Myeloid sarcoma

A myeloid sarcoma (chloroma, granulocytic sarcoma,[1]:744 extramedullary myeloid tumor) is a solid tumor composed of immature white blood cells[2] called myeloblasts. A chloroma is an extramedullary manifestation of acute myeloid leukemia; in other words, it is a solid collection of leukemic cells occurring outside of the bone marrow.

Myeloid sarcoma
Micrograph of a myeloid sarcoma within muscle. H&E stain.
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Chloroma

Types

In acute leukemia

Chloromas are rare; exact estimates of their prevalence are lacking, but they are uncommonly seen even by physicians specializing in the treatment of leukemia. Chloromas may be somewhat more common in patients with the following disease features:[3]

However, even in patients with the above risk factors, chloroma remains an uncommon complication of acute myeloid leukemia.

Rarely, a chloroma can develop as the sole manifestation of relapse after apparently successful treatment of acute myeloid leukemia. In keeping with the general behavior of chloromas, such an event must be regarded as an early herald of a systemic relapse, rather than as a localized process. In one review of 24 patients who developed isolated chloromas after treatment for acute myeloid leukemia, the mean interval until bone marrow relapse was 7 months (range, 1 to 19 months).[4]

In myeloproliferative or myelodysplastic syndromes

Chloromas may occur in patients with a diagnosis of myelodysplastic syndrome (MDS) or myeloproliferative syndromes (MPS) (e.g. chronic myelogenous leukemia (CML), polycythemia vera, essential thrombocytosis, or myelofibrosis). The detection of a chloroma is considered de facto evidence these premalignant conditions have transformed into an acute leukemia requiring appropriate treatment. For example, presence of a chloroma is sufficient to indicate chronic myelogenous leukemia has entered its 'blast crisis' phase.

In Eosinophilic leukemia

At least one case of FIP1L1-PDGFRA fusion gene-induced eosinophilic leukemia presenting with myeloid sarcoma and eosinophilia has been reported. This form of myeloid sarcoma is distinguished by its highly successful treatment with imatinib (the recommended treatment for FIP1L1-PDGRGA fusion gene-induced eosinophilic leukemia) rather than more aggressive and toxic therapy.[5]

Primary chloroma

Very rarely, chloroma can occur without a known pre-existing or concomitant diagnosis of acute leukemia, acute promyelocytic leukemia or MDS/MPS; this is known as primary chloroma. Diagnosis is particularly challenging in this situation (see below). In almost all reported cases of primary chloroma, acute leukemia has developed shortly afterward (median time to development of acute leukemia 7 months, range 1–25 months).[3] Therefore, primary chloroma could be considered an initial manifestation of acute leukemia, rather than a localized process, and could be treated as such. Where disease development or markers indicate progresses to acute promyleocytic leukemia (AML3) treatment should be tailored to this form of disease.

Location and symptoms

Chloromas may occur in virtually any organ or tissue. The most common areas of involvement are the skin (also known as leukemia cutis) and the gums. Skin involvement typically appears as violaceous, raised, nontender plaques or nodules, which on biopsy are found to be infiltrated with myeloblasts[6] Note that leukemia cutis differs from Sweet's syndrome, in which the skin is infiltrated by mature neutrophils in a paraneoplastic process. Gum involvement (gingival hypertrophy) leads to swollen, sometimes painful gums which bleed easily with tooth brushing and other minor trauma.

Other tissues which can be involved include lymph nodes, the small intestine, the mediastinum, the lung, epidural sites, the uterus, the ovaries, and the orbit of the eye. Symptoms of chloroma at these sites are related to their anatomic location; chloromas may also be asymptomatic and be discovered incidentally in the course of evaluation of a person with acute myeloid leukemia.

Central nervous system involvement, as described above, most often takes the form of meningeal leukemia, or invasion of the subarachnoid space by leukemic cells. This condition is usually considered separately from chloroma, as it requires different treatment modalities. True chloromas (i.e. solid leukemic tumors) of the central nervous system are exceedingly rare, but have been described.

