the development of TMD also controls eosinophil differentiation. In patients with suspected TMD, the presence of eosinophilia is likely consistent and may not require additional workup for an infectious cause. While initially concerning to providers and parents, TMD is normally asymptomatic and spontaneously resolves, but demands close follow-up due to the increased risk of leukemia. Initial Presentation Full-term female infant born to mother of advanced maternal age by C-section Physical characteristics of Down syndrome, karyotype revealed 47,XX,+21 By 30 hours of life, patient developed hyperbilirubinemia and hepatosplenomegaly which prompted the need for phototherapy and further evaluation CBC revealed WBC count of 35.2x10 9  cells/L with 44% eosinophils Management and Treatment  Majority of cases resolve spontaneously within weeks Treatment with cytarabine (Ara-C) used for symptomatic cases Long-term follow-up with CBC every 3-6 months for the first few years of life due to increased risk of AML (30% of cases by 3 years of age)  American Academy of Pediatrics recommends counseling parents on signs of leukemia, including easy bruising, petechiae, increased lethargy, and changes in feeding Learning Objectives Understand the presentation of tr ansient myeloproliferative disorder (TMD) Demonstrate variations in the presentation of TMD Understand the genetic basis of TMD and cell differentiation Recognize findings of TMD that require treatment and potential long-term effects of TMD Peripheral Morphology  Anisopoikilocytosi s with evidence of increased red cel l regeneration Moderate absolute eosinophilia with a subset of immature neutrophils Immature subset lacked nuclear segmentation Characterized by basophilic and eosinophilic granules Platelet count normal with rare circulating megakaryocyte nuclei Hospital Course Infant was afebrile, but due to a f ailed hearing screen she was evaluated for infectious causes of eosinophilia; CMV and toxoplasma found to be negative WBC count declined to 22.5x10 9  cells/L and eosinophilia resolved by day five of life Hyperbilirubinemia resolved, thought to be physiologic jaundice of the newborn Final pathology diagnosis of transient myeloproliferative disorder (TMD)

Transient Myeloproliferative Disorder: What’s Eosinophilia Got to Do With It?

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Transient Myeloproliferative Disorder: What’s Eosinophilia Got to Do With It? 

Wade L. Schulz, PhD1, Malini B. DeSilva, MD2 and R. Scott Velders, MD3 University of Minnesota 1Medical Scientist Training Program and 2Departments of Internal Medicine and Pediatrics; 3Hennepin County Medical Center Pediatrics 

References1. Gamis, A. S., & Smith, F. O. ( 2012). Transient myeloproliferative disorder in children with Down syndrome: clarityto this enigmatic disorder.British journal of haematology , 159(3), 277 –87.

2. Ishigaki, H., Miyauchi, J., Yokoe, A., Nakayama, M., et al . (2011). Expression of megakaryocytic and myeloid markers in blasts of transient abnormal myelopoiesis in a stillbirth with Down syndrome: report of histopathological findi ngs of an autopsy case. Human pathology , 42 (1), 141 –5.

3. Kawase, K., Azuma, E., Ohshita, H., Tanaka, T., et al . (2012). Risk factors for early death in transient myeloproliferative disorder without phenotypic features of Down syndrome: a case report and literature review.Journal of pediatric hematology/oncology , 34(6),475 –9.

4. Moiz, B., & Shafiq, M. (2012). Transient myeloproliferative disorder.Blood , 120 (24), 4672 –4672.

5. Seewald, L., Taub, J. W., Maloney, K. W., & McCabe, E. R. B. (2012). Acute leukemias in children with Down syndrome. Molecular genetics and metabolism, 107 (1-2), 25 –30.

6. Shimizu, R., & Yamamoto, M. (2012).Contribution of GATA1 dysfunctionto multi-step leukemogenesis.Cancer science, 103(12), 2039 –44.

