|Year : 2018 | Volume
| Issue : 1 | Page : 84-87
Acute myeloid leukemia presenting as a central nervous system mass in a child: A case report
Jagdish P Meena1, Menka Yadav1, Aditya K Gupta1, Prashant Ramteke2, Priyanka Naranje3, Rachna Seth1
1 Department of Pediatrics, All India Institute of Medical Sciences, New Delhi, India
2 Department of Pathology, All India Institute of Medical Sciences, New Delhi, India
3 Department of Radiodiagnosis, All India Institute of Medical Sciences, New Delhi, India
|Date of Web Publication||16-May-2018|
Dr. Jagdish P Meena
Room No. 3058, 3rd Floor, Teaching Block, All India Institute of Medical Sciences (AIIMS), New Delhi 110029
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Extramedullary leukemia is common in pediatric acute myeloid leukemia (AML) and occurs as a solid tumor (myeloid sarcoma). We report a case of a child who presented with acute onset of paraparesis and found to have intracranial and paravertebral mass; subsequently, he was diagnosed as having AML on tissue biopsy. He was started on AML treatment protocol, and later he was in remission and myeloid sarcoma got cleared from intracranial and paravertebral region. Timely diagnosis and initiation of treatment are essential to improve survival in such cases.
Keywords: Central nervous mass, extramedullary leukemia, myeloid sarcoma
|How to cite this article:|
Meena JP, Yadav M, Gupta AK, Ramteke P, Naranje P, Seth R. Acute myeloid leukemia presenting as a central nervous system mass in a child: A case report. J Pediatr Neurosci 2018;13:84-7
| Introduction|| |
Acute myeloid leukemia (AML), also termed as acute myelomonocytic leukemia, acute myelogenous leukemia, and acute granulocytic leukemia, is the second most common type of leukemia in children, which accounts for 15%–20% of leukemia in children. Central nervous system (CNS) myeloid sarcoma (MS) is a rare manifestation of AML, first described by Burns in 1811 by the term chloroma. MS is a solid tumor consisting of abnormal myeloblasts that occur outside the bone marrow. Other names for this entity include granulocytic sarcoma, chloroma (because of their greenish color), myelosarcoma, myeloblastoma, or extramedullary myeloid tumor. Intracranially, MSs are often continuous with the meninges or the ependyma. Simultaneous involvement of CNS and spinal cord compression is rare as a first manifestation of MS. The definitive diagnosis of MSs is important in the treatment of AML. Here we report a pediatric case of paravertebral and CNS granulocytic sarcoma presenting as paraparesis before making a diagnosis of AML.
| Case Report|| |
A 7-year-old male child presented to us with fever and pain over bilateral lower limbs for the last 2.5 months. He also had decreased movements of bilateral lower limbs for almost 1 week. There was also a history of swelling of bilateral feet for 1 day. There was associated loss of sensation of bilateral lower limbs and loss of sensation of bladder fullness/micturition/defecation. There was no history of seizure. Family and past history was unremarkable. On examination, he had nonpitting edema over the lower limbs. There was a history of urinary and fecal incontinence. He also had pallor and hepatomegaly (4cm below costal margin) but no splenomegaly. His meningeal signs were positive. Deep tendon reflexes were absent with 0/5 power in both the lower limbs. Initial possibility of compressive myelopathy was kept. Differential diagnosis of metastatic neuroblastoma or lymphoma was kept.
| Investigations|| |
His hemoglobin was 7.4g/dL, total leukocyte count (TLC) was 11,500/mm3, platelet count was 71,000/mm3, and lactate dehydrogenase was 3,441 U/L. Chest X-ray and echocardiography were normal. His computerized tomography (CT) scan of the brain revealed enhancing masses having smooth outline in (a) atrium of left lateral ventricle, 3.8×3cm; (b) anterior falx cerebri, 2×1.7cm; (c) dura based in the left anterior middle cranial fossa, and (d) the lateral extraconal space of right orbit, 15×8mm [Figure 1]A and B]. CT scan of the abdomen and spine revealed left paravertebral enhancing soft tissue at the level of L3 (2.26×0.96cm) and extradural soft tissue deposits at D4 and D8 levels [[Figure 1]C and D].