Diagnosis

Definitive diagnosis of a chloroma usually requires a biopsy of the lesion in question. Historically, even with a tissue biopsy, pathologic misdiagnosis was an important problem, particularly in patients without a clear pre-existing diagnosis of acute myeloid leukemia to guide the pathologist. In one published series on chloroma, the authors stated that 47% of the patients were initially misdiagnosed, most often as having a malignant lymphoma.[7]

However, with advances in diagnostic techniques, the diagnosis of chloromas can be made more reliable. Traweek et al. described the use of a commercially available panel of monoclonal antibodies, against myeloperoxidase, CD68, CD43, and CD20, to accurately diagnose chloroma via immunohistochemistry and differentiate it from lymphoma.[8] Nowadays, immunohistochemical staining using monoclonal antibodies against CD33 and CD117 would be the mainstay of diagnosis. The increasingly refined use of flow cytometry has also facilitated more accurate diagnosis of these lesions.

Prognostic significance

Evidence is conflicting on the prognostic significance of chloromas in patients with acute myeloid leukemia. In general, they are felt to augur a poorer prognosis, with a poorer response to treatment and worse survival;[9] however, others have reported chloromas associate, as a biologic marker, with other poor prognostic factors, and therefore do not have independent prognostic significance.[10] In case of primary isolated choloroma, prognosis is better [11]

Treatment

As described above, chloromas should always be considered manifestations of systemic disease, rather than isolated local phenomena, and treated as such. In the patient with newly diagnosed leukemia and an associated chloroma, systemic chemotherapy against the leukemia is typically used as the first-line treatment, unless an indication for local treatment of the chloroma (e.g. compromise of the spinal cord) emerges. Chloromas are typically quite sensitive to standard antileukemic chemotherapy. Allogeneic hematopoietic stem cell transplantation should be considered in fit patients with suitable available donor, as long term remissions have been reported.[12]

If the chloroma is persistent after completion of induction chemotherapy, local treatment, such as surgery or radiation therapy, may be considered, although neither has an effect on survival.[13]

Patients presenting with a primary chloroma typically receive systemic chemotherapy, as development of acute leukemia is nearly universal in the short term after detection of the chloroma.

Patients treated for acute leukemia who relapse with an isolated chloroma are typically treated with systemic therapy for relapsed leukemia. However, as with any relapsed leukemia, outcomes are unfortunately poor.

Patients with "preleukemic" conditions, such as myelodysplastic syndromes or myeloproliferative syndromes, who develop a chloroma are often treated as if they have transformed to acute leukemia.

History

The condition now known as chloroma was first described by the British physician A. Burns in 1811,[14] although the term chloroma did not appear until 1853.[15] This name is derived from the Greek word chloros (green), as these tumors often have a green tint due to the presence of myeloperoxidase. The link between chloroma and acute leukemia was first recognized in 1902 by Dock and Warthin.[16] However, because up to 30% of these tumors can be white, gray, or brown rather than green, the more correct term granulocytic sarcoma was proposed by Rappaport in 1967[17] and has since become virtually synonymous with the term chloroma.

Currently, any extramedullary manifestation of acute myeloid leukemia can be termed a granulocytic sarcoma or chloroma. Specific terms which overlap with granulocytic sarcoma include:

  • Leukemia cutis, describing infiltration of the dermis (skin) by leukemic cells, which is also referred to as cutaneous granulocytic sarcoma.
  • Meningeal leukemia, or invasion of the subarachnoid space by leukemic cells, is usually considered distinct from chloroma, although very rarely occurring solid central nervous system tumors composed of leukemic cells can be termed chloromas.

In recent years, the term "myeloid sarcoma" has been favored.[18]