7. Suda, J., Eguchi, M., Akiyama, Y., Iwama, Y., et al . (1987). Differentiationof blast cells from a Down’s syndrome patient with transient myeloproliferative disorder. Blood , 69(2), 508 –12.

8. Webb, D., Roberts, I., & Vyas, P. (2007). Haematologyof Down syndrome. Archives of disease in childhood. Fetal and neonatal edition, 92 (6), F503 –7.

9. Zon, L. I., Yamaguchi, Y., Yee, K., Albee, E. a, Kimura, a, Bennett, J. C., Orkin, S. H., et al. (1993). Expression of mRNAf or the GATA-binding proteins in human eosinophils and basophils: potential role in gene transcription. Blood , 81(12), 3234 –41.

Transient Myeloproliferative Disorder

• Occurs in 10% of newborns with Down syndrome

• Often asymptomatic and found incidentally

• In severe cases, TMD can cause respiratory

distress, cardiovascular compromise, and

liver failure

• Peripheral blood characterized by circulating blasts

• Case reports have also described basophilia

Typical peripheral blood smear in a patient with

transient myeloproliferative disorder. Note the

predominance of blasts with a deeply basophilic

cytoplasm.

Genetics and Differentiation • Proliferation due to mutation in GATA-1 that

accompanies trisomy 21

• No documented cases of eosinophilia

• Monocytes, eosinophils, and megakaryocytes derivedfrom common myeloid progenitor

• Recent studies have shown GATA-1 also regulates

eosinophil differentiation

Case Follow Up and Discussion• Patient remained asymptomatic over hospital course

• Patient’s white cell count continued to decrease spontaneously 

• Discharged on 6th day of life with close follow-up by PCP at outside facility

Documented cases of TMD have shown circulating blasts or basophils in the peripheral

blood; however, this case had an unusual presentation. Recent evidence has shown that

the GATA-1 gene product implicated in the development of TMD also controls eosinophil

differentiation. In patients with suspected TMD, the presence of eosinophilia is likely

consistent and may not require additional workup for an infectious cause. While initially

concerning to providers and parents, TMD is normally asymptomatic and spontaneously

resolves, but demands close follow-up due to the increased risk of leukemia.

Initial Presentation• Full-term female infant born to mother of advanced maternal age by C-section

• Physical characteristics of Down syndrome, karyotype revealed 47,XX,+21

• By 30 hours of life, patient developed hyperbilirubinemia and hepatosplenomegaly which

prompted the need for phototherapy and further evaluation

• CBC revealed WBC count of 35.2x109 cells/L with 44% eosinophils

Management and Treatment • Majority of cases resolve spontaneously within weeks

• Treatment with cytarabine (Ara-C) used for symptomatic cases

• Long-term follow-up with CBC every 3-6 months for the first few years of life

due to increased risk of AML (30% of cases by 3 years of age)

•  American Academy of Pediatrics recommends counseling parents on signs of

leukemia, including easy bruising, petechiae, increased lethargy, and

changes in feeding

Learning Objectives• Understand the presentation of transient myeloproliferative disorder (TMD)

• Demonstrate variations in the presentation of TMD

• Understand the genetic basis of TMD and cell differentiation

• Recognize findings of TMD that require treatment and potential long-term effects of TMD

Peripheral Morphology

•  Anisopoikilocytosis with evidence of increased red cell regeneration

• Moderate absolute eosinophilia with a subset of immature neutrophils

• Immature subset lacked nuclear segmentation

• Characterized by basophilic and eosinophilic granules

• Platelet count normal with rare circulating megakaryocyte nuclei

Hospital Course• Infant was afebrile, but due to a failed hearing screen she was evaluated for

infectious causes of eosinophilia; CMV and toxoplasma found to be negative

• WBC count declined to 22.5x109 cells/L and eosinophilia resolved by day five of life

• Hyperbilirubinemia resolved, thought to be physiologic jaundice of the newborn

• Final pathology diagnosis of transient myeloproliferative disorder (TMD)