|Figure 1: Baseline CT scan. (A) Left atrium of left ventricle anterior falx cerebri. (B) Left middle cranial fossa, right lateral wall of orbit. (C) Left paravertebral enhancing soft tissue at the level of L3. (D) Extradural soft tissue deposits at D4 and D8 level. Arrows showing where the mass lesion are|
Click here to view
He underwent CT-guided biopsy of the left paravertebral mass, and it revealed mononuclear cells that were immunopositive for myeloperoxidase (MPO) [[Figure 2]. The features were suggestive of infiltration by myeloid leukemia. Bone marrow examination suggested AML. Child was started on dexamethasone initially as the child presented with compressive myelopathy. Subsequently, he was started on MRC10-AML protocol when definitive diagnosis of AML was made. At the end of the induction chemotherapy, the bone marrow aspirate of our patient was in morphological remission, and the CT scan of the brain was repeated, which showed >90% reduction and minimal residual left atrial lesion and resolved middle cranial fossa and orbit lesions [Figure 3]A and B]. Unfortunately, after completion of fourth cycle of chemotherapy, his bone marrow was not in morphological remission and his parents did not opt for further therapy.
|Figure 2: (A) The atypical tumor cells containing moderate-to-abundant eosinophilic cytoplasm with distinct cytoplasmic boundaries, round-to-oval nucleus with finely granular chromatin and showing frequent apoptosis and atypical mitosis (400×, hematoxylin and eosin stain). (B) Leukocyte common antigen is positive (200×, immunohistochemistry [IHC]). (C) MPO positive (200×, IHC). (D) MIC-2 positive (200×, IHC)|
Click here to view
|Figure 3: Postinduction chemotherapy CT scan. (A) Residual left atrial lesion. (B) Resolved middle cranial fossa and orbit lesions|
Click here to view
| Discussion|| |
Patients with AML develop MS by different patterns: (a) MS may develop during the active phase of leukemia; (b) they may manifest as a relapse after months or years after clinical remission of AML],[ particularly after bone marrow transplantation; and (c) they may precede the AML diagnosis and may be detected in patients who have a normal peripheral blood cell count. Our patient had anemia and thrombocytopenia but normal TLC. Krause described that 0.6% of cases do not have blast infiltration in the bone marrow. Most of patients take an average of 10.5 months to develop myeloid leukemic blast infiltration after the diagnosis of an MS.
MS seen in patients with leukemia may involve any part of the body. The most common sites for MS deposits are skin (leukemia cutis), lymph nodes, the bones, gastrointestinal tract, soft tissues, and gingivae. The spinal column is much less commonly involved, with an incidence rate of 13%–19%. The most common site is thoracic spine (64%) followed by lumber, sacral, and cervical spine with an incidence rate of 29%, 20%, and 5%, respectively.,, Rarely, they may manifest as single or multiple intracranial lesions, most commonly seen within the calvarias and orbits. Cervantes and Cayci reviewed from literature that of 24 intracranial MS lesions, 13 lesions (48%) have presented as focal tumor masses within the intraparenchymal compartment of the brain.
MS appears to be more common in the pediatric population, with an incidence of up to 30% in children with AML compared with 2%–5% in adults. MSs are more common in infants than in older children and adults. MS can occur at any age often after the diagnosis of AML. MSs appear before the initial diagnosis of AML by months or years in approximately 25% of patients. There are conflicting results of prognosis of MS.,, The index patient had a mass in CNS as well as at paravertebral location and ultimately he relapsed.