See also

References

  1. James, William D.; Berger, Timothy G.; et al. (2006). Andrews' Diseases of the Skin: clinical Dermatology. Saunders Elsevier. ISBN 978-0-7216-2921-6.
  2. Karlin L, Itti E, Pautas C, et al. (December 2006). "PET-imaging as a useful tool for early detection of the relapse site in the management of primary myeloid sarcoma". Haematologica. 91 (12 Suppl): ECR54. PMID 17194660.
  3. Byrd JC, Edenfield WJ, Shields DJ, Dawson NA (July 1995). "Extramedullary myeloid cell tumors in acute nonlymphocytic leukemia: a clinical review". J. Clin. Oncol. 13 (7): 1800–16. doi:10.1200/JCO.1995.13.7.1800. PMID 7602369.
  4. Byrd JC, Weiss RB (April 1994). "Recurrent granulocytic sarcoma. An unusual variation of acute myelogenous leukemia associated with 8;21 chromosomal translocation and blast expression of the neural cell adhesion molecule". Cancer. 73 (8): 2107–12. doi:10.1002/1097-0142(19940415)73:8<2107::AID-CNCR2820730815>3.0.CO;2-W. PMID 7512442.
  5. Vega F, Medeiros LJ, Bueso-Ramos CE, Arboleda P, Miranda RN (2015). "Hematolymphoid neoplasms associated with rearrangements of PDGFRA, PDGFRB, and FGFR1". American Journal of Clinical Pathology. 144 (3): 377–92. doi:10.1309/AJCPMORR5Z2IKCEM. PMID 26276769. S2CID 10435391.
  6. Tan BY. (2015). "Myeloid Sarcoma Masquerading as Granulation Tissue: A Diagnostic Pitfall". Int J Surg Pathol. 23 (7): 553–556. doi:10.1177/1066896915588931. PMID 26063639. S2CID 5658954.
  7. Yamauchi K, Yasuda M (March 2002). "Comparison in treatments of nonleukemic granulocytic sarcoma: report of two cases and a review of 72 cases in the literature". Cancer. 94 (6): 1739–46. doi:10.1002/cncr.10399. PMID 11920536. S2CID 30158836.
  8. Traweek ST, Arber DA, Rappaport H, Brynes RK (October 1993). "Extramedullary myeloid cell tumors. An immunohistochemical and morphologic study of 28 cases". Am. J. Surg. Pathol. 17 (10): 1011–9. doi:10.1097/00000478-199310000-00006. PMID 8372941. S2CID 41874263.
  9. Byrd JC, Weiss RB, Arthur DC, et al. (February 1997). "Extramedullary leukemia adversely affects hematologic complete remission rate and overall survival in patients with t(8;21)(q22;q22): results from Cancer and Leukemia Group B 8461". J. Clin. Oncol. 15 (2): 466–75. doi:10.1200/JCO.1997.15.2.466. PMID 9053467.
  10. Bisschop MM, Révész T, Bierings M, et al. (January 2001). "Extramedullary infiltrates at diagnosis have no prognostic significance in children with acute myeloid leukaemia". Leukemia. 15 (1): 46–9. doi:10.1038/sj.leu.2401971. PMID 11243398.
  11. Imrie KR, Kovacs MJ, Selby D, Lipton J, Patterson BJ, Pantalony D, Poldre P, Ngan BY, Keating A, et al. (September 1995). "Isolated chloroma: the effect of early antileukemic therapy". Annals of Internal Medicine. 123 (5): 351–3. doi:10.7326/0003-4819-123-5-199509010-00005. PMID 7625623. S2CID 20631629.
  12. Kaur V, Swami A, Alapat D, et al. (2018). "Clinical characteristics, molecular profile and outcomes of myeloid sarcoma: a single institution experience over 13 years". Hematology. 23 (1): 17–24. doi:10.1080/10245332.2017.1333275. PMID 28574302.
  13. Imrie KR, Kovacs MJ, Selby D, et al. (September 1995). "Isolated chloroma: the effect of early antileukemic therapy". Ann. Intern. Med. 123 (5): 351–3. doi:10.7326/0003-4819-123-5-199509010-00005. PMID 7625623. S2CID 20631629.
  14. Burns A (1811). Observations of surgical anatomy, in Head and Neck. London: Royce. p. 364.
  15. King A (1853). "A case of chloroma". Monthly J Med. 17: 340–53. PMC 1315481. PMID 16693015.
  16. Dock G, Warthin AS (1904). "A new case of chloroma with leukemia". Trans Assoc Am Phys. 19 (64): 115.
  17. Rappaport H (1967). "Tumors of the hematopoietic system". Atlas of Tumor Pathology, Section III, Fascicle 8. Washington DC: Armed Forces Institute of Pathology. pp. 241–7.
  18. Chevallier P, Mohty M, Lioure B, et al. (July 2008). "Allogeneic Hematopoietic Stem-Cell Transplantation for Myeloid Sarcoma: A Retrospective Study From the SFGM-TC". J. Clin. Oncol. 26 (30): 4940–3. doi:10.1200/JCO.2007.15.6315. PMID 18606981.
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