Intracranial MS in patients with AML most commonly presents as an extra-axial hyperdense mass on noncontrast CT scan. Cervantes and Cayci reviewed that except one, from 24 intracranial MS cases, all appeared as hyperdense masses on the noncontrast CT studies. The differential diagnosis of hyperdense intracranial masses may include metastatic neuroblastoma, meningioma, B-cell lymphoma, intracranial metastasis, and Ewing’s sarcoma.
| Conclusions|| |
MS of the CNS is a rare presentation of AML. There should be suspicion of MS if any child presents with a CNS mass with or without normal complete blood counts. It should always be a part of the differential diagnosis in the evaluation of unusual masses. This can be detected before the diagnosis of leukemia or any time throughout the course of the disease during routine neuroimaging studies.
Informed written consent was taken from father.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Burns A (ed.). Observations of surgical anatomy. In Head and neck. London, UK: Royce;1811. p. 364.
Fonseca A, Scheinemann K, Jansen J, Barr R. Testicular myeloid sarcoma: an unusual presentation of infant acute myeloid leukemia. J Pediatr Hematol Oncol 2014;13:e155-7.
Audouin J, Comperat E, Le Tourneau A, Camilleri-Broët S, Adida C, Molina T, et al
. Myeloid sarcoma: clinical and morphologic criteria useful for diagnosis. Int J Surg Pathol 2003;13: 271-82.
Krause JR. Myeloid sarcoma preceding acute leukemia: a report of six cases. Cancer 1979;13:1017-21.
Neiman RS, Barcos M, Berard C, Bonner H, Mann R, Rydell RE, et al
. Myeloid sarcoma: a clinicopathologic study of 61 biopsied cases. Cancer 1981;13:1426-37.
Landis DM, Aboulafia DM. Granulocytic sarcoma: an unusual complication of aleukemic myeloid leukemia causing spinal cord compression. A case report and literature review. Leuk Lymphoma 2003;13:1753-60.
Tsimberidou AM, Kantarjian HM, Estey E, Cortes JE, Verstovsek S, Faderl S, et al
. Outcome in patients with nonleukemic granulocytic sarcoma treated with chemotherapy with or without radiotherapy. Leukemia 2003;13: 1100-3.
Yamauchi K, Yasuda M. Comparison in treatments of nonleukemic granulocytic sarcoma: report of two cases and a review of 72 cases in the literature. Cancer 2002;13: 1739-46.
Osborn AG. Lymphomas, hematopoietic and histiocytic tumors. In:Osborn AG, Hedlund GL, Salzman KL, editors. Osborn’s brain: imaging, pathology and anatomy. 2nd ed. Salt Lake City, UT: Amirsys Publishing;2013. pp. 668-71.
Cervantes GM, Cayci Z. Intracranial CNS manifestations of myeloid sarcoma in patients with acute myeloid leukemia: review of the literature and three case reports from the author’s institution. J Clin Med 2015;13:1102-12.
Klco JM, Welch JS, Nguyen TT, Hurley MY, Kreisel FH, Hassan A, et al
. State of the art in myeloid sarcoma. Int J Lab Hematol 2011;13:555-65.
Avni B, Koren-Michowitz M. Myeloid sarcoma: current approach and therapeutic options. Adv Hematol 2011;13: 309-16.
Park KU, Lee DS, Lee HS, Kim CJ, Cho HI. Granulocytic sarcoma in MLL-positive infant acute myelogenous leukemia: fluorescence in situ
hybridization study of childhood acute myelogenous leukemia for detecting MLL rearrangement. Am J Pathol 2001;13:2011-16.
Dusenbery KE, Howells WB, Arthur DC, Alonzo T, Lee JW, Kobrinsky N, et al
. Extramedullary leukemia in children with newly diagnosed acute myeloid leukemia. A report from the Children’s Cancer Group. J Pediatr Hematol Oncol 2003;13:760-8.
Tsimberidou AM, Kantarjian HM, Wen S, Keating MJ, O’Brien S, Brandt M, et al
. Myeloid sarcoma is associated with superior event-free survival and overall survival compared with acute myeloid myeloid leukemia. Cancer 2008;13:1370-8.
[Figure 1], [Figure 2], [Figure 